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Causes of peripheral neuropathy include: trauma, infections, metabolic problems, and exposure to toxins. One of the most common causes of peripheral neuropathy is diabetes mellitus. It can also be inherited.

Peripheral neuropathy (Overview): Peripheral neuropathy, a result of damage to your peripheral nerves, often causes weakness, numbness and pain, usually in your hands and feet. It can also affect other areas of your body. Your peripheral nervous system sends information from your brain and spinal cord (central nervous system) to the rest of your body. Peripheral neuropathy can result from traumatic injuries, infections, metabolic problems, inherited causes and exposure to toxins. One of the most common causes is diabetes mellitus. People with peripheral neuropathy generally describe the pain as stabbing, burning or tingling. In many cases, symptoms improve, especially if caused by a treatable condition. Medications can reduce the pain of peripheral neuropathy. Peripheral neuropathy care at Mayo Clinic

Causes of Peripheral Neuropathy What information does the National Library of Medicine have that states causes of peripheral neuropathy?

Peripheral neuropathy is nerve damage caused by a number of conditions that include: alcoholism; autoimmune diseases; diabetes; exposure to toxins, such as heavy metals and chemicals; medications, especially those used to treat cancer; certain viral or bacterial infections; tumors; vitamin deficiencies and occasionally, kidney disease, liver disease, connective tissue disorders and an underactive thyroid.

Peripheral neuropathy (Causes): Not a single disease, peripheral neuropathy is nerve damage caused by a number of conditions. Causes of neuropathies include: - Alcoholism. Poor dietary choices made by people with alcoholism can lead to vitamin deficiencies. - Autoimmune diseases. These include Sjogren's syndrome, lupus, rheumatoid arthritis, Guillain-Barre syndrome, chronic inflammatory demyelinating polyneuropathy and necrotizing vasculitis. - Diabetes. More than half the people with diabetes develop some type of neuropathy. - Exposure to poisons. Toxic substances include heavy metals or chemicals. - Medications. Certain medications, especially those used to treat cancer (chemotherapy), can cause peripheral neuropathy. - Infections. These include certain viral or bacterial infections, including Lyme disease, shingles, Epstein-Barr virus, hepatitis C, leprosy, diphtheria and HIV. - Inherited disorders. Disorders such as Charcot-Marie-Tooth disease are hereditary types of neuropathy. - Trauma or pressure on the nerve. Traumas, such as from motor vehicle accidents, falls or sports injuries, can sever or damage peripheral nerves. Nerve pressure can result from having a cast or using crutches or repeating a motion such as typing many times. - Tumors. Growths, cancerous (malignant) and noncancerous (benign), can develop on the nerves or press nerves. Also, polyneuropathy can arise as a result of some cancers related to the body's immune response. These are a form of paraneoplastic syndrome. - Vitamin deficiencies. B vitamins - including B-1, B-6 and B-12 - vitamin E and niacin are crucial to nerve health. - Bone marrow disorders. These include abnormal protein in the blood (monoclonal gammopathies), a form of bone cancer (osteosclerotic myeloma), lymphoma and amyloidosis. - Other diseases. These include kidney disease, liver disease, connective tissue disorders and an underactive thyroid (hypothyroidism). In a number of cases, no cause can be identified (idiopathic).

Causes of Peripheral Neuropathy What information does the National Library of Medicine have that states causes of peripheral neuropathy?

To keep your blood sugar in your target range, follow a meal plan that includes a variety of foods, about the same amount of carbohydrates at each meal and snack, and healthy fats. Carbohydrates in food give you energy, but carbohydrates also raise your blood sugar higher and faster than other kinds of food. The main kinds of carbohydrates are starches, sugars, and fiber. The plate method could help getting all the nutrients you need during meals. This method encourages larger portions of non-starchy vegetables (half the plate) and moderate portions of protein (one quarter of the plate) and starch (one quarter of the plate). If you are overweight, losing 10 pounds can help. You can achieve and maintain your desired weight by eating healthy foods and staying active, for example, walking 30 to 60 minutes of per day.

Diabetes type 2 - meal planning (Function): Your main focus is on keeping your blood sugar (glucose) level in your target range. To help manage your blood sugar, follow a meal plan that has: - Food from all the food groups - Fewer calories - About the same amount of carbohydrates at each meal and snack - Healthy fats Along with healthy eating, you can help keep your blood sugar in target range by maintaining a healthy weight. Persons with type 2 diabetes are often overweight. Losing just 10 pounds (4.5 kilograms) can help you manage your diabetes better. Eating healthy foods and staying active (for example, 30 to 60 minutes of walking per day) can help you meet and maintain your weight loss goal. HOW CARBOHYDRATES AFFECT BLOOD SUGAR Carbohydrates in food give your body energy. You need to eat carbohydrates to maintain your energy. But carbohydrates also raise your blood sugar higher and faster than other kinds of food. The main kinds of carbohydrates are starches, sugars, and fiber. Learn which foods have carbohydrates. This will help with meal planning so that you can keep your blood sugar in your target range. MEAL PLANNING FOR CHILDREN WITH TYPE 2 DIABETES Meal plans should consider the amount of calories children need to grow. In general, three small meals and three snacks a day can help meet calorie needs. Many children with type 2 diabetes are overweight. The goal should be a healthy weight by eating healthy foods and getting more activity (60 minutes each day). Work with a registered dietitian to design a meal plan for your child. A registered dietitian is an expert in food and nutrition. The following tips can help your child stay on track: - No food is off-limits. Knowing how different foods affect your child's blood sugar helps you and your child keep it in target range. - Help your child learn how much food is a healthy amount. This is called portion control. - Have your family gradually switch from drinking soda and other sugary drinks, such as sports drinks and juices, to plain water or low-fat milk. PLANNING MEALS Everyone has individual needs. Work with your doctor, registered dietitian, or diabetes educator to develop a meal plan that works for you. When shopping, read food labels to make better food choices. A good way to make sure you get all the nutrients you need during meals is to use the plate method. This is a visual food guide that helps you choose the best types and right amounts of food to eat. It encourages larger portions of non-starchy vegetables (half the plate) and moderate portions of protein (one quarter of the plate) and starch (one quarter of the plate). You can find more information about the plate method at the American Diabetes Association website: www.diabetes.org/food-and-fitness/food/planning-meals/create-your-plate. EAT A VARIETY OF FOODS Eating a wide variety of foods helps you stay healthy. Try to include foods from all the food groups at each meal. VEGETABLES (2½ to 3 cups or 450 to 550 grams a day) Choose fresh or frozen vegetables without added sauces, fats, or salt. Non-starchy vegetables include dark green and deep yellow vegetables, such as cucumber, spinach, broccoli, romaine lettuce, cabbage, chard, and bell peppers. Starchy vegetables include corn, green peas, lima beans, carrots, yams and taro. Note that potato should be considered a pure starch, like white bread or white rice, instead of a vegetable. FRUITS (1½ to 2 cups or 240 to 320 grams a day) Choose fresh, frozen, canned (without added sugar or syrup), or unsweetened dried fruits. Try apples, bananas, berries, cherries, fruit cocktail, grapes, melon, oranges, peaches, pears, papaya, pineapple, and raisins. Drink juices that are 100% fruit with no added sweeteners or syrups. GRAINS (3 to 4 ounces or 85 to 115 grams a day) There are 2 types of grains: - Whole grains are unprocessed and have the entire grain kernel. Examples are whole-wheat flour, oatmeal, whole cornmeal, amaranth, barley, brown and wild rice, buckwheat, and quinoa. - Refined grains have been processed (milled) to remove the bran and germ. Examples are white flour, de-germed cornmeal, white bread, and white rice. Grains have starch, a type of carbohydrate. Carbohydrates raise your blood sugar level. For healthy eating, make sure half of the grains you eat each day are whole grains. Whole grains have lots of fiber. Fiber in the diet keeps your blood sugar level from rising too fast. PROTEIN FOODS (5 to 6½ ounces or 140 to 184 grams a day) Protein foods include meat, poultry, seafood, eggs, beans and peas, nuts, seeds, and processed soy foods. Eat fish and poultry more often. Remove the skin from chicken and turkey. Select lean cuts of beef, veal, pork, or wild game. Trim all visible fat from meat. Bake, roast, broil, grill, or boil instead of frying. When frying proteins, use healthy oils such as olive oil. DAIRY (3 cups or 245 grams a day) Choose low-fat dairy products. Be aware that milk, yogurt, and other dairy foods have natural sugar, even when they do not contain added sugar. Take this into account when planning meals to stay in your blood sugar target range. Some non-fat dairy products have a lot of added sugar. Be sure to read the label. OILS/FATS (no more than 7 teaspoons or 35 milliliters a day) Oils are not considered a food group. But they have nutrients that help your body stay healthy. Oils are different from fats in that oils remain liquid at room temperature. Fats remain solid at room temperature. Limit your intake of fatty foods, especially those high in saturated fat, such as hamburgers, deep-fried foods, bacon, and butter. Instead, choose foods that are high in polyunsaturated or monounsaturated fats. These include fish, nuts, and vegetable oils. Oils can raise your blood sugar, but not as fast as starch. Oils are also high in calories. Try to use no more than the recommended daily limit of 7 teaspoons (35 milliliters). WHAT ABOUT ALCOHOL AND SWEETS? If you choose to drink alcohol, limit the amount and have it with a meal. Check with your health care provider about how alcohol will affect your blood sugar and to determine a safe amount for you. Sweets are high in fat and sugar. Keep portion sizes small. Here are tips to help avoid eating too many sweets: - Ask for extra spoons and forks and split your dessert with others. - Eat sweets that are sugar-free. - Always ask for the smallest serving size or children's size. YOUR DIABETES CARE TEAM IS THERE TO HELP YOU In the beginning, meal planning may be overwhelming. But it will become easier as your knowledge grows about foods and their effects on your blood sugar. If you're having problems with meal planning, talk with your diabetes care team. They are there to help you.

Diabetes Type 2 I test before going to bed and the reading is 94 but when I test again in the morning, the reading is 165. How can I lower it? I eat dinner around 8PM and nothing until the next morning.

Lifestyle changes, such as eating healthy, exercising and losing weight if you are overweight, could delay or prevent the start of type 2 diabetes.

Diabetes: Diabetes is a chronic disease in which the body cannot regulate the amount of sugar in the blood. Insulin is a hormone produced by the pancreas to control blood sugar. Diabetes can be caused by too little insulin, resistance to insulin, or both. To understand diabetes, it is important to first understand the normal process by which food is broken down and used by the body for energy. Several things happen when food is digested: - A sugar called glucose enters the bloodstream. Glucose is a source of fuel for the body. - An organ called the pancreas makes insulin. The role of insulin is to move glucose from the bloodstream into muscle, fat, and liver cells, where it can be stored or used as fuel. People with diabetes have high blood sugar because their body cannot move sugar from the blood into muscle and fat cells to be burned or stored for energy, and/or because their liver makes too much glucose and releases it into the blood. This is because either: - Their pancreas does not make enough insulin - Their cells do not respond to insulin normally - Both of the above There are two major types of diabetes. The causes and risk factors are different for each type: - Type 1 diabetes can occur at any age, but it is most often diagnosed in children, teens, or young adults. In this disease, the body makes little or no insulin. This is because the pancreas cells that make insulin stop working. Daily injections of insulin are needed. The exact cause is unknown. - Type 2 diabetes is much more common. It most often occurs in adulthood, but because of high obesity rates, children and teens are now being diagnosed with this disease. Some people with type 2 diabetes do not know they have it. With type 2 diabetes, the body is resistant to insulin and doesn't use insulin as well as it should. - There are other causes of diabetes, and some people cannot be classified as type 1 or type 2. Gestational diabetes is high blood sugar that develops at any time during pregnancy in a woman who does not have diabetes. If your parent, brother, or sister has diabetes, you may be more likely to develop the disease. A high blood sugar level can cause several symptoms, including: - Blurry vision - Excess thirst - Fatigue - Frequent urination - Hunger - Weight loss Because type 2 diabetes develops slowly, some people with high blood sugar have no symptoms. Symptoms of type 1 diabetes develop over a short period. People may be very sick by the time they are diagnosed. After many years, diabetes can lead to other serious problems. These problems are known as diabetes complications, and include: - Eye problems, including trouble seeing (especially at night), light sensitivity, and blindness - Sores and infections of the leg or foot, which if untreated, can lead to amputation of the leg or foot - Damage to nerves in the body, causing pain, tingling, a loss of feeling, problems digesting food, and erectile dysfunction - Kidney problems, which can lead to kidney failure - Weakened immune system, which can lead to more frequent infections - Increased chance of having a heart attack or stroke A urine analysis may show high blood sugar. But a urine test alone does not diagnose diabetes. Your health care provider may suspect that you have diabetes if your blood sugar level is higher than 200 mg/dL (11.1 mmol/L). To confirm the diagnosis, one or more of the following tests must be done. Blood tests: - Fasting blood glucose level. Diabetes is diagnosed if the fasting glucose level is higher than 126 mg/dL (7.0 mmol/L) on two different tests. Levels between 100 and 126 mg/dL (5.5 and 7.0 mmol/L) are called impaired fasting glucose or prediabetes. These levels are risk factors for type 2 diabetes. - Hemoglobin A1c (A1C) test. Normal is less than 5.7%; prediabetes is 5.7% to 6.4%; and diabetes is 6.5% or higher. - Oral glucose tolerance test. Diabetes is diagnosed if the glucose level is higher than 200 mg/dL (11.1 mmol/L) 2 hours after drinking a sugar drink (this test is used more often for type 2 diabetes). Screening for type 2 diabetes in people who have no symptoms is recommended for: - Overweight children who have other risk factors for diabetes, starting at age 10 and repeated every 3 years. - Overweight adults (BMI of 25 or higher) who have other risk factors such as having high blood pressure, or having a mother, father, sister or brother with diabetes. - Adults over age 45, repeated every 3 years. Type 2 diabetes may be reversed with lifestyle changes, especially losing weight with exercise and by eating healthier foods. Some cases of type 2 diabetes can also be improved with weight loss surgery. There is no cure for type 1 diabetes. Treating either type 1 diabetes or type 2 diabetes involves medicines, diet, and exercise to control blood sugar level. Everyone with diabetes should receive proper education and support about the best ways to manage their diabetes. Ask your provider about seeing a diabetes nurse educator. Getting better control over your blood sugar, cholesterol, and blood pressure levels helps reduce the risk of kidney disease, eye disease, nervous system disease, heart attack, and stroke. To prevent diabetes complications, visit your provider at least 2 to 4 times a year. Talk about any problems you are having. Follow your provider's instructions on managing your diabetes. Many resources can help you understand more about diabetes. If you have diabetes, you can also learn ways to manage your condition and prevent diabetes complications. Diabetes is a lifelong disease and there is no cure. Tight control of blood glucose can prevent or delay diabetes complications. But these problems can occur, even in people with good diabetes control. After many years, diabetes can lead to serious health problems: - You could have eye problems, including trouble seeing (especially at night), and light sensitivity. You could become blind. - Your feet and skin can develop sores and infections. After a long time, your foot or leg may need to be amputated. Infection can also cause pain and itching in other parts of the body. - Diabetes may make it harder to control your blood pressure and cholesterol. This can lead to a heart attack, stroke, and other problems. It can become harder for blood to flow to your legs and feet. - Nerves in your body can get damaged, causing pain, tingling, and numbness. - Because of nerve damage, you could have problems digesting the food you eat. You could feel weakness or have trouble going to the bathroom. Nerve damage can make it harder for men to have an erection. - High blood sugar and other problems can lead to kidney damage. Your kidneys may not work as well as they used to. They may even stop working so that you need dialysis or a kidney transplant. Keeping an ideal body weight and an active lifestyle may prevent or delay the start of type 2 diabetes. If you're overweight, losing just 5% to 7% of your body weight even helps. Some medicines can also be used to delay or prevent the start of type 2 diabetes. At this time, type 1 diabetes cannot be prevented. But there is promising research that shows type 1 diabetes may be delayed in some high risk people. Updated by: Robert Hurd, MD, Professor of Endocrinology and Health Care Ethics, Xavier University, Cincinnati, OH. Review provided by VeriMed Healthcare Network. Also reviewed by David Zieve, MD, MHA, Medical Director, Brenda Conaway, Editorial Director, and the A.D.A.M. Editorial team.

Diabetes Type 2 I test before going to bed and the reading is 94 but when I test again in the morning, the reading is 165. How can I lower it? I eat dinner around 8PM and nothing until the next morning.

Ask your provider about symptoms that you are having if they have not been discussed. Your provider will set the target range for your blood sugar, clarify what type of exercise you need and if you need to see a dietitian for discussing healthy eating and weight loss or maintenance goals. Your provider will tell you how often and when you need to check your blood sugar levels, and what to do if they are out of range.

Type 2 diabetes - what to ask your doctor (Questions): Ask your provider to check the nerves, skin, and pulses in your feet. Also ask these questions: - How often should I check my feet? What should I do when I check them? What problems should I call my provider about? - Who should trim my toenails? Is it OK if I trim them? - How should I take care of my feet every day? What type of shoes and socks should I wear? - Should I see a foot doctor (podiatrist)? Ask your provider about getting exercise: - Before I start, do I need to have my heart checked? My eyes? My feet? - What type of exercise program should I do? What type of activities should I avoid? - When should I check my blood sugar when I exercise? What should I bring with me when I exercise? Should I eat before or during exercise? Do I need to adjust my medicines when I exercise? When should I next have an eye doctor check my eyes? What eye problems should I call my doctor about? Ask your provider about meeting with a dietitian. Questions for the dietitian may include: - What foods increase my blood sugar the most? - What foods can help me with my weight loss goals? Ask your provider about your diabetes medicines: - When should I take them? - What should I do if I miss a dose? - Are there any side effects? How often should I check my blood sugar level at home? Should I do it at different times of the day? What is too low? What is too high? What should I do if my blood sugar is too low or too high? Should I get a medical alert bracelet or necklace? Should I have glucagon at home? Ask your provider about symptoms that you are having if they have not been discussed. Tell your provider about blurred vision, skin changes, depression, reactions at injection sites, sexual dysfunction, tooth pain, muscle pain, or nausea. Ask your provider about other tests you may need, such as cholesterol, A1C, and a urine test to check for kidney problems. Ask your provider about vaccinations you should have like the flu shot, hepatitis B, or pneumonia vaccines. How should I take care of my diabetes when I travel? Ask your provider how you should take care of your diabetes when you are sick: - What should I eat or drink? - How should I take my diabetes medicines? - How often should I check my blood sugar? - When should I call the provider?

Diabetes Type 2 I test before going to bed and the reading is 94 but when I test again in the morning, the reading is 165. How can I lower it? I eat dinner around 8PM and nothing until the next morning.

Ask your provider how to control symptoms that you are having and make your life better. Your provider will set the target range for your blood sugar, clarify what type of exercise you need and if you need to see a dietitian for discussing healthy eating and weight loss or maintenance goals. Your provider will tell you how often and when you need to check your blood sugar levels, and what to do if they are out of range.

Type 2 diabetes - what to ask your doctor: Type 2 diabetes is a lifelong disease that causes a high level of sugar (glucose) in your blood. It can damage your organs. It can also lead to a heart attack or stroke and cause many other health problems. You can do many things to control your symptoms, prevent damage due to diabetes, and make your life better. Below are questions you may want to ask your health care provider to help you take care of your diabetes. Ask your provider to check the nerves, skin, and pulses in your feet. Also ask these questions: - How often should I check my feet? What should I do when I check them? What problems should I call my provider about? - Who should trim my toenails? Is it OK if I trim them? - How should I take care of my feet every day? What type of shoes and socks should I wear? - Should I see a foot doctor (podiatrist)? Ask your provider about getting exercise: - Before I start, do I need to have my heart checked? My eyes? My feet? - What type of exercise program should I do? What type of activities should I avoid? - When should I check my blood sugar when I exercise? What should I bring with me when I exercise? Should I eat before or during exercise? Do I need to adjust my medicines when I exercise? When should I next have an eye doctor check my eyes? What eye problems should I call my doctor about? Ask your provider about meeting with a dietitian. Questions for the dietitian may include: - What foods increase my blood sugar the most? - What foods can help me with my weight loss goals? Ask your provider about your diabetes medicines: - When should I take them? - What should I do if I miss a dose? - Are there any side effects? How often should I check my blood sugar level at home? Should I do it at different times of the day? What is too low? What is too high? What should I do if my blood sugar is too low or too high? Should I get a medical alert bracelet or necklace? Should I have glucagon at home? Ask your provider about symptoms that you are having if they have not been discussed. Tell your provider about blurred vision, skin changes, depression, reactions at injection sites, sexual dysfunction, tooth pain, muscle pain, or nausea. Ask your provider about other tests you may need, such as cholesterol, A1C, and a urine test to check for kidney problems. Ask your provider about vaccinations you should have like the flu shot, hepatitis B, or pneumonia vaccines. How should I take care of my diabetes when I travel? Ask your provider how you should take care of your diabetes when you are sick: - What should I eat or drink? - How should I take my diabetes medicines? - How often should I check my blood sugar? - When should I call the provider? Updated by: Brent Wisse, MD, Associate Professor of Medicine, Division of Metabolism, Endocrinology and Nutrition, University of Washington School of Medicine, Seattle, WA. Also reviewed by David Zieve, MD, MHA, Isla Ogilvie, PhD, and the A.D.A.M. Editorial team.

Diabetes Type 2 I test before going to bed and the reading is 94 but when I test again in the morning, the reading is 165. How can I lower it? I eat dinner around 8PM and nothing until the next morning.

Symptoms of Stiff-Person Syndrome (SPS) include fluctuating rigidity of the muscles in the body and limbs, and sensitivity to noise, touch and emotional distress that can cause muscle spasms; abnormal postures that are hunched over and stiff; and being afraid to leave the house because of the street noises that could cause spasms and falls. Twice as many women as men have SPS. It is often associated with diabetes, thyroiditis, vitiligo, and pernicious anemia. The symptoms can be mistaken for Parkinson's disease, multiple sclerosis, fibromyalgia, psychosomatic illness, or anxiety and phobia. Your doctor could order blood tests that measure the level of glutamic acid decarboxylase (GAD) antibodies in the blood to see if you have SPS.

Stiff-Person Syndrome: Stiff-person syndrome (SPS) is a rare neurological disorder with features of an autoimmune disease.  SPS is characterized by fluctuating muscle rigidity in the trunk and limbs and a heightened sensitivity to stimuli such as noise, touch, and emotional distress, which can set off muscle spasms.  Abnormal postures, often hunched over and stiffened, are characteristic of the disorder.  People with SPS can be too disabled to walk or move, or they are afraid to leave the house because street noises, such as the sound of a horn, can trigger spasms and falls.  SPS affects twice as many women as men.   It is frequently associated with other autoimmune diseases such as diabetes, thyroiditis, vitiligo, and pernicious anemia.  Scientists don’t yet understand what causes SPS, but research indicates that it is the result of an autoimmune response gone awry in the brain and spinal cord.  The disorder is often misdiagnosed as Parkinson’s disease, multiple sclerosis, fibromyalgia, psychosomatic illness, or anxiety and phobia.  A definitive diagnosis can be made with a blood test that measures the level of glutamic acid decarboxylase (GAD) antibodies in the blood.  People with SPS have elevated levels of GAD, an antibody that works against an enzyme involved in the synthesis of an important neurotransmitter in the brain. People with SPS respond to high doses of diazepam and several anti-convulsants, gabapentin and tiagabine.  A recent study funded by the NINDS demonstrated the effectiveness of intravenous immunoglobulin (IVIg) treatment in reducing stiffness and lowering sensitivity to noise, touch, and stress in people with SPS.  Treatment with IVIg, anti-anxiety drugs, muscle relaxants, anti-convulsants, and pain relievers will improve the symptoms of SPS, but will not cure the disorder.  Most individuals with SPS have frequent falls and because they lack the normal defensive reflexes; injuries can be severe.  With appropriate treatment, the symptoms are usually well controlled.

Stiff person Syndrome. Please can you tell me what are the early symptoms I have severe cramps in my feet which are twisting into an arc,muscle spasms slowly getting worse and my muscles particularly in my legs are cramping like someone has pushed a knitting needle into them. Started off at night but now happening through the day my back and neck and voice box are also effected and my chest area has now seized to the point of restricting my breathing to very shallow at times I find that I am stretching out involuntarily right through my body and this is becoming more frequent

Your doctor will choose treatments depending on the stage of your cancer. Traditional treatments include surgery, chemotherapy and radiation. .Small early-stage localized cancers may be removed completely during a colonoscopy or laparoscopic surgery. If the cancer has grown into or through your colon, your surgeon may remove the part of your colon that contains the cancer, along with a margin of normal tissue on either side of the cancer. Chemotherapy, rugs that destroy cancer cells, may be used before or after surgery to reduce the risk of cancer recurrence. Radiation therapy uses powerful energy sources, such as X-rays, to kill cancer cells, to shrink large tumors before an operation so that they can be removed more easily, or to relieve symptoms of colon cancer and rectal cancer. Drugs that target specific malfunctions that allow cancer cells to grow are available to people with advanced colon cancer, including: - Bevacizumab (Avastin) - Cetuximab (Erbitux) - Panitumumab (Vectibix) - Ramucirumab (Cyramza) - Regorafenib (Stivarga) - Ziv-aflibercept (Zaltrap) Targeted drugs can be given along with chemotherapy or alone. Targeted drugs are typically reserved for people with advanced colon cancer. Some patients with advanced colon cancer have a chance to benefit from immunotherapy with antibodies such as pembrolizumab (Keytruda) and nivolumab (Opdivo). Whether a colon cancer has the chance to respond to these immunotherapies can be determined by a specific test of the tumor tissue.

Colon cancer: Colon cancer is cancer of the large intestine (colon), which is the final part of your digestive tract. Most cases of colon cancer begin as small, noncancerous (benign) clumps of cells called adenomatous polyps. Over time some of these polyps can become colon cancers. Polyps may be small and produce few, if any, symptoms. For this reason, doctors recommend regular screening tests to help prevent colon cancer by identifying and removing polyps before they turn into cancer. Signs and symptoms of colon cancer include: - A change in your bowel habits, including diarrhea or constipation or a change in the consistency of your stool, that lasts longer than four weeks - Rectal bleeding or blood in your stool - Persistent abdominal discomfort, such as cramps, gas or pain - A feeling that your bowel doesn't empty completely - Weakness or fatigue - Unexplained weight loss Many people with colon cancer experience no symptoms in the early stages of the disease. When symptoms appear, they'll likely vary, depending on the cancer's size and location in your large intestine. When to see a doctor If you notice any symptoms of colon cancer, such as blood in your stool or an ongoing change in bowel habits, do not hesitate to make an appointment with your doctor. Talk to your doctor about when you should begin screening for colon cancer. Guidelines generally recommend that colon cancer screenings begin at age 50. Your doctor may recommend more frequent or earlier screening if you have other risk factors, such as a family history of the disease. In most cases, it's not clear what causes colon cancer. Doctors know that colon cancer occurs when healthy cells in the colon develop errors in their genetic blueprint, the DNA. Healthy cells grow and divide in an orderly way to keep your body functioning normally. But when a cell's DNA is damaged and becomes cancerous, cells continue to divide - even when new cells aren't needed. As the cells accumulate, they form a tumor. With time, the cancer cells can grow to invade and destroy normal tissue nearby. And cancerous cells can travel to other parts of the body to form deposits there (metastasis). Inherited gene mutations that increase the risk of colon cancer Inherited gene mutations that increase the risk of colon cancer can be passed through families, but these inherited genes are linked to only a small percentage of colon cancers. Inherited gene mutations don't make cancer inevitable, but they can increase an individual's risk of cancer significantly. The most common forms of inherited colon cancer syndromes are: - Hereditary nonpolyposis colorectal cancer (HNPCC). HNPCC, also called Lynch syndrome, increases the risk of colon cancer and other cancers. People with HNPCC tend to develop colon cancer before age 50. - Familial adenomatous polyposis (FAP). FAP is a rare disorder that causes you to develop thousands of polyps in the lining of your colon and rectum. People with untreated FAP have a greatly increased risk of developing colon cancer before age 40. FAP, HNPCC and other, rarer inherited colon cancer syndromes can be detected through genetic testing. If you're concerned about your family's history of colon cancer, talk to your doctor about whether your family history suggests you have a risk of these conditions. Association between diet and increased colon cancer risk Studies of large groups of people have shown an association between a typical Western diet and an increased risk of colon cancer. A typical Western diet is high in fat and low in fiber. When people move from areas where the typical diet is low in fat and high in fiber to areas where the typical Western diet is most common, the risk of colon cancer in these people increases significantly. It's not clear why this occurs, but researchers are studying whether a high-fat, low-fiber diet affects the microbes that live in the colon or causes underlying inflammation that may contribute to cancer risk. This is an area of active investigation and research is ongoing. Factors that may increase your risk of colon cancer include: - Older age. The great majority of people diagnosed with colon cancer are older than 50. Colon cancer can occur in younger people, but it occurs much less frequently. - African-American race. African-Americans have a greater risk of colon cancer than do people of other races. - A personal history of colorectal cancer or polyps. If you've already had colon cancer or adenomatous polyps, you have a greater risk of colon cancer in the future. - Inflammatory intestinal conditions. Chronic inflammatory diseases of the colon, such as ulcerative colitis and Crohn's disease, can increase your risk of colon cancer. - Inherited syndromes that increase colon cancer risk. Genetic syndromes passed through generations of your family can increase your risk of colon cancer. These syndromes include familial adenomatous polyposis and hereditary nonpolyposis colorectal cancer, which is also known as Lynch syndrome. - Family history of colon cancer. You're more likely to develop colon cancer if you have a parent, sibling or child with the disease. If more than one family member has colon cancer or rectal cancer, your risk is even greater. - Low-fiber, high-fat diet. Colon cancer and rectal cancer may be associated with a diet low in fiber and high in fat and calories. Research in this area has had mixed results. Some studies have found an increased risk of colon cancer in people who eat diets high in red meat and processed meat. - A sedentary lifestyle. If you're inactive, you're more likely to develop colon cancer. Getting regular physical activity may reduce your risk of colon cancer. - Diabetes. People with diabetes and insulin resistance have an increased risk of colon cancer. - Obesity. People who are obese have an increased risk of colon cancer and an increased risk of dying of colon cancer when compared with people considered normal weight. - Smoking. People who smoke may have an increased risk of colon cancer. - Alcohol. Heavy use of alcohol increases your risk of colon cancer. - Radiation therapy for cancer. Radiation therapy directed at the abdomen to treat previous cancers increases the risk of colon and rectal cancer. Screening for colon cancer Doctors recommend certain screening tests for healthy people with no signs or symptoms in order to look for early colon cancer. Finding colon cancer at its earliest stage provides the greatest chance for a cure. Screening has been shown to reduce your risk of dying of colon cancer. People with an average risk of colon cancer can consider screening beginning at age 50. But people with an increased risk, such as those with a family history of colon cancer, should consider screening sooner. African-Americans and American Indians may consider beginning colon cancer screening at age 45. Several screening options exist - each with its own benefits and drawbacks. Talk about your options with your doctor, and together you can decide which tests are appropriate for you. If a colonoscopy is used for screening, polyps can be removed during the procedure before they turn into cancer. Diagnosing colon cancer If your signs and symptoms indicate that you could have colon cancer, your doctor may recommend one or more tests and procedures, including: - Using a scope to examine the inside of your colon. Colonoscopy uses a long, flexible and slender tube attached to a video camera and monitor to view your entire colon and rectum. If any suspicious areas are found, your doctor can pass surgical tools through the tube to take tissue samples (biopsies) for analysis and remove polyps. - Blood tests. No blood test can tell you if you have colon cancer. But your doctor may test your blood for clues about your overall health, such as kidney and liver function tests. Your doctor may also test your blood for a chemical sometimes produced by colon cancers (carcinoembryonic antigen or CEA). Tracked over time, the level of CEA in your blood may help your doctor understand your prognosis and whether your cancer is responding to treatment. Staging colon cancer Once you've been diagnosed with colon cancer, your doctor will order tests to determine the extent (stage) of your cancer. Staging helps determine what treatments are most appropriate for you. Staging tests may include imaging procedures such as abdominal, pelvic and chest CT scans. In many cases, the stage of your cancer may not be determined until after colon cancer surgery. The stages of colon cancer are: - Stage I. The cancer has grown through the superficial lining (mucosa) of the colon or rectum but hasn't spread beyond the colon wall or rectum. - Stage II. The cancer has grown into or through the wall of the colon or rectum but hasn't spread to nearby lymph nodes. - Stage III. The cancer has invaded nearby lymph nodes but isn't affecting other parts of your body yet. - Stage IV. The cancer has spread to distant sites, such as other organs - for instance, to your liver or lung. The type of treatment your doctor recommends will depend largely on the stage of your cancer. The three primary treatment options are surgery, chemotherapy and radiation. Surgery for early-stage colon cancer If your colon cancer is very small, your doctor may recommend a minimally invasive approach to surgery, such as: - Removing polyps during a colonoscopy. If your cancer is small, localized and completely contained within a polyp and in a very early stage, your doctor may be able to remove it completely during a colonoscopy. - Endoscopic mucosal resection. Removing larger polyps may require also taking a small amount of the lining of the colon or rectum in a procedure called an endoscopic mucosal resection. - Minimally invasive surgery. Polyps that can't be removed during a colonoscopy may be removed using laparoscopic surgery. In this procedure, your surgeon performs the operation through several small incisions in your abdominal wall, inserting instruments with attached cameras that display your colon on a video monitor. The surgeon may also take samples from lymph nodes in the area where the cancer is located. Surgery for invasive colon cancer If the cancer has grown into or through your colon, your surgeon may recommend: - Partial colectomy. During this procedure, the surgeon removes the part of your colon that contains the cancer, along with a margin of normal tissue on either side of the cancer. Your surgeon is often able to reconnect the healthy portions of your colon or rectum. This procedure can commonly be done by a minimally invasive approach (laparoscopy). - Surgery to create a way for waste to leave your body. When it's not possible to reconnect the healthy portions of your colon or rectum, you may need an ostomy. This involves creating an opening in the wall of your abdomen from a portion of the remaining bowel for the elimination of stool into a bag that fits securely over the opening. Sometimes the ostomy is only temporary, allowing your colon or rectum time to heal after surgery. In some cases, however, the colostomy may be permanent. - Lymph node removal. Nearby lymph nodes are usually also removed during colon cancer surgery and tested for cancer. Surgery for advanced cancer If your cancer is very advanced or your overall health very poor, your surgeon may recommend an operation to relieve a blockage of your colon or other conditions in order to improve your symptoms. This surgery isn't done to cure cancer, but instead to relieve signs and symptoms, such as bleeding and pain. In specific cases where the cancer has spread only to the liver but your overall health is otherwise good, your doctor may recommend surgery to remove the cancerous lesion from your liver. Chemotherapy may be used before or after this type of surgery. This approach provides a chance to be free of cancer over the long term. Chemotherapy Chemotherapy uses drugs to destroy cancer cells. Chemotherapy for colon cancer is usually given after surgery if the cancer has spread to lymph nodes. In this way, chemotherapy may help reduce the risk of cancer recurrence and death from cancer. Sometimes chemotherapy may be used before surgery as well, with the goal of shrinking the cancer before an operation. Chemotherapy before surgery is more common in rectal cancer than in colon cancer. Chemotherapy can also be given to relieve symptoms of colon cancer that has spread to other areas of the body. Radiation therapy Radiation therapy uses powerful energy sources, such as X-rays, to kill cancer cells, to shrink large tumors before an operation so that they can be removed more easily, or to relieve symptoms of colon cancer and rectal cancer. Radiation therapy either alone or combined with chemotherapy is one of the standard treatment options for the initial management of rectal cancer followed by surgery. Targeted drug therapy Drugs that target specific malfunctions that allow cancer cells to grow are available to people with advanced colon cancer, including: - Bevacizumab (Avastin) - Cetuximab (Erbitux) - Panitumumab (Vectibix) - Ramucirumab (Cyramza) - Regorafenib (Stivarga) - Ziv-aflibercept (Zaltrap) Targeted drugs can be given along with chemotherapy or alone. Targeted drugs are typically reserved for people with advanced colon cancer. Some people are helped by targeted drugs, while others are not. Researchers have recently made progress in determining who is most likely to benefit from specific targeted drugs. Until more is known, doctors carefully weigh the possible benefit of targeted drugs against the risk of side effects and the cost when deciding whether to use these treatments. Immunotherapy Some patients with advanced colon cancer have a chance to benefit from immunotherapy with antibodies such as pembrolizumab (Keytruda) and nivolumab (Opdivo). Whether a colon cancer has the chance to respond to these immunotherapies can be determined by a specific test of the tumor tissue. Supportive (palliative) care Palliative care is specialized medical care that focuses on providing relief from pain and other symptoms of a serious illness. Palliative care specialists work with you, your family and your other doctors to provide an extra layer of support that complements your ongoing care. When palliative care is used along with all of the other appropriate treatments, people with cancer may feel better and live longer. Palliative care is provided by a team of doctors, nurses and other specially trained professionals. Palliative care teams aim to improve the quality of life for people with cancer and their families. This form of care is offered alongside curative or other treatments you may be receiving.

Colon cancer cure seen on tv. My father has colon cancer and said he saw a commercial on tv about a cure for colon cancer. He cannot remember any details about it. I was wondering if you know anything about something like this. Please let me know. Thank you,

Doctors are not sure what causes frozen shoulder. It is more likely to occur in people who have diabetes or had their shoulder immobilized for a long time due to injury or surgery.

Frozen shoulder (Causes): The bones, ligaments and tendons that make up your shoulder joint are encased in a capsule of connective tissue. Frozen shoulder occurs when this capsule thickens and tightens around the shoulder joint, restricting its movement. Doctors aren't sure why this happens to some people, although it's more likely to occur in people who have diabetes or those who recently had to immobilize their shoulder for a long period, such as after surgery or an arm fracture.

We have 14 siblings in our family , at least 10 of us has had a frozen shoulder. We are wondering why? should we be concerned?

Frozen shoulder may develop without a known cause. It is more likely to occur in people who have thyroid disease, diabetes, had shoulder injury, are unable to move their arm due to cast or stroke, and in women undergoing menopause. Most people have a full recovery with full range of motion.

Frozen shoulder - aftercare: A frozen shoulder is shoulder pain that leads to stiffness of your shoulder. Often the pain and stiffness are present all the time. The capsule of the shoulder joint is made of strong tissue (ligaments) that hold the shoulder bones to each other. When the capsule becomes inflamed, the shoulder bones cannot move freely in the joint. This condition is called frozen shoulder. Frozen shoulder may develop with no known cause. It can also occur in people who: - Have thyroid disease, diabetes, or are going through menopause - Have a shoulder injury - Have had a stroke that makes them unable to use their arm - Have a cast on their arm that holds their arm in one position Symptoms of frozen shoulder often follow this pattern: - At first, you have a lot of pain, or a freezing feeling that prevents you from moving your arm. - Then your shoulder becomes very stiff and hard to move, but the pain lessens. It becomes hard to reach over your head or behind you. - Finally, the pain goes away and you can use your arm again. This is the thawing phase and can take months to end. It can take a few months to go through these stages of frozen shoulder. The shoulder can get very painful and stiff before it starts to loosen. It can take as long as 18 to 24 months for complete healing. To help speed healing, your health care provider will likely do the following: - Teach you exercises to restore motion in your shoulder joint. - Refer you to a physical therapist. - Prescribe medicines for you to take by mouth. These include drugs to reduce pain and inflammation in the shoulder joint. You may also receive a shot of anti-inflammatory drug directly into the joint. Most people have a full recovery with full range of motion without surgery. Using moist heat on your shoulder 3 to 4 times a day may help relieve some pain and stiffness. For pain, you can use ibuprofen (Advil, Motrin), naproxen (Aleve, Naprosyn), or acetaminophen (Tylenol). You can buy these pain medicines at the store. - Talk with your provider before using these medicines if you have heart disease, high blood pressure, kidney disease, or have had stomach ulcers or internal bleeding in the past. - DO NOT take more than the amount recommended on the bottle or by your provider. Get help setting up your home so that you can get to everything you need without reaching above your shoulders or behind your back. - Keep the clothes that you wear most often in drawers and shelves that are between your waist and shoulder level. - Store food in cupboards, drawers, and refrigerator shelves that are between your waist and shoulder level. Get help with house cleaning, taking out the garbage, gardening, and other household tasks. DO NOT lift heavy things or do activities that require a lot of shoulder and arm strength. You will learn some simple exercises and stretches for your shoulder. - At first, try to do these exercises once every hour, or at least 4 times a day. - It is more important to do the exercises often than to do them for a long time each time you do them. - Use moist heat before the exercises to help lessen pain and increase movement. - The exercises should focus on stretching of the shoulder and range of motion. - Avoid exercises to strengthen your shoulder until the range of motion has returned. Some of the exercises are: - Shoulder stretches - Pendulum - Wall crawl - Rope and pulley stretches - Movements to help with internal and external rotation, such as hand behind back Your provider or physical therapist will show you how to do these exercises. Call your doctor if: - The pain in your shoulder is getting worse - You re-injure your arm or shoulder - Your frozen shoulder is making you feel sad or depressed Updated by: C. Benjamin Ma, MD, Assistant Professor, Chief, Sports Medicine and Shoulder Service, UCSF Department of Orthopaedic Surgery. Also reviewed by David Zieve, MD, MHA, Isla Ogilvie, PhD, and the A.D.A.M. Editorial team.

We have 14 siblings in our family , at least 10 of us has had a frozen shoulder. We are wondering why? should we be concerned?

It is not known what causes frozen shoulder. Risk factors include: diabetes, thyroid problems, hormonal changes, e.g., during menopause, shoulder disease, injury or surgery, or other types of surgery. If you don't treat the risk factors and don't use the full range of motion, the frozen shoulder may return.

Frozen shoulder: Frozen shoulder is a condition in which the shoulder is painful and loses motion because of inflammation. The capsule of the shoulder joint has ligaments that hold the shoulder bones to each other. When the capsule becomes inflamed, the shoulder bones are unable to move freely in the joint. Most of the time, there is no cause for frozen shoulder. Risk factors include: - Diabetes - Thyroid problems - Changes in your hormones, such as during menopause - Shoulder injury - Shoulder surgery - Open heart surgery - Cervical disk disease of the neck - Women 40 to 70 years old are most affected Main symptoms of a frozen shoulder are: - Decreased motion of the shoulder - Pain - Stiffness Frozen shoulder without any known cause starts with pain. This pain prevents you from moving your arm. This lack of movement can lead to stiffness and even less motion. Over time, you are not able to do movements such as reaching over your head or behind you. Your health care provider will ask about your symptoms and examine your shoulder. A diagnosis is often made when you are not able to rotate your shoulder. You may have x-rays of the shoulder. This is to make sure there is no other problem, such as arthritis or calcium deposits. Sometimes, an MRI exam shows inflammation, but these types of imaging tests are not needed to diagnose frozen shoulder. Pain is treated with NSAIDs and steroid injections. Steroid injections and physical therapy can improve your motion. It can take a few weeks to see progress. It may take as long as 6 to 9 months for complete recovery. Physical therapy is intense and needs to be done every day. Left untreated, the condition often gets better by itself within 2 years with little loss of motion. Risk factors for frozen shoulder, such as diabetes or thyroid problems, should also be treated. Surgery is recommended if nonsurgical treatment is not effective. This procedure (shoulder arthroscopy) is done under anesthesia. During surgery the scar tissue is released (cut) by bringing the shoulder through a full range of motion. Arthroscopic surgery can also be used to cut the tight ligaments and remove the scar tissue from the shoulder. After surgery, you may receive pain blocks (shots) so you can do physical therapy. Follow instructions on caring for your shoulder at home.  Treatment with physical therapy and NSAIDs often restores motion and function of the shoulder within a year. Even untreated, the shoulder may get better by itself in 2 years. After surgery restores motion, you must continue physical therapy for several weeks or months. This is to prevent the frozen shoulder from returning. If you do not keep up with physical therapy, the frozen shoulder may come back. Complications may include: - Stiffness and pain continue even with therapy - The arm can break if the shoulder is moved forcefully during surgery If you have shoulder pain and stiffness and think you have a frozen shoulder, contact your provider for referral and treatment. Early treatment may help prevent stiffness. Call your provider if you develop shoulder pain that limits your range of motion for an extended period. People who have diabetes or thyroid problems will be less likely to get frozen shoulder if they keep their condition under control. Updated by: C. Benjamin Ma, MD, Professor, Chief, Sports Medicine and Shoulder Service, UCSF Department of Orthopaedic Surgery, San Francisco, CA. Also reviewed by David Zieve, MD, MHA, Medical Director, Brenda Conaway, Editorial Director, and the A.D.A.M. Editorial team.

We have 14 siblings in our family , at least 10 of us has had a frozen shoulder. We are wondering why? should we be concerned?

Frozen shoulder is more likely to occur in people over 40, particularly women, and in those who have thyroid disease, diabetes, cardiovascular disease, tuberculosis, Parkinson's disease, had shoulder injury, or are unable to move their arm due to cast or stroke.

Frozen shoulder: Frozen shoulder, also known as adhesive capsulitis, is a condition characterized by stiffness and pain in your shoulder joint. Signs and symptoms typically begin gradually, worsen over time and then resolve, usually within one to three years. Your risk of developing frozen shoulder increases if you're recovering from a medical condition or procedure that prevents you from moving your arm - such as a stroke or a mastectomy. Treatment for frozen shoulder involves range-of-motion exercises and, sometimes, corticosteroids and numbing medications injected into the joint capsule. In a small percentage of cases, arthroscopic surgery may be indicated to loosen the joint capsule so that it can move more freely. It's unusual for frozen shoulder to recur in the same shoulder, but some people can develop it in the opposite shoulder. Frozen shoulder typically develops slowly, and in three stages. Each stage can last a number of months. - Freezing stage. Any movement of your shoulder causes pain, and your shoulder's range of motion starts to become limited. - Frozen stage. Pain may begin to diminish during this stage. However, your shoulder becomes stiffer, and using it becomes more difficult. - Thawing stage. The range of motion in your shoulder begins to improve. For some people, the pain worsens at night, sometimes disrupting sleep. The bones, ligaments and tendons that make up your shoulder joint are encased in a capsule of connective tissue. Frozen shoulder occurs when this capsule thickens and tightens around the shoulder joint, restricting its movement. Doctors aren't sure why this happens to some people, although it's more likely to occur in people who have diabetes or those who recently had to immobilize their shoulder for a long period, such as after surgery or an arm fracture. Certain factors may increase your risk of developing frozen shoulder. Age and sex People 40 and older, particularly women, are more likely to have frozen shoulder. Immobility or reduced mobility People who've had prolonged immobility or reduced mobility of the shoulder are at higher risk of developing frozen shoulder. Immobility may be the result of many factors, including: - Rotator cuff injury - Broken arm - Stroke - Recovery from surgery Systemic diseases People who have certain diseases appear more likely to develop frozen shoulder. Diseases that might increase risk include: - Diabetes - Overactive thyroid (hyperthyroidism) - Underactive thyroid (hypothyroidism) - Cardiovascular disease - Tuberculosis - Parkinson's disease During the physical exam, your doctor may ask you to move in certain ways to check for pain and evaluate your range of motion (active range of motion). Your doctor might then ask you to relax your muscles while he or she moves your arm (passive range of motion). Frozen shoulder affects both active and passive range of motion. In some cases, your doctor might inject your shoulder with a numbing medicine (anesthetic) to determine your passive and active range of motion. Frozen shoulder can usually be diagnosed from signs and symptoms alone. But your doctor may suggest imaging tests - such as X-rays or an MRI - to rule out other problems. Most frozen shoulder treatment involves controlling shoulder pain and preserving as much range of motion in the shoulder as possible. Medications Over-the-counter pain relievers, such as aspirin and ibuprofen (Advil, Motrin IB, others), can help reduce pain and inflammation associated with frozen shoulder. In some cases, your doctor may prescribe stronger pain-relieving and anti-inflammatory drugs. Therapy A physical therapist can teach you range-of-motion exercises to help recover as much mobility in your shoulder as possible. Your commitment to doing these exercises is important to optimize recovery of your mobility. Surgical and other procedures Most frozen shoulders get better on their own within 12 to 18 months. For persistent symptoms, your doctor may suggest: - Steroid injections. Injecting corticosteroids into your shoulder joint may help decrease pain and improve shoulder mobility, especially in the early stages of the process. - Joint distension. Injecting sterile water into the joint capsule can help stretch the tissue and make it easier to move the joint. - Shoulder manipulation. In this procedure, you receive a general anesthetic, so you'll be unconscious and feel no pain. Then the doctor moves your shoulder joint in different directions, to help loosen the tightened tissue. - Surgery. Surgery for frozen shoulder is rare, but if nothing else has helped, your doctor may recommend surgery to remove scar tissue and adhesions from inside your shoulder joint. Doctors usually perform this surgery with lighted, tubular instruments inserted through small incisions around your joint (arthroscopically). Continue to use the involved shoulder and extremity as much as possible given your pain and range-of-motion limits. Applying heat or cold to your shoulder can help relieve pain. Acupuncture Acupuncture involves inserting extremely fine needles in your skin at specific points on your body. Typically, the needles remain in place for 15 to 40 minutes. During that time they may be moved or manipulated. Because the needles are hair thin and flexible and are generally inserted superficially, most acupuncture treatments are relatively painless. Transcutaneous electrical nerve stimulation (TENS) A TENS unit delivers a tiny electrical current to key points on a nerve pathway. The current, delivered through electrodes taped to your skin, isn't painful or harmful. It's not known exactly how TENS works, but it's thought that it might stimulate the release of pain-inhibiting molecules (endorphins) or block pain fibers that carry pain impulses.

We have 14 siblings in our family , at least 10 of us has had a frozen shoulder. We are wondering why? should we be concerned?

Gastroparesis could be caused by diabetes and other underlying conditions that your doctor could help to control. If gastroparesis cannot be controlled with diet and you are unable to tolerate any food or liquid, your doctor could recommend a feeding tube (jejunostomy tube) that is placed in the small intestine or a gastric venting tube to help relieve pressure from gastric contents. Temporary feeding tubes can be passed through your nose or mouth or directly into your small intestine through your skin. Some people may require an IV (parenteral) feeding tube that goes directly into a vein in the chest. Experimental treatments include: a drug called relamorelin to reduce vomiting and speed up gastric emptying; endoscopic procedures that place stents that keep the connection between the stomach and the intestines open; and a surgically implanted device that stimulates stomach muscles (gastric electrical stimulation.)

Gastroparesis (Treatment): Treating gastroparesis begins with identifying and treating the underlying condition. If diabetes is causing your gastroparesis, your doctor can work with you to help you control it. Changes to your diet Maintaining adequate nutrition is the most important goal in the treatment of gastroparesis. Many people can manage gastroparesis with diet changes and dietary changes are the first step in managing this condition. Your doctor may refer you to a dietitian who can work with you to find foods that are easier for you to digest so that you're more likely to get enough calories and nutrients from the food you eat. A dietitian might suggest that you try to: - Eat smaller meals more frequently - Chew food thoroughly - Eat well-cooked fruits and vegetables rather than raw fruits and vegetables - Avoid fibrous fruits and vegetables, such as oranges and broccoli, which may cause bezoars - Choose mostly low-fat foods, but if you can tolerate them, add small servings of fatty foods to your diet - Try soups and pureed foods if liquids are easier for you to swallow - Drink about 34 to 51 ounces (1 to 1.5 liters) of water a day - Exercise gently after you eat, such as going for a walk - Avoid carbonated drinks, alcohol and smoking - Try to avoid lying down for 2 hours after a meal - Take a multivitamin daily Here's a brief list of foods recommended for people with gastroparesis (your dietitian can give you a more comprehensive list): - White bread and rolls and "light" whole-wheat bread without nuts or seeds - Plain or egg bagels - English muffins - Flour or corn tortillas - Pancakes - Puffed wheat and rice cereals - Cream of wheat or rice - White crackers - Potatoes, white or sweet (no skin) - Baked french fries - Rice - Pasta - Lean beef, veal and pork (not fried) - Chicken or turkey (no skin and not fried) - Crab, lobster, shrimp, clams, scallops, oysters - Tuna (packed in water) - Cottage cheese - Eggs - Tofu - Strained meat baby food - Baby food vegetables and fruits - Tomato sauce, paste, puree, juice - Carrots (cooked) - Beets (cooked) - Mushrooms (cooked) - Vegetable juice - Vegetable broth - Fruit juices and drinks - Applesauce - Bananas - Peaches and pears (canned) - Milk, if tolerated - Yogurt (without fruit pieces) - Custard and pudding - Frozen yogurt Medications Medications to treat gastroparesis may include: - Medications to stimulate the stomach muscles. These medications include metoclopramide (Reglan) and erythromycin (Eryc, E.E.S.). Metoclopramide has a risk of serious side effects. Erythromycin may lose its effectiveness over time, and can cause side effects, such as diarrhea. A newer medication, domperidone, with fewer side effects, is also available with restricted access. - Medications to control nausea and vomiting. Drugs that help ease nausea and vomiting include prochlorperazine (Compro) and diphenhydramine (Benadryl, Unisom). A class of medications that includes ondansetron (Zofran) is sometimes used to help nausea and vomiting. Surgical treatment Some people with gastroparesis may be unable to tolerate any food or liquids. In these situations, doctors may recommend a feeding tube (jejunostomy tube) be placed in the small intestine. Or doctors may recommend a gastric venting tube to help relieve pressure from gastric contents. Feeding tubes can be passed through your nose or mouth or directly into your small intestine through your skin. The tube is usually temporary and is only used when gastroparesis is severe or when blood sugar levels can't be controlled by any other method. Some people may require an IV (parenteral) feeding tube that goes directly into a vein in the chest. Treatments under investigation Researchers are continuing to investigate new medications to treat gastroparesis. One example is a new drug in development called relamorelin. The results of a phase 2 clinical trial found the drug could speed up gastric emptying and reduce vomiting. The drug is not yet approved by the Food and Drug Administration (FDA), but a larger clinical trial is currently underway. A number of new therapies are being tried with the help of endoscopy - a slender tube that's threaded down the esophagus. One procedure used endoscopy to place a small tube (stent) where the stomach connects to the small intestine (duodenum) to keep this connection open. Several research trials investigated the use of botulinum toxin administered through endoscopy without much success. This treatment is not recommended. Doctors are also studying the use of a minimally invasive surgical technique when someone needs a feeding tube placed directly into the small intestine (jejunostomy tube). Gastric electrical stimulation and pacing Gastric electrical stimulation is a surgically implanted device that provides electrical stimulation to stimulate stomach muscles to move food more efficiently. Study results have been mixed. However, the device seems to be most helpful for people with diabetic gastroparesis. The FDA allows the device to be used under a compassionate use exemption for those who can't control their gastroparesis symptoms with diet changes or medications. However, larger studies are needed. Gastric pacing also involves a surgically implanted device that stimulates the stomach muscles, but this device tries to more closely mimic normal stomach contractions. Currently, the device is too large and causes discomfort. Gastric pacing devices are only available in clinical trials right now.

I am a current Gastroparesis fighter with a GJ feeding tube. I am also one of the admins for a GP support group and an advocacy group. I have become a volunteer advocater. I would appreciate any info you can share about Gastroparesis, Feeding tubes, and even TPN. Thanks

Causes of gastroparesis, or delayed gastric emptying, are unknown in most people. The most common known cause is diabetes. The symptoms of gastrparesis, a disorder that mostly affects women, are nausea, gastroesophageal reflux, a feeling of fullness after eating only a small amount of food, and vomiting undigested food, sometimes several hours after a meal. Your doctor will diagnose gastroparesis through a physical examination, medical history, blood tests, tests to rule out blockage or structural problems in the gastrointestinal tract, and gastric emptying tests. Treatment of gastroparesis may include medications, botulinum toxin, gastric electrical stimulation, jejunostomy (surgery to place a feeding tube through the abdominal wall directly into a part of the small intestine called the jejunum), and parenteral nutrition.

Gastroparesis: Gastroparesis, also called delayed gastric emptying, is a disorder that slows or stops the movement of food from the stomach to the small intestine. Normally, the muscles of the stomach, which are controlled by the vagus nerve, contract to break up food and move it through the gastrointestinal (GI) tract. The GI tract is a series of hollow organs joined in a long, twisting tube from the mouth to the anus. The movement of muscles in the GI tract, along with the release of hormones and enzymes, allows for the digestion of food. Gastroparesis can occur when the vagus nerve is damaged by illness or injury and the stomach muscles stop working normally. Food then moves slowly from the stomach to the small intestine or stops moving altogether.Gastroparesis slows or stops the movement of food from the stomach to the small intestine.Gastroparesis slows or stops the movement of food from the stomach to the small intestine. Most people diagnosed with gastroparesis have idiopathic gastroparesis, which means a health care provider cannot identify the cause, even with medical tests. Diabetes is the most common known cause of gastroparesis. People with diabetes have high levels of blood glucose, also called blood sugar. Over time, high blood glucose levels can damage the vagus nerve. Other identifiable causes of gastroparesis include intestinal surgery and nervous system diseases such as Parkinson’s disease or multiple sclerosis. For reasons that are still unclear, gastroparesis is more commonly found in women than in men. The most common symptoms of gastroparesis are nausea, a feeling of fullness after eating only a small amount of food, and vomiting undigested food—sometimes several hours after a meal. Other symptoms of gastroparesis includegastroesophageal reflux (GER), also called acid reflux or acid regurgitation—a condition in which stomach contents flow back up into the esophagus, the organ that connects the mouth to the stomach pain in the stomach area abdominal bloating lack of appetitegastroesophageal reflux (GER), also called acid reflux or acid regurgitation—a condition in which stomach contents flow back up into the esophagus, the organ that connects the mouth to the stomachpain in the stomach areaabdominal bloatinglack of appetiteSymptoms may be aggravated by eating greasy or rich foods, large quantities of foods with fiber—such as raw fruits and vegetables—or drinking beverages high in fat or carbonation. Symptoms may be mild or severe, and they can occur frequently in some people and less often in others. The symptoms of gastroparesis may also vary in intensity over time in the same individual. Sometimes gastroparesis is difficult to diagnose because people experience a range of symptoms similar to those of other diseases. Gastroparesis is diagnosed through a physical exam, medical history, blood tests, tests to rule out blockage or structural problems in the GI tract, and gastric emptying tests. Tests may also identify a nutritional disorder or underlying disease. To rule out any blockage or other structural problems, the health care provider may perform one or more of the following tests:Upper gastrointestinal (GI) endoscopy. This procedure involves using an endoscope—a small, flexible tube with a light—to see the upper GI tract, which includes the esophagus, stomach, and duodenum—the first part of the small intestine. The test is performed at a hospital or outpatient center by a gastroenterologist—a doctor who specializes in digestive diseases. The endoscope is carefully fed down the esophagus and into the stomach and duodenum. A small camera mounted on the endoscope transmits a video image to a monitor, allowing close examination of the intestinal lining. A person may receive a liquid anesthetic that is gargled or sprayed on the back of the throat. An intravenous (IV) needle is placed in a vein in the arm if general anesthesia is given. The test may show blockage or large bezoars—solid collections of food, mucus, vegetable fiber, hair, or other material that cannot be digested in the stomach—that are sometimes softened, dissolved, or broken up during an upper GI endoscopy. Upper GI series. An upper GI series may be done to look at the small intestine. The test is performed at a hospital or outpatient center by an x-ray technician, and the images are interpreted by a radiologist—a doctor who specializes in medical imaging. Anesthesia is not needed. No eating or drinking is allowed for 8 hours before the procedure, if possible. If the person has diabetes, a health care provider may give different instructions about fasting before the test. During the procedure, the person will stand or sit in front of an x-ray machine and drink barium, a chalky liquid. Barium coats the small intestine, making signs of gastroparesis show up more clearly on x rays. Gastroparesis is likely if the x ray shows food in the stomach after fasting. A person may experience bloating and nausea for a short time after the test. For several days afterward, barium liquid in the GI tract causes stools to be white or light colored. A health care provider will give the person specific instructions about eating and drinking after the test. Ultrasound. Ultrasound uses a device, called a transducer, that bounces safe, painless sound waves off organs to create an image of their structure. The procedure is performed in a health care provider’s office, outpatient center, or hospital by a specially trained technician, and the images are interpreted by a radiologist; anesthesia is not needed. The images can show whether gallbladder disease and pancreatitis could be the cause of a person’s digestive symptoms, rather than gastroparesis. Gastric emptying scintigraphy. The test involves eating a bland meal—such as eggs or an egg substitute—that contains a small amount of radioactive material. The test is performed in a radiology center or hospital by a specially trained technician and interpreted by a radiologist; anesthesia is not needed. An external camera scans the abdomen to show where the radioactive material is located. The radiologist is then able to measure the rate of gastric emptying at 1, 2, 3, and 4 hours after the meal. If more than 10 percent of the meal is still in the stomach at 4 hours, the diagnosis of gastroparesis is confirmed. SmartPill. The SmartPill is a small electronic device in capsule form. The SmartPill test is available at specialized outpatient centers. The images are interpreted by a radiologist. The device is swallowed and moves through the entire digestive tract, sending information to a cell-phone-sized receiver worn around the person’s waist or neck. The recorded information provides a detailed record of how quickly food travels through each part of the digestive tract. Gastric emptying breath test. With this test, the person eats a special test meal that includes a natural material with a special type of carbon in it. Then, breath samples are taken over a period of several hours to measure the amount of the material in the exhaled breath. The results allow the health care provider to calculate how fast the stomach is emptying.Upper gastrointestinal (GI) endoscopy. This procedure involves using an endoscope—a small, flexible tube with a light—to see the upper GI tract, which includes the esophagus, stomach, and duodenum—the first part of the small intestine. The test is performed at a hospital or outpatient center by a gastroenterologist—a doctor who specializes in digestive diseases. The endoscope is carefully fed down the esophagus and into the stomach and duodenum. A small camera mounted on the endoscope transmits a video image to a monitor, allowing close examination of the intestinal lining. A person may receive a liquid anesthetic that is gargled or sprayed on the back of the throat. An intravenous (IV) needle is placed in a vein in the arm if general anesthesia is given. The test may show blockage or large bezoars—solid collections of food, mucus, vegetable fiber, hair, or other material that cannot be digested in the stomach—that are sometimes softened, dissolved, or broken up during an upper GI endoscopy.Upper gastrointestinal (GI) endoscopy.Upper GI series. An upper GI series may be done to look at the small intestine. The test is performed at a hospital or outpatient center by an x-ray technician, and the images are interpreted by a radiologist—a doctor who specializes in medical imaging. Anesthesia is not needed. No eating or drinking is allowed for 8 hours before the procedure, if possible. If the person has diabetes, a health care provider may give different instructions about fasting before the test. During the procedure, the person will stand or sit in front of an x-ray machine and drink barium, a chalky liquid. Barium coats the small intestine, making signs of gastroparesis show up more clearly on x rays. Gastroparesis is likely if the x ray shows food in the stomach after fasting. A person may experience bloating and nausea for a short time after the test. For several days afterward, barium liquid in the GI tract causes stools to be white or light colored. A health care provider will give the person specific instructions about eating and drinking after the test.Upper GI series.Ultrasound. Ultrasound uses a device, called a transducer, that bounces safe, painless sound waves off organs to create an image of their structure. The procedure is performed in a health care provider’s office, outpatient center, or hospital by a specially trained technician, and the images are interpreted by a radiologist; anesthesia is not needed. The images can show whether gallbladder disease and pancreatitis could be the cause of a person’s digestive symptoms, rather than gastroparesis.Ultrasound.Gastric emptying scintigraphy. The test involves eating a bland meal—such as eggs or an egg substitute—that contains a small amount of radioactive material. The test is performed in a radiology center or hospital by a specially trained technician and interpreted by a radiologist; anesthesia is not needed. An external camera scans the abdomen to show where the radioactive material is located. The radiologist is then able to measure the rate of gastric emptying at 1, 2, 3, and 4 hours after the meal. If more than 10 percent of the meal is still in the stomach at 4 hours, the diagnosis of gastroparesis is confirmed.Gastric emptying scintigraphy.SmartPill. The SmartPill is a small electronic device in capsule form. The SmartPill test is available at specialized outpatient centers. The images are interpreted by a radiologist. The device is swallowed and moves through the entire digestive tract, sending information to a cell-phone-sized receiver worn around the person’s waist or neck. The recorded information provides a detailed record of how quickly food travels through each part of the digestive tract.SmartPill.Gastric emptying breath test. With this test, the person eats a special test meal that includes a natural material with a special type of carbon in it. Then, breath samples are taken over a period of several hours to measure the amount of the material in the exhaled breath. The results allow the health care provider to calculate how fast the stomach is emptying.Gastric emptying breath test. Treatment of gastroparesis depends on the severity of the person’s symptoms. In most cases, treatment does not cure gastroparesis, which is usually a chronic, or long-lasting, condition. Gastroparesis is also a relapsing condition—the symptoms can come and go for periods of time. Treatment helps people manage the condition so they can be as comfortable and active as possible. Changing eating habits can sometimes help control the severity of gastroparesis symptoms. A health care provider may suggest eating six small meals a day instead of three large ones. If less food enters the stomach each time a person eats, the stomach may not become overly full, allowing it to empty more easily. Chewing food well, drinking noncarbonated liquids with a meal, and walking or sitting for 2 hours after a meal—instead of lying down—may assist with gastric emptying.A health care provider may also recommend avoiding high-fat and fibrous foods. Fat naturally slows digestion and some raw vegetables and fruits are more difficult to digest than other foods. Some foods, such as oranges and broccoli, contain fibrous parts that do not digest well. People with gastroparesis should minimize their intake of large portions of these foods because the undigested parts may remain in the stomach too long. Sometimes, the undigested parts form bezoars.When a person has severe symptoms, a liquid or puréed diet may be prescribed. As liquids tend to empty more quickly from the stomach, some people may find a puréed diet helps improve symptoms. Puréed fresh or cooked fruits and vegetables can be incorporated into shakes and soups. A health care provider may recommend a dietitian to help a person plan meals that minimize symptoms and ensure all nutritional needs are met.When the most extreme cases of gastroparesis lead to severe nausea, vomiting, and dehydration, urgent care may be required at a medical facility where IV fluids can be given.MedicationsSeveral prescription medications are available to treat gastroparesis. A combination of medications may be used to find the most effective treatment.Metoclopramide (Reglan). This medication stimulates stomach muscle contractions to help with gastric emptying. Metoclopramide also helps reduce nausea and vomiting. The medication is taken 20 to 30 minutes before meals and at bedtime. Possible side effects of metoclopramide include fatigue, sleepiness, and depression. Currently, this is the only medication approved by the FDA for treatment of gastroparesis. However, the FDA has placed a black box warning on this medication because of rare reports of it causing an irreversible neurologic side effect called tardive dyskinesia—a disorder that affects movement.Metoclopramide (Reglan).Erythromycin. This antibiotic, prescribed at low doses, may improve gastric emptying. Like metaclopramide, erythromycin works by increasing the contractions that move food through the stomach. Possible side effects of erythromycin include nausea, vomiting, and abdominal cramps.Erythromycin.Other medications. Other medications may be used to treat symptoms and problems related to gastroparesis. For example, medications known as antiemetics are used to help control nausea and vomiting.Other medications.Botulinum ToxinBotulinum toxin is a nerve blocking agent also known as Botox. After passing an endoscope into the stomach, a health care provider injects the Botox into the pylorus, the opening from the stomach into the duodenum. Botox is supposed to help keep the pylorus open for longer periods of time and improve symptoms of gastroparesis. Although some initial research trials showed modest improvement in gastroparesis symptoms and the rate of gastric emptying following the injections, other studies have failed to show the same degree of effectiveness of the Botox injections.11Gastric Electrical StimulationThis treatment alternative may be effective for some people whose nausea and vomiting do not improve with dietary changes or medications. A gastric neurostimulator is a surgically implanted battery-operated device that sends mild electrical pulses to the stomach muscles to help control nausea and vomiting. The procedure may be performed at a hospital or outpatient center by a gastroenterologist. General anesthesia may be required. The gastroenterologist makes several tiny incisions in the abdomen and inserts a laparoscope—a thin tube with a tiny video camera attached. The camera sends a magnified image from inside the stomach to a video monitor, giving the gastroenterologist a close-up view of the tissues. Once implanted, the settings on the battery-operated device can be adjusted to determine the settings that best control symptoms.JejunostomyIf medications and dietary changes don’t work, and the person is losing weight or requires frequent hospitalization for dehydration, a health care provider may recommend surgically placing a feeding tube through the abdominal wall directly into a part of the small intestine called the jejunum. The surgical procedure is known as a jejunostomy. The procedure is performed by a surgeon at a hospital or outpatient center. Anesthesia is needed. The feeding tube bypasses the stomach and delivers a special liquid food with nutrients directly into the jejunum. The jejunostomy is used only when gastroparesis is extremely severe.Parenteral NutritionWhen gastroparesis is so severe that dietary measures and other treatments are not helping, a health care provider may recommend parenteral nutrition—an IV liquid food mixture supplied through a special tube in the chest. The procedure is performed by a surgeon at a hospital or outpatient center; anesthesia is needed. The surgeon inserts a thin, flexible tube called a catheter into a chest vein, with the catheter opening outside the skin. A bag containing liquid nutrients is attached to the catheter, and the nutrients are transported through the catheter into the chest vein and into the bloodstream. This approach is a less preferable alternative to a jejunostomy and is usually a temporary treatment to get through a difficult period of gastroparesis. An elevated blood glucose level directly interferes with normal stomach emptying, so good blood glucose control in people with diabetes is important. However, gastroparesis can make blood glucose control difficult. When food that has been delayed in the stomach finally enters the small intestine and is absorbed, blood glucose levels rise. Gastric emptying is unpredictable with gastroparesis, causing a person’s blood glucose levels to be erratic and difficult to control.The primary treatment goals for gastroparesis related to diabetes are to improve gastric emptying and regain control of blood glucose levels. In addition to the dietary changes and treatments already described, a health care provider will likely adjust the person’s insulin regimen.To better control blood glucose, people with diabetes and gastroparesis may need totake insulin more often or change the type of insulin they take take insulin after meals, instead of before check blood glucose levels frequently after eating and administer insulin when necessarytake insulin more often or change the type of insulin they taketake insulin after meals, instead of beforecheck blood glucose levels frequently after eating and administer insulin when necessaryA health care provider will give specific instructions for taking insulin based on the individual’s needs and the severity of gastroparesis.In some cases, the dietitian may suggest eating several liquid or puréed meals a day until gastroparesis symptoms improve and blood glucose levels are more stable. The problems of gastroparesis can includesevere dehydration due to persistent vomiting gastroesophageal reflux disease (GERD), which is GER that occurs more than twice a week for a few weeks; GERD can lead to esophagitis— irritation of the esophagus bezoars, which can cause nausea, vomiting, obstruction, or interfere with absorption of some medications in pill form difficulty managing blood glucose levels in people with diabetes malnutrition due to poor absorption of nutrients or a low calorie intake decreased quality of life, including work absences due to severe symptomssevere dehydration due to persistent vomitinggastroesophageal reflux disease (GERD), which is GER that occurs more than twice a week for a few weeks; GERD can lead to esophagitis— irritation of the esophagusbezoars, which can cause nausea, vomiting, obstruction, or interfere with absorption of some medications in pill formdifficulty managing blood glucose levels in people with diabetesmalnutrition due to poor absorption of nutrients or a low calorie intakedecreased quality of life, including work absences due to severe symptoms Gastroparesis, also called delayed gastric emptying, is a disorder that slows or stops the movement of food from the stomach to the small intestine. Gastroparesis can occur when the vagus nerve is damaged by illness or injury and the stomach muscles stop working normally. Food then moves slowly from the stomach to the small intestine or stops moving altogether. Most people diagnosed with gastroparesis have idiopathic gastroparesis, which means a health care provider cannot identify the cause, even with medical tests. Diabetes is the most common known cause of gastroparesis. People with diabetes have high levels of blood glucose, also called blood sugar. Over time, high blood glucose levels can damage the vagus nerve. The most common symptoms of gastroparesis are nausea, a feeling of fullness after eating only a small amount of food, and vomiting undigested food— sometimes several hours after a meal. Other common symptoms include gastroesophageal reflux (GER), pain in the stomach area, abdominal bloating, and lack of appetite. Gastroparesis is diagnosed through a physical exam, medical history, blood tests, tests to rule out blockage or structural problems in the gastrointestinal (GI) tract, and gastric emptying tests. Changing eating habits can sometimes help control the severity of gastroparesis symptoms. A health care provider may suggest eating six small meals a day instead of three large ones. When a person has severe symptoms, a liquid or puréed diet may be prescribed. Treatment of gastroparesis may include medications, botulinum toxin, gastric electrical stimulation, jejunostomy, and parenteral nutrition. For people with gastroparesis and diabetes, a health care provider will likely adjust the person’s insulin regimen.Gastroparesis, also called delayed gastric emptying, is a disorder that slows or stops the movement of food from the stomach to the small intestine.Gastroparesis can occur when the vagus nerve is damaged by illness or injury and the stomach muscles stop working normally. Food then moves slowly from the stomach to the small intestine or stops moving altogether.Most people diagnosed with gastroparesis have idiopathic gastroparesis, which means a health care provider cannot identify the cause, even with medical tests.Diabetes is the most common known cause of gastroparesis. People with diabetes have high levels of blood glucose, also called blood sugar. Over time, high blood glucose levels can damage the vagus nerve.The most common symptoms of gastroparesis are nausea, a feeling of fullness after eating only a small amount of food, and vomiting undigested food— sometimes several hours after a meal. Other common symptoms include gastroesophageal reflux (GER), pain in the stomach area, abdominal bloating, and lack of appetite.Gastroparesis is diagnosed through a physical exam, medical history, blood tests, tests to rule out blockage or structural problems in the gastrointestinal (GI) tract, and gastric emptying tests.Changing eating habits can sometimes help control the severity of gastroparesis symptoms. A health care provider may suggest eating six small meals a day instead of three large ones. When a person has severe symptoms, a liquid or puréed diet may be prescribed.Treatment of gastroparesis may include medications, botulinum toxin, gastric electrical stimulation, jejunostomy, and parenteral nutrition.For people with gastroparesis and diabetes, a health care provider will likely adjust the person’s insulin regimen. The National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK) and other components of the National Institutes of Health (NIH) conduct and support research into many diseases and conditions.What are clinical trials, and are they right for you?Clinical trials are part of clinical research and at the heart of all medical advances. Clinical trials look at new ways to prevent, detect, or treat disease. Researchers also use clinical trials to look at other aspects of care, such as improving the quality of life for people with chronic illnesses. Find out if clinical trials are right for you.Find out if clinical trials are right for youWhat clinical trials are open?Clinical trials that are currently open and are recruiting can be viewed at www.ClinicalTrials.gov.www.ClinicalTrials.govThis information may contain content about medications and, when taken as prescribed, the conditions they treat. When prepared, this content included the most current information available. For updates or for questions about any medications, contact the U.S. Food and Drug Administration toll-free at 1-888-INFO-FDA (1-888-463-6332) or visit www.fda.gov. Consult your health care provider for more information.This information may contain content about medications and, when taken as prescribed, the conditions they treat. When prepared, this content included the most current information available. For updates or for questions about any medications, contact the U.S. Food and Drug Administration toll-free at 1-888-INFO-FDA (1-888-463-6332) or visit www.fda.gov. Consult your health care provider for more information.www.fda.govThe U.S. Government does not endorse or favor any specific commercial product or company. Trade, proprietary, or company names appearing in this document are used only because they are considered necessary in the context of the information provided. If a product is not mentioned, the omission does not mean or imply that the product is unsatisfactory.The U.S. Government does not endorse or favor any specific commercial product or company. Trade, proprietary, or company names appearing in this document are used only because they are considered necessary in the context of the information provided. If a product is not mentioned, the omission does not mean or imply that the product is unsatisfactory.What is gastroparesis? Gastroparesis, also called delayed gastric emptying, is a disorder that slows or stops the movement of food from the stomach to the small intestine. Normally, the muscles of the stomach, which are controlled by the vagus nerve, contract to break up food and move it through the gastrointestinal (GI) tract. The GI tract is a series of hollow organs joined in a long, twisting tube from the mouth to the anus. The movement of muscles in the GI tract, along with the release of hormones and enzymes, allows for the digestion of food. Gastroparesis can occur when the vagus nerve is damaged by illness or injury and the stomach muscles stop working normally. Food then moves slowly from the stomach to the small intestine or stops moving altogether. Gastroparesis slows or stops the movement of food from the stomach to the small intestine. What causes gastroparesis? Most people diagnosed with gastroparesis have idiopathic gastroparesis, which means a health care provider cannot identify the cause, even with medical tests. Diabetes is the most common known cause of gastroparesis. People with diabetes have high levels of blood glucose, also called blood sugar. Over time, high blood glucose levels can damage the vagus nerve. Other identifiable causes of gastroparesis include intestinal surgery and nervous system diseases such as Parkinson’s disease or multiple sclerosis. For reasons that are still unclear, gastroparesis is more commonly found in women than in men. What are the symptoms of gastroparesis? The most common symptoms of gastroparesis are nausea, a feeling of fullness after eating only a small amount of food, and vomiting undigested food—sometimes several hours after a meal. Other symptoms of gastroparesis include gastroesophageal reflux (GER), also called acid reflux or acid regurgitation—a condition in which stomach contents flow back up into the esophagus, the organ that connects the mouth to the stomach pain in the stomach area abdominal bloating lack of appetite Symptoms may be aggravated by eating greasy or rich foods, large quantities of foods with fiber—such as raw fruits and vegetables—or drinking beverages high in fat or carbonation. Symptoms may be mild or severe, and they can occur frequently in some people and less often in others. The symptoms of gastroparesis may also vary in intensity over time in the same individual. Sometimes gastroparesis is difficult to diagnose because people experience a range of symptoms similar to those of other diseases. How is gastroparesis diagnosed? Gastroparesis is diagnosed through a physical exam, medical history, blood tests, tests to rule out blockage or structural problems in the GI tract, and gastric emptying tests. Tests may also identify a nutritional disorder or underlying disease. To rule out any blockage or other structural problems, the health care provider may perform one or more of the following tests: Upper gastrointestinal (GI) endoscopy. This procedure involves using an endoscope—a small, flexible tube with a light—to see the upper GI tract, which includes the esophagus, stomach, and duodenum—the first part of the small intestine. The test is performed at a hospital or outpatient center by a gastroenterologist—a doctor who specializes in digestive diseases. The endoscope is carefully fed down the esophagus and into the stomach and duodenum. A small camera mounted on the endoscope transmits a video image to a monitor, allowing close examination of the intestinal lining. A person may receive a liquid anesthetic that is gargled or sprayed on the back of the throat. An intravenous (IV) needle is placed in a vein in the arm if general anesthesia is given. The test may show blockage or large bezoars—solid collections of food, mucus, vegetable fiber, hair, or other material that cannot be digested in the stomach—that are sometimes softened, dissolved, or broken up during an upper GI endoscopy. Upper GI series. An upper GI series may be done to look at the small intestine. The test is performed at a hospital or outpatient center by an x-ray technician, and the images are interpreted by a radiologist—a doctor who specializes in medical imaging. Anesthesia is not needed. No eating or drinking is allowed for 8 hours before the procedure, if possible. If the person has diabetes, a health care provider may give different instructions about fasting before the test. During the procedure, the person will stand or sit in front of an x-ray machine and drink barium, a chalky liquid. Barium coats the small intestine, making signs of gastroparesis show up more clearly on x rays. Gastroparesis is likely if the x ray shows food in the stomach after fasting. A person may experience bloating and nausea for a short time after the test. For several days afterward, barium liquid in the GI tract causes stools to be white or light colored. A health care provider will give the person specific instructions about eating and drinking after the test. Ultrasound. Ultrasound uses a device, called a transducer, that bounces safe, painless sound waves off organs to create an image of their structure. The procedure is performed in a health care provider’s office, outpatient center, or hospital by a specially trained technician, and the images are interpreted by a radiologist; anesthesia is not needed. The images can show whether gallbladder disease and pancreatitis could be the cause of a person’s digestive symptoms, rather than gastroparesis. Gastric emptying scintigraphy. The test involves eating a bland meal—such as eggs or an egg substitute—that contains a small amount of radioactive material. The test is performed in a radiology center or hospital by a specially trained technician and interpreted by a radiologist; anesthesia is not needed. An external camera scans the abdomen to show where the radioactive material is located. The radiologist is then able to measure the rate of gastric emptying at 1, 2, 3, and 4 hours after the meal. If more than 10 percent of the meal is still in the stomach at 4 hours, the diagnosis of gastroparesis is confirmed. SmartPill. The SmartPill is a small electronic device in capsule form. The SmartPill test is available at specialized outpatient centers. The images are interpreted by a radiologist. The device is swallowed and moves through the entire digestive tract, sending information to a cell-phone-sized receiver worn around the person’s waist or neck. The recorded information provides a detailed record of how quickly food travels through each part of the digestive tract. Gastric emptying breath test. With this test, the person eats a special test meal that includes a natural material with a special type of carbon in it. Then, breath samples are taken over a period of several hours to measure the amount of the material in the exhaled breath. The results allow the health care provider to calculate how fast the stomach is emptying. How is gastroparesis treated? Treatment of gastroparesis depends on the severity of the person’s symptoms. In most cases, treatment does not cure gastroparesis, which is usually a chronic, or long-lasting, condition. Gastroparesis is also a relapsing condition—the symptoms can come and go for periods of time. Treatment helps people manage the condition so they can be as comfortable and active as possible. Eating, Diet, and Nutrition Changing eating habits can sometimes help control the severity of gastroparesis symptoms. A health care provider may suggest eating six small meals a day instead of three large ones. If less food enters the stomach each time a person eats, the stomach may not become overly full, allowing it to empty more easily. Chewing food well, drinking noncarbonated liquids with a meal, and walking or sitting for 2 hours after a meal—instead of lying down—may assist with gastric emptying. A health care provider may also recommend avoiding high-fat and fibrous foods. Fat naturally slows digestion and some raw vegetables and fruits are more difficult to digest than other foods. Some foods, such as oranges and broccoli, contain fibrous parts that do not digest well. People with gastroparesis should minimize their intake of large portions of these foods because the undigested parts may remain in the stomach too long. Sometimes, the undigested parts form bezoars. When a person has severe symptoms, a liquid or puréed diet may be prescribed. As liquids tend to empty more quickly from the stomach, some people may find a puréed diet helps improve symptoms. Puréed fresh or cooked fruits and vegetables can be incorporated into shakes and soups. A health care provider may recommend a dietitian to help a person plan meals that minimize symptoms and ensure all nutritional needs are met. When the most extreme cases of gastroparesis lead to severe nausea, vomiting, and dehydration, urgent care may be required at a medical facility where IV fluids can be given. Medications Several prescription medications are available to treat gastroparesis. A combination of medications may be used to find the most effective treatment. Metoclopramide (Reglan). This medication stimulates stomach muscle contractions to help with gastric emptying. Metoclopramide also helps reduce nausea and vomiting. The medication is taken 20 to 30 minutes before meals and at bedtime. Possible side effects of metoclopramide include fatigue, sleepiness, and depression. Currently, this is the only medication approved by the FDA for treatment of gastroparesis. However, the FDA has placed a black box warning on this medication because of rare reports of it causing an irreversible neurologic side effect called tardive dyskinesia—a disorder that affects movement. Erythromycin. This antibiotic, prescribed at low doses, may improve gastric emptying. Like metaclopramide, erythromycin works by increasing the contractions that move food through the stomach. Possible side effects of erythromycin include nausea, vomiting, and abdominal cramps. Other medications. Other medications may be used to treat symptoms and problems related to gastroparesis. For example, medications known as antiemetics are used to help control nausea and vomiting. Botulinum Toxin Botulinum toxin is a nerve blocking agent also known as Botox. After passing an endoscope into the stomach, a health care provider injects the Botox into the pylorus, the opening from the stomach into the duodenum. Botox is supposed to help keep the pylorus open for longer periods of time and improve symptoms of gastroparesis. Although some initial research trials showed modest improvement in gastroparesis symptoms and the rate of gastric emptying following the injections, other studies have failed to show the same degree of effectiveness of the Botox injections.1 Gastric Electrical Stimulation This treatment alternative may be effective for some people whose nausea and vomiting do not improve with dietary changes or medications. A gastric neurostimulator is a surgically implanted battery-operated device that sends mild electrical pulses to the stomach muscles to help control nausea and vomiting. The procedure may be performed at a hospital or outpatient center by a gastroenterologist. General anesthesia may be required. The gastroenterologist makes several tiny incisions in the abdomen and inserts a laparoscope—a thin tube with a tiny video camera attached. The camera sends a magnified image from inside the stomach to a video monitor, giving the gastroenterologist a close-up view of the tissues. Once implanted, the settings on the battery-operated device can be adjusted to determine the settings that best control symptoms. Jejunostomy If medications and dietary changes don’t work, and the person is losing weight or requires frequent hospitalization for dehydration, a health care provider may recommend surgically placing a feeding tube through the abdominal wall directly into a part of the small intestine called the jejunum. The surgical procedure is known as a jejunostomy. The procedure is performed by a surgeon at a hospital or outpatient center. Anesthesia is needed. The feeding tube bypasses the stomach and delivers a special liquid food with nutrients directly into the jejunum. The jejunostomy is used only when gastroparesis is extremely severe. Parenteral Nutrition When gastroparesis is so severe that dietary measures and other treatments are not helping, a health care provider may recommend parenteral nutrition—an IV liquid food mixture supplied through a special tube in the chest. The procedure is performed by a surgeon at a hospital or outpatient center; anesthesia is needed. The surgeon inserts a thin, flexible tube called a catheter into a chest vein, with the catheter opening outside the skin. A bag containing liquid nutrients is attached to the catheter, and the nutrients are transported through the catheter into the chest vein and into the bloodstream. This approach is a less preferable alternative to a jejunostomy and is usually a temporary treatment to get through a difficult period of gastroparesis. How is gastroparesis treated if a person has diabetes? An elevated blood glucose level directly interferes with normal stomach emptying, so good blood glucose control in people with diabetes is important. However, gastroparesis can make blood glucose control difficult. When food that has been delayed in the stomach finally enters the small intestine and is absorbed, blood glucose levels rise. Gastric emptying is unpredictable with gastroparesis, causing a person’s blood glucose levels to be erratic and difficult to control. The primary treatment goals for gastroparesis related to diabetes are to improve gastric emptying and regain control of blood glucose levels. In addition to the dietary changes and treatments already described, a health care provider will likely adjust the person’s insulin regimen. To better control blood glucose, people with diabetes and gastroparesis may need to take insulin more often or change the type of insulin they take take insulin after meals, instead of before check blood glucose levels frequently after eating and administer insulin when necessary A health care provider will give specific instructions for taking insulin based on the individual’s needs and the severity of gastroparesis. In some cases, the dietitian may suggest eating several liquid or puréed meals a day until gastroparesis symptoms improve and blood glucose levels are more stable. What are the problems of gastroparesis? The problems of gastroparesis can include severe dehydration due to persistent vomiting gastroesophageal reflux disease (GERD), which is GER that occurs more than twice a week for a few weeks; GERD can lead to esophagitis— irritation of the esophagus bezoars, which can cause nausea, vomiting, obstruction, or interfere with absorption of some medications in pill form difficulty managing blood glucose levels in people with diabetes malnutrition due to poor absorption of nutrients or a low calorie intake decreased quality of life, including work absences due to severe symptoms Points to Remember Gastroparesis, also called delayed gastric emptying, is a disorder that slows or stops the movement of food from the stomach to the small intestine. Gastroparesis can occur when the vagus nerve is damaged by illness or injury and the stomach muscles stop working normally. Food then moves slowly from the stomach to the small intestine or stops moving altogether. Most people diagnosed with gastroparesis have idiopathic gastroparesis, which means a health care provider cannot identify the cause, even with medical tests. Diabetes is the most common known cause of gastroparesis. People with diabetes have high levels of blood glucose, also called blood sugar. Over time, high blood glucose levels can damage the vagus nerve. The most common symptoms of gastroparesis are nausea, a feeling of fullness after eating only a small amount of food, and vomiting undigested food— sometimes several hours after a meal. Other common symptoms include gastroesophageal reflux (GER), pain in the stomach area, abdominal bloating, and lack of appetite. Gastroparesis is diagnosed through a physical exam, medical history, blood tests, tests to rule out blockage or structural problems in the gastrointestinal (GI) tract, and gastric emptying tests. Changing eating habits can sometimes help control the severity of gastroparesis symptoms. A health care provider may suggest eating six small meals a day instead of three large ones. When a person has severe symptoms, a liquid or puréed diet may be prescribed. Treatment of gastroparesis may include medications, botulinum toxin, gastric electrical stimulation, jejunostomy, and parenteral nutrition. For people with gastroparesis and diabetes, a health care provider will likely adjust the person’s insulin regimen. References [1] Bai Y, Xu MJ, Yang X, et al. A systematic review on intrapyloric botulinum toxin injection for gastroparesis. Digestion. 2010;81(1):27–34. Clinical Trials The National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK) and other components of the National Institutes of Health (NIH) conduct and support research into many diseases and conditions. What are clinical trials, and are they right for you? Clinical trials are part of clinical research and at the heart of all medical advances. Clinical trials look at new ways to prevent, detect, or treat disease. Researchers also use clinical trials to look at other aspects of care, such as improving the quality of life for people with chronic illnesses. Find out if clinical trials are right for you. What clinical trials are open? Clinical trials that are currently open and are recruiting can be viewed at www.ClinicalTrials.gov. This information may contain content about medications and, when taken as prescribed, the conditions they treat. When prepared, this content included the most current information available. For updates or for questions about any medications, contact the U.S. Food and Drug Administration toll-free at 1-888-INFO-FDA (1-888-463-6332) or visit www.fda.gov. Consult your health care provider for more information. The U.S. Government does not endorse or favor any specific commercial product or company. Trade, proprietary, or company names appearing in this document are used only because they are considered necessary in the context of the information provided. If a product is not mentioned, the omission does not mean or imply that the product is unsatisfactory.

I am a current Gastroparesis fighter with a GJ feeding tube. I am also one of the admins for a GP support group and an advocacy group. I have become a volunteer advocater. I would appreciate any info you can share about Gastroparesis, Feeding tubes, and even TPN. Thanks

Causes of gastroparesis are mostly unknown. It is a common complication of diabetes, and sometimes surgeries.

Gastroparesis (Causes): The exact cause of gastroparesis is unknown. It may be caused by a disruption of nerve signals to the stomach. The condition is a common complication of diabetes. It can also follow some surgeries. Risk factors for gastroparesis include: - Diabetes - Gastrectomy (surgery to remove part of the stomach) - Systemic sclerosis - Use of medicine that blocks certain nerve signals (anticholinergic medicine)

I am a current Gastroparesis fighter with a GJ feeding tube. I am also one of the admins for a GP support group and an advocacy group. I have become a volunteer advocater. I would appreciate any info you can share about Gastroparesis, Feeding tubes, and even TPN. Thanks

Causes of gastroparesis are mostly unknown. It is a common complication of diabetes, and sometimes surgeries. Symptoms of gastroparesis include: nausea, vomiting undigested food eaten a few hours earlier, feeling full after eating just a few bites, acid reflux, abdominal bloating, abdominal pain, changes in blood sugar levels, lack of appetite, weight loss and malnutrition. Tests to diagnose this condition include: gastric emptying study, upper gastrointestinal endoscopy, ultrasound, and upper gastrointestinal series. Many people can manage gastroparesis with diet changes. For people with gastroparesis who are unable to tolerate any food or liquids, doctors may recommend a feeding tube (jejunostomy tube) placed in the small intestine or a gastric venting tube to help relieve pressure from gastric contents. In some cases, IV (parenteral) feeding tube that goes directly into a chest vein might be needed. Some new procedures involve endoscopy to keep the connection between the stomach and the small intestine open and gastric electrical stimulation and pacing.

Gastroparesis: Gastroparesis is a condition that affects the normal spontaneous movement of the muscles (motility) in your stomach. Ordinarily, strong muscular contractions propel food through your digestive tract. But if you have gastroparesis, your stomach's motility is slowed down or doesn't work at all, preventing your stomach from emptying properly. Certain medications, such as opioid pain relievers, some antidepressants, and high blood pressure and allergy medications, can lead to slow gastric emptying and cause similar symptoms. For people who already have gastroparesis, these medications may make their condition worse. Gastroparesis can interfere with normal digestion, cause nausea and vomiting, and cause problems with blood sugar levels and nutrition. The cause of gastroparesis is usually unknown. Sometimes it's a complication of diabetes, and some people develop gastroparesis after surgery. Although there's no cure for gastroparesis, changes to your diet, along with medication, can offer some relief. Gastroparesis care at Mayo Clinic Signs and symptoms of gastroparesis include: - Vomiting - Nausea - A feeling of fullness after eating just a few bites - Vomiting undigested food eaten a few hours earlier - Acid reflux - Abdominal bloating - Abdominal pain - Changes in blood sugar levels - Lack of appetite - Weight loss and malnutrition Many people with gastroparesis don't have any noticeable signs and symptoms. Make an appointment with your doctor if you have any signs or symptoms that worry you. It's not always clear what leads to gastroparesis. But in many cases, gastroparesis is believed to be caused by damage to a nerve that controls the stomach muscles (vagus nerve). The vagus nerve helps manage the complex processes in your digestive tract, including signaling the muscles in your stomach to contract and push food into the small intestine. A damaged vagus nerve can't send signals normally to your stomach muscles. This may cause food to remain in your stomach longer, rather than move normally into your small intestine to be digested. The vagus nerve can be damaged by diseases, such as diabetes, or by surgery to the stomach or small intestine. Factors that can increase your risk of gastroparesis: - Diabetes - Abdominal or esophageal surgery - Infection, usually a virus - Certain medications that slow the rate of stomach emptying, such as narcotic pain medications - Scleroderma (a connective tissue disease) - Nervous system diseases, such as Parkinson's disease or multiple sclerosis - Hypothyroidism (low thyroid) Women are more likely to develop gastroparesis than are men. Doctors use several tests to help diagnose gastroparesis and rule out conditions that may cause similar symptoms. Tests may include: - Gastric emptying study. This is the most important test used in making a diagnosis of gastroparesis. It involves eating a light meal, such as eggs and toast, that contains a small amount of radioactive material. A scanner that detects the movement of the radioactive material is placed over your abdomen to monitor the rate at which food leaves your stomach. You'll need to stop taking any medications that could slow gastric emptying. Ask your doctor if any of your medications might slow your digestion. - Upper gastrointestinal (GI) endoscopy. This procedure is used to visually examine your upper digestive system - your esophagus, stomach and beginning of the small intestine (duodenum) - with a tiny camera on the end of a long, flexible tube.This test can also diagnose other conditions, such as peptic ulcer disease or pyloric stenosis, which can have symptoms similar to those of gastroparesis. - Ultrasound. This test uses high-frequency sound waves to produce images of structures within your body. Ultrasound can help diagnose whether problems with your gallbladder or your kidneys could be causing your symptoms. - Upper gastrointestinal series. This is a series of X-rays in which you drink a white, chalky liquid (barium) that coats the digestive system to help abnormalities show up. Treating gastroparesis begins with identifying and treating the underlying condition. If diabetes is causing your gastroparesis, your doctor can work with you to help you control it. Changes to your diet Maintaining adequate nutrition is the most important goal in the treatment of gastroparesis. Many people can manage gastroparesis with diet changes and dietary changes are the first step in managing this condition. Your doctor may refer you to a dietitian who can work with you to find foods that are easier for you to digest so that you're more likely to get enough calories and nutrients from the food you eat. A dietitian might suggest that you try to: - Eat smaller meals more frequently - Chew food thoroughly - Eat well-cooked fruits and vegetables rather than raw fruits and vegetables - Avoid fibrous fruits and vegetables, such as oranges and broccoli, which may cause bezoars - Choose mostly low-fat foods, but if you can tolerate them, add small servings of fatty foods to your diet - Try soups and pureed foods if liquids are easier for you to swallow - Drink about 34 to 51 ounces (1 to 1.5 liters) of water a day - Exercise gently after you eat, such as going for a walk - Avoid carbonated drinks, alcohol and smoking - Try to avoid lying down for 2 hours after a meal - Take a multivitamin daily Here's a brief list of foods recommended for people with gastroparesis (your dietitian can give you a more comprehensive list): - White bread and rolls and "light" whole-wheat bread without nuts or seeds - Plain or egg bagels - English muffins - Flour or corn tortillas - Pancakes - Puffed wheat and rice cereals - Cream of wheat or rice - White crackers - Potatoes, white or sweet (no skin) - Baked french fries - Rice - Pasta - Lean beef, veal and pork (not fried) - Chicken or turkey (no skin and not fried) - Crab, lobster, shrimp, clams, scallops, oysters - Tuna (packed in water) - Cottage cheese - Eggs - Tofu - Strained meat baby food - Baby food vegetables and fruits - Tomato sauce, paste, puree, juice - Carrots (cooked) - Beets (cooked) - Mushrooms (cooked) - Vegetable juice - Vegetable broth - Fruit juices and drinks - Applesauce - Bananas - Peaches and pears (canned) - Milk, if tolerated - Yogurt (without fruit pieces) - Custard and pudding - Frozen yogurt Medications Medications to treat gastroparesis may include: - Medications to stimulate the stomach muscles. These medications include metoclopramide (Reglan) and erythromycin (Eryc, E.E.S.). Metoclopramide has a risk of serious side effects. Erythromycin may lose its effectiveness over time, and can cause side effects, such as diarrhea. A newer medication, domperidone, with fewer side effects, is also available with restricted access. - Medications to control nausea and vomiting. Drugs that help ease nausea and vomiting include prochlorperazine (Compro) and diphenhydramine (Benadryl, Unisom). A class of medications that includes ondansetron (Zofran) is sometimes used to help nausea and vomiting. Surgical treatment Some people with gastroparesis may be unable to tolerate any food or liquids. In these situations, doctors may recommend a feeding tube (jejunostomy tube) be placed in the small intestine. Or doctors may recommend a gastric venting tube to help relieve pressure from gastric contents. Feeding tubes can be passed through your nose or mouth or directly into your small intestine through your skin. The tube is usually temporary and is only used when gastroparesis is severe or when blood sugar levels can't be controlled by any other method. Some people may require an IV (parenteral) feeding tube that goes directly into a vein in the chest. Treatments under investigation Researchers are continuing to investigate new medications to treat gastroparesis. One example is a new drug in development called relamorelin. The results of a phase 2 clinical trial found the drug could speed up gastric emptying and reduce vomiting. The drug is not yet approved by the Food and Drug Administration (FDA), but a larger clinical trial is currently underway. A number of new therapies are being tried with the help of endoscopy - a slender tube that's threaded down the esophagus. One procedure used endoscopy to place a small tube (stent) where the stomach connects to the small intestine (duodenum) to keep this connection open. Several research trials investigated the use of botulinum toxin administered through endoscopy without much success. This treatment is not recommended. Doctors are also studying the use of a minimally invasive surgical technique when someone needs a feeding tube placed directly into the small intestine (jejunostomy tube). Gastric electrical stimulation and pacing Gastric electrical stimulation is a surgically implanted device that provides electrical stimulation to stimulate stomach muscles to move food more efficiently. Study results have been mixed. However, the device seems to be most helpful for people with diabetic gastroparesis. The FDA allows the device to be used under a compassionate use exemption for those who can't control their gastroparesis symptoms with diet changes or medications. However, larger studies are needed. Gastric pacing also involves a surgically implanted device that stimulates the stomach muscles, but this device tries to more closely mimic normal stomach contractions. Currently, the device is too large and causes discomfort. Gastric pacing devices are only available in clinical trials right now. If you're a smoker, stop. Your gastroparesis symptoms are less likely to improve over time if you keep smoking. People with gastroparesis who are overweight are also less likely to get better over time. There is some evidence that certain alternative treatments can be helpful to people with gastroparesis, although more studies are needed. Some treatments that look promising include: - Acupuncture and electroacupuncture. Acupuncture involves the insertion of extremely thin needles through your skin at strategic points on your body. During electroacupuncture, a small electrical current is passed through the needles. Studies have shown these treatments to ease gastroparesis symptoms more than a sham treatment. - STW 5 (Iberogast). This herbal formula from Germany contains nine different herbal extracts. It hasn't been shown to speed up gastric emptying, but was slightly better at easing digestive symptoms than a placebo. - Rikkunshito. This Japanese herbal formula also contains nine herbs. It may help reduce abdominal pain and the feeling of post-meal fullness. - Cannabis. There aren't any published clinical trials on cannabis and gastroparesis. However, cannabis - commonly known as marijuana - is thought to ease nausea and other digestive complaints. Derivatives of cannabis have been used by people who have cancer in the past, but there are better FDA-approved medications available to control nausea now. Because cannabis is often smoked, there's concern about possible addiction and harm, similar to what occurs with tobacco smoke. In addition, daily users of marijuana (cannabis) may develop a condition that mimics the symptoms of gastroparesis called cannabis hyperemesis syndrome. Symptoms can include nausea, vomiting and abdominal pain. Quitting cannabis may help.

I am a current Gastroparesis fighter with a GJ feeding tube. I am also one of the admins for a GP support group and an advocacy group. I have become a volunteer advocater. I would appreciate any info you can share about Gastroparesis, Feeding tubes, and even TPN. Thanks

Gastroparesis occurs when food moves slowly from the stomach to the small intestine or stops moving altogether. In most cases, the causes of gastroparesis are unknown. Diabetes is the most common known cause of gastroparesis. The most common symptoms of gastroparesis are nausea; a feeling of fullness after eating only a small amount of food; vomiting undigested food, sometimes several hours after a meal; gastroesophageal reflux (GER); pain in the stomach area; abdominal bloating; and lack of appetite. Your doctor will diagnose gastroparesis through a physical examination, medical history, blood tests, tests to rule out blockage or structural problems in the gastrointestinal tract, and gastric emptying tests. Treatment of gastroparesis may include medications, botulinum toxin, gastric electrical stimulation, jejunostomy (surgery to place a feeding tube through the abdominal wall directly into a part of the small intestine called the jejunum), and parenteral nutrition.

Gastroparesis (Points to Remember): Gastroparesis, also called delayed gastric emptying, is a disorder that slows or stops the movement of food from the stomach to the small intestine. Gastroparesis can occur when the vagus nerve is damaged by illness or injury and the stomach muscles stop working normally. Food then moves slowly from the stomach to the small intestine or stops moving altogether. Most people diagnosed with gastroparesis have idiopathic gastroparesis, which means a health care provider cannot identify the cause, even with medical tests. Diabetes is the most common known cause of gastroparesis. People with diabetes have high levels of blood glucose, also called blood sugar. Over time, high blood glucose levels can damage the vagus nerve. The most common symptoms of gastroparesis are nausea, a feeling of fullness after eating only a small amount of food, and vomiting undigested food— sometimes several hours after a meal. Other common symptoms include gastroesophageal reflux (GER), pain in the stomach area, abdominal bloating, and lack of appetite. Gastroparesis is diagnosed through a physical exam, medical history, blood tests, tests to rule out blockage or structural problems in the gastrointestinal (GI) tract, and gastric emptying tests. Changing eating habits can sometimes help control the severity of gastroparesis symptoms. A health care provider may suggest eating six small meals a day instead of three large ones. When a person has severe symptoms, a liquid or puréed diet may be prescribed. Treatment of gastroparesis may include medications, botulinum toxin, gastric electrical stimulation, jejunostomy, and parenteral nutrition. For people with gastroparesis and diabetes, a health care provider will likely adjust the person’s insulin regimen.Gastroparesis, also called delayed gastric emptying, is a disorder that slows or stops the movement of food from the stomach to the small intestine.Gastroparesis can occur when the vagus nerve is damaged by illness or injury and the stomach muscles stop working normally. Food then moves slowly from the stomach to the small intestine or stops moving altogether.Most people diagnosed with gastroparesis have idiopathic gastroparesis, which means a health care provider cannot identify the cause, even with medical tests.Diabetes is the most common known cause of gastroparesis. People with diabetes have high levels of blood glucose, also called blood sugar. Over time, high blood glucose levels can damage the vagus nerve.The most common symptoms of gastroparesis are nausea, a feeling of fullness after eating only a small amount of food, and vomiting undigested food— sometimes several hours after a meal. Other common symptoms include gastroesophageal reflux (GER), pain in the stomach area, abdominal bloating, and lack of appetite.Gastroparesis is diagnosed through a physical exam, medical history, blood tests, tests to rule out blockage or structural problems in the gastrointestinal (GI) tract, and gastric emptying tests.Changing eating habits can sometimes help control the severity of gastroparesis symptoms. A health care provider may suggest eating six small meals a day instead of three large ones. When a person has severe symptoms, a liquid or puréed diet may be prescribed.Treatment of gastroparesis may include medications, botulinum toxin, gastric electrical stimulation, jejunostomy, and parenteral nutrition.For people with gastroparesis and diabetes, a health care provider will likely adjust the person’s insulin regimen.

I am a current Gastroparesis fighter with a GJ feeding tube. I am also one of the admins for a GP support group and an advocacy group. I have become a volunteer advocater. I would appreciate any info you can share about Gastroparesis, Feeding tubes, and even TPN. Thanks

Glaucoma can damage the optic nerve due to increased pressure in the eye. Adults may have open-angle glaucoma, angle-closure glaucoma, also called closed-angle glaucoma or secondary glaucoma. Open-angle glaucoma occurs due to slow increase in eye pressure over time, and is the most common type of glaucoma. Its cause is unknown, but it tends to run in the families. Closed-angle glaucoma occurs due to a quick, severe rise in eye pressure. Dilating eye drops and certain medicines may trigger an acute glaucoma attack. Secondary glaucoma occurs due to a known cause. Both open- and closed-angle glaucoma can be secondary when caused by something known. Causes include: drugs such as corticosteroids, eye diseases such as uveitis, diabetes, eye injury. Most people cannot feel open-angle glaucoma. People may experience blind spots and slow loss of side (peripheral) vision (also called tunnel vision). Symptoms of closed-angle glaucoma may come and go at first, or steadily become worse. You may notice: sudden, severe pain in one eye decreased or cloudy vision, nausea and vomiting, rainbow-like halos around lights, red eye, feeling that an eye is swollen. The only way to diagnose glaucoma is by having a complete eye exam. You will be given a test to check your eye pressure (tonometry.) Eye pressure can be normal in some people with glaucoma. So you will need other tests to confirm glaucoma. They may include: using a special lens to look at the angle of the eye (gonioscopy), optic nerve imaging, checking your visual acuity, field of vision, retina and how your pupil responds to light (pupillary reflex response), 3-D view of your eye (slit lamp examination). The goal of treatment is to reduce your eye pressure. Treatment depends on the type of glaucoma that you have. If you have open-angle glaucoma, you will probably be given eye drops. You also may be given pills to lower pressure in the eye. If drops alone do not work, you may need laser treatment that uses a painless laser to open the channels for fluid to flow out. If drops and laser treatment do not work, you may need surgery. The doctor will open a new channel so fluid can escape. This will help lower your pressure. Recently, new implants have been developed that can help treat glaucoma in people having cataract surgery. An acute angle-closure attack is a medical emergency. If you have had acute glaucoma in one eye, your doctor is likely to treat your second eye to prevent an attack in that eye.You can become blind in a few days if you are not treated. You may be given drops, pills, and IV medicine to lower your eye pressure. Some people also need an emergency operation, called an iridotomy. If you have secondary glaucoma, treating the cause may help your symptoms go away. Other treatments also may be needed. Open-angle glaucoma cannot be cured. You can manage it and keep your sight by following your provider's directions. You cannot prevent open-angle glaucoma, but you can help prevent vision loss. A complete eye exam can help find open-angle glaucoma early, when it is easier to treat. All adults should have a complete eye exam by the age of 40. You should have regular eye exams as recommended by your provider. If you are at risk for closed-angle glaucoma, your provider may recommend treatment before you have an attack to help prevent eye damage and vision loss.

Glaucoma: Glaucoma is a group of eye conditions that can damage the optic nerve. This nerve sends the images you see to your brain. Most often, optic nerve damage is caused by increased pressure in the eye. This is called intraocular pressure. Watch this video about: Glaucoma Glaucoma is the second most common cause of blindness in the United States. There are four major types of glaucoma: - Open-angle glaucoma - Angle-closure glaucoma, also called closed-angle glaucoma - Congenital glaucoma - Secondary glaucoma The front part of the eye is filled with a clear fluid called aqueous humor. This fluid is made in an area behind the colored part of the eye (iris). It leaves the eye through channels where the iris and cornea meet. This area is called the anterior chamber angle, or the angle. The cornea is the clear covering on the front of the eye that covers the iris, pupil, and angle. Anything that slows or blocks the flow of this fluid will cause pressure to build up in the eye. - In open-angle glaucoma, the increase in pressure is often small and slow. - In closed-angle glaucoma, the increase is often high and sudden. - Either type can damage the optic nerve. Open-angle glaucoma is the most common type of glaucoma. - The cause is unknown. The increase in eye pressure happens slowly over time. You cannot feel it. - The increased pressure pushes on the optic nerve. Damage to the optic nerve causes blind spots in your vision. - Open-angle glaucoma tends to run in families. Your risk is higher if you have a parent or grandparent with open-angle glaucoma. People of African descent are also at higher risk for this disease. Closed-angle glaucoma occurs when the fluid is suddenly blocked and cannot flow out of the eye. This causes a quick, severe rise in eye pressure. - Dilating eye drops and certain medicines may trigger an acute glaucoma attack. - Closed-angle glaucoma is an emergency. - If you have had acute glaucoma in one eye, you are at risk for it in the second eye. Your health care provider is likely to treat your second eye to prevent a first attack in that eye. Secondary glaucoma occurs due to a known cause. Both open- and closed-angle glaucoma can be secondary when caused by something known. Causes include: - Drugs such as corticosteroids - Eye diseases such as uveitis (an infection of the middle layer of the eye) - Diseases such as diabetes - Eye injury Congenital glaucoma occurs in babies. - It often runs in families. - It is present at birth. - It is caused when the eye does not develop normally. OPEN-ANGLE GLAUCOMA - Most people have no symptoms. - Once vision loss occurs, the damage is already severe. - Slow loss of side (peripheral) vision (also called tunnel vision). - Advanced glaucoma can lead to blindness. ANGLE-CLOSURE GLAUCOMA Symptoms may come and go at first, or steadily become worse. You may notice: - Sudden, severe pain in one eye - Decreased or cloudy vision, often called "steamy" vision - Nausea and vomiting - Rainbow-like halos around lights - Red eye - Eye feels swollen CONGENITAL GLAUCOMA Symptoms are most often noticed when the child is a few months old. - Cloudiness of the front of the eye - Enlargement of one eye or both eyes - Red eye - Sensitivity to light - Tearing SECONDARY GLAUCOMA - Symptoms are most often related to the underlying problem causing the glaucoma. - Depending on the cause, symptoms may either be like open-angle glaucoma or angle-closure glaucoma. The only way to diagnose glaucoma is by having a complete eye exam. - You will be given a test to check your eye pressure. This is called tonometry. - In most cases, you will be given eye drops to widen (dilate) your pupil. - When your pupil is dilated, your eye doctor will look at the inside of your eye and the optic nerve. Eye pressure is different at different times of the day. Eye pressure can even be normal in some people with glaucoma. So you will need other tests to confirm glaucoma. They may include: - Using a special lens to look at the angle of the eye (gonioscopy). - Photographs or laser scanning images of the inside of your eye (optic nerve imaging). - Checking your retina. The retina is the light-sensitive tissue at the back of your eye. - Checking how your pupil responds to light (pupillary reflex response). - 3-D view of your eye (slit lamp examination). - Testing the clearness of your vision (visual acuity). - Testing your field of vision (visual field measurement). The goal of treatment is to reduce your eye pressure. Treatment depends on the type of glaucoma that you have. OPEN-ANGLE GLAUCOMA - If you have open-angle glaucoma, you will probably be given eye drops. - You may need more than one type. Most people can be treated with eye drops. - Most of the eye drops used today have fewer side effects than those used in the past. - You also may be given pills to lower pressure in the eye. If drops alone do not work, you may need other treatment: - Laser treatment uses a painless laser to open the channels where fluid flows out. - If drops and laser treatment do not work, you may need surgery. The doctor will open a new channel so fluid can escape. This will help lower your pressure. - Recently, new implants have been developed that can help treat glaucoma in people having cataract surgery. ACUTE ANGLE GLAUCOMA An acute angle-closure attack is a medical emergency. You can become blind in a few days if you are not treated. - You may be given drops, pills, and medicine given through a vein (by IV) to lower your eye pressure. - Some people also need an emergency operation, called an iridotomy. The doctor uses a laser to open a new channel in the iris. Sometimes this is done with surgery. The new channel relieves the attack and will prevent another attack. - To help prevent an attack in the other eye, the procedure will often be performed on the other eye. This may be done even if it has never had an attack. CONGENITAL GLAUCOMA - Congenital glaucoma is almost always treated with surgery. - This is done using general anesthesia. This means the child is asleep and feels no pain. SECONDARY GLAUCOMA If you have secondary glaucoma, treating the cause may help your symptoms go away. Other treatments also may be needed. Open-angle glaucoma cannot be cured. You can manage it and keep your sight by following your provider's directions. Closed-angle glaucoma is a medical emergency. You need treatment right away to save your vision. Babies with congenital glaucoma usually do well when surgery is done early. How you do with secondary glaucoma depends on what is causing the condition. If you have severe eye pain or a sudden loss of vision, get immediate medical help. These may be signs of closed-angle glaucoma. You cannot prevent open-angle glaucoma. Most people have no symptoms. But you can help prevent vision loss. - A complete eye exam can help find open-angle glaucoma early, when it is easier to treat. - All adults should have a complete eye exam by the age of 40. - If you are at risk for glaucoma, you should have a complete eye exam sooner than age 40. - You should have regular eye exams as recommended by your provider. If you are at risk for closed-angle glaucoma, your provider may recommend treatment before you have an attack to help prevent eye damage and vision loss. Updated by: Franklin W. Lusby, MD, ophthalmologist, Lusby Vision Institute, La Jolla, CA. Internal review and update on 09/01/2016 by David Zieve, MD, MHA, Isla Ogilvie, PhD, and the A.D.A.M. Editorial team.

Can you mail me patient information about Glaucoma, I was recently diagnosed and want to learn all I can about the disease.

Open-angle glaucoma occurs due to slow increase in eye pressure over time, and is the most common type of glaucoma. Its cause is unknown, but it tends to run in the families. Most people cannot feel open-angle glaucoma. Closed-angle glaucoma occurs due to a quick, severe rise in eye pressure. Dilating eye drops and certain medicines may trigger an acute glaucoma attack. Secondary glaucoma occurs due to a known cause. Both open- and closed-angle glaucoma can be secondary when caused by something known. Causes include: drugs such as corticosteroids, eye diseases such as uveitis, diabetes, eye injury.

Glaucoma (Causes): Glaucoma is the second most common cause of blindness in the United States. There are four major types of glaucoma: - Open-angle glaucoma - Angle-closure glaucoma, also called closed-angle glaucoma - Congenital glaucoma - Secondary glaucoma The front part of the eye is filled with a clear fluid called aqueous humor. This fluid is made in an area behind the colored part of the eye (iris). It leaves the eye through channels where the iris and cornea meet. This area is called the anterior chamber angle, or the angle. The cornea is the clear covering on the front of the eye that covers the iris, pupil, and angle. Anything that slows or blocks the flow of this fluid will cause pressure to build up in the eye. - In open-angle glaucoma, the increase in pressure is often small and slow. - In closed-angle glaucoma, the increase is often high and sudden. - Either type can damage the optic nerve. Open-angle glaucoma is the most common type of glaucoma. - The cause is unknown. The increase in eye pressure happens slowly over time. You cannot feel it. - The increased pressure pushes on the optic nerve. Damage to the optic nerve causes blind spots in your vision. - Open-angle glaucoma tends to run in families. Your risk is higher if you have a parent or grandparent with open-angle glaucoma. People of African descent are also at higher risk for this disease. Closed-angle glaucoma occurs when the fluid is suddenly blocked and cannot flow out of the eye. This causes a quick, severe rise in eye pressure. - Dilating eye drops and certain medicines may trigger an acute glaucoma attack. - Closed-angle glaucoma is an emergency. - If you have had acute glaucoma in one eye, you are at risk for it in the second eye. Your health care provider is likely to treat your second eye to prevent a first attack in that eye. Secondary glaucoma occurs due to a known cause. Both open- and closed-angle glaucoma can be secondary when caused by something known. Causes include: - Drugs such as corticosteroids - Eye diseases such as uveitis (an infection of the middle layer of the eye) - Diseases such as diabetes - Eye injury Congenital glaucoma occurs in babies. - It often runs in families. - It is present at birth. - It is caused when the eye does not develop normally.

Can you mail me patient information about Glaucoma, I was recently diagnosed and want to learn all I can about the disease.

The safest way to lose weight is to change your behavior for a long term and lead an active lifestyle, exercise and eat healthy. Work with your doctor and dietitian to lose weight while staying healthy. Make healthy food choices, read nutritional labels, and change the way you prepare food and snack. Reduce portion sizes and avoid sweetened drinks and extreme diets. Discuss supplements and herbal remedies with your doctor. If diet, exercise, or medicine do not help, discuss with your doctor if one of the following surgeries is a good option for you: laparoscopic gastric banding, gastric bypass surgery, sleeve gastrectomy, or duodenal switch.

Obesity (Treatment): CHANGING YOUR LIFESTYLE An active lifestyle and plenty of exercise, along with healthy eating, is the safest way to lose weight. Even modest weight loss can improve your health. You may need a lot of support from family and friends. Your main goal should be to learn new, healthy ways of eating and make them part of your daily routine. Many people find it hard to change their eating habits and behaviors. You may have practiced some habits for so long that you may not even know they are unhealthy, or you do them without thinking. You need to be motivated to make lifestyle changes. Make the behavior change part of your life over the long term. Know that it takes time to make and keep a change in your lifestyle. Work with your provider and dietitian to set realistic, safe daily calorie counts that help you lose weight while staying healthy. Remember that if you drop pounds slowly and steadily, you are more likely to keep them off. Your dietitian can teach you about: - Healthy food choices - Healthy snacks - Reading nutrition labels - New ways to prepare food - Portion sizes - Sweetened drinks Extreme diets (fewer than 1100 calories per day) are not thought to be safe or to work very well. These types of diets often DO NOT contain enough vitamins and minerals. Most people who lose weight this way return to overeating and become obese again. Learn ways to manage stress other than snacking. Examples may be meditation, yoga, or exercise. If you are depressed or stressed a lot, talk to your provider. MEDICINES AND HERBAL REMEDIES You may see ads for supplements and herbal remedies that claim they will help you lose weight. Some of these claims may not be true. And some of these supplements can have serious side effects. Talk to your provider before using them. You can discuss weight loss medicines with your doctor. Many people lose at least 5 pounds (2 kg) by taking these drugs, but they may regain the weight when they stop taking the medicine unless they have made lifestyle changes. SURGERY Bariatric (weight-loss) surgery can reduce the risk of certain diseases in people with severe obesity. These risks include: - Arthritis - Diabetes - Heart disease - High blood pressure - Sleep apnea - Some cancers - Stroke Surgery may help people who have been very obese for 5 years or more and have not lost weight from other treatments, such as diet, exercise, or medicine. Surgery alone is not the answer for weight loss. It can train you to eat less, but you still have to do much of the work. You must be committed to diet and exercise after surgery. Talk to your doctor to learn if surgery is a good option for you. Weight-loss surgeries include: - Laparoscopic gastric banding - Gastric bypass surgery - Sleeve gastrectomy (less common) - Duodenal switch

help with obesity I would like help on my obesity problem and if I can get help

To reach and stay at a healthy weight, you may need to work with a dietitian, behavior counselor or an obesity specialist. They will help you understand and make changes in your eating habits and increase physical activity. The treatment methods that are right for you depend on your level of obesity, your overall health and your willingness to participate in your weight-loss plan. In addition to dietary changes, exercise and activity, and behavior changes, you may need prescription weight-loss medications or weight-loss surgery.

Obesity (Treatment): The goal of obesity treatment is to reach and stay at a healthy weight. You may need to work with a team of health professionals - including a dietitian, behavior counselor or an obesity specialist - to help you understand and make changes in your eating and activity habits. The initial treatment goal is usually a modest weight loss - 3 to 5 percent of your total weight. That means that if you weigh 200 pounds (91 kg) and are obese by BMI standards, you would need to lose only about 6 to 10 pounds (2.7 to 4.5 kg) for your health to begin to improve. However, the more weight you lose, the greater the benefits. All weight-loss programs require changes in your eating habits and increased physical activity. The treatment methods that are right for you depend on your level of obesity, your overall health and your willingness to participate in your weight-loss plan. Other treatment tools include: - Dietary changes - Exercise and activity - Behavior change - Prescription weight-loss medications - Weight-loss surgery Dietary changes Reducing calories and practicing healthier eating habits are vital to overcoming obesity. Although you may lose weight quickly at first, slow and steady weight loss over the long term is considered the safest way to lose weight and the best way to keep it off permanently. Avoid drastic and unrealistic diet changes, such as crash diets, because they're unlikely to help you keep excess weight off for the long term. Plan to participate in a comprehensive weight-loss program for at least six months and in the maintenance phase of a program for at least a year to boost your odds of weight-loss success. There is no best weight-loss diet. Choose one that includes healthy foods that you feel will work for you. Dietary changes to treat obesity include: - Cutting calories. The key to weight loss is reducing how many calories you take in. You and your health care providers can review your typical eating and drinking habits to see how many calories you normally consume and where you can cut back. You and your doctor can decide how many calories you need to take in each day to lose weight, but a typical amount is 1,200 to 1,500 calories for women and 1,500 to 1,800 for men. - Feeling full on less. The concept of energy density can help you satisfy your hunger with fewer calories. All foods have a certain number of calories within a given amount (volume). Some foods - such as desserts, candies, fats and processed foods - are high in energy density. This means that a small volume of that food has a large number of calories. In contrast, other foods, such as fruits and vegetables, have lower energy density. These foods provide a larger portion size with a fewer number of calories. By eating larger portions of foods that have fewer calories, you reduce hunger pangs, take in fewer calories and feel better about your meal, which contributes to how satisfied you feel overall. - Making healthier choices. To make your overall diet healthier, eat more plant-based foods, such as fruits, vegetables and whole-grain carbohydrates. Also emphasize lean sources of protein - such as beans, lentils and soy - and lean meats. If you like fish, try to include fish twice a week. Limit salt and added sugar. Stick with low-fat dairy products. Eat small amounts of fats, and make sure they come from heart-healthy sources, such as olive, canola and nut oils. - Restricting certain foods. Certain diets limit the amount of a particular food group, such as high-carbohydrate or full-fat foods. Ask your doctor which diet plans have been found effective and which might be helpful for you. Drinking sugar-sweetened beverages is a sure way to consume more calories than you intended, and limiting these drinks or eliminating them altogether is a good place to start cutting calories. - Meal replacements. These plans suggest that you replace one or two meals with their products - such as low-calorie shakes or meal bars - and eat healthy snacks and a healthy, balanced third meal that's low in fat and calories. In the short term, this type of diet can help you lose weight. Keep in mind that these diets likely won't teach you how to change your overall lifestyle, though, so you may have to keep this up if you want to keep your weight off. Be wary of quick fixes. You may be tempted by fad diets that promise fast and easy weight loss. The reality, however, is that there are no magic foods or quick fixes. Fad diets may help in the short term, but the long-term results don't appear to be any better than other diets. Similarly, you may lose weight on a crash diet, but you're likely to regain it when you stop the diet. To lose weight - and keep it off - you have to adopt healthy-eating habits that you can maintain over time. Exercise and activity Increased physical activity or exercise is an essential part of obesity treatment. Most people who are able to maintain their weight loss for more than a year get regular exercise, even simply walking. To boost your activity level: - Exercise. People who are overweight or obese need to get at least 150 minutes a week of moderate-intensity physical activity to prevent further weight gain or to maintain the loss of a modest amount of weight. To achieve more-significant weight loss, you may need to exercise 300 minutes or more a week. You probably will need to gradually increase the amount you exercise as your endurance and fitness improve. - Keep moving. Even though regular aerobic exercise is the most efficient way to burn calories and shed excess weight, any extra movement helps burn calories. Making simple changes throughout your day can add up to big benefits. Park farther from store entrances, rev up your household chores, garden, get up and move around periodically, and wear a pedometer to track how many steps you actually take over the course of a day. Behavior changes A behavior modification program can help you make lifestyle changes and lose weight and keep it off. Steps to take include examining your current habits to find out what factors, stresses or situations may have contributed to your obesity. Everyone is different and has different obstacles to managing weight, such as a lack of time to exercise or late-night eating. Tailor your behavior changes to address your individual concerns. Behavior modification, sometimes called behavior therapy, can include: - Counseling. Therapy or interventions with trained mental health or other professionals can help you address emotional and behavioral issues related to eating. Therapy can help you understand why you overeat and learn healthy ways to cope with anxiety. You can also learn how to monitor your diet and activity, understand eating triggers, and cope with food cravings. Therapy can take place on both an individual and group basis. More-intensive programs - those that include 12 to 26 sessions a year - may be more helpful in achieving your weight-loss goals. - Support groups. You can find camaraderie and understanding in support groups where others share similar challenges with obesity. Check with your doctor, local hospitals or commercial weight-loss programs for support groups in your area, such as Weight Watchers. Prescription weight-loss medication Losing weight requires a healthy diet and regular exercise. But in certain situations, prescription weight-loss medication may help. Keep in mind, though, that weight-loss medication is meant to be used along with diet, exercise and behavior changes, not instead of them. If you don't make these other changes in your life, medication is unlikely to work. Your doctor may recommend weight-loss medication if other methods of weight loss haven't worked for you and you meet one of the following criteria: - Your body mass index (BMI) is 30 or greater - Your BMI is greater than 27, and you also have medical complications of obesity, such as diabetes, high blood pressure or sleep apnea Before selecting a medication for you, your doctor will consider your health history, as well as possible side effects. Some weight-loss medications can't be used by women who are pregnant, or people who take certain medications or have chronic health conditions. Commonly prescribed weight-loss medications include orlistat (Xenical), lorcaserin (Belviq), phentermine and topiramate (Qsymia), buproprion and naltrexone (Contrave), and liraglutide (Saxenda). You will need close medical monitoring while taking a prescription weight-loss medication. Also, keep in mind that a weight-loss medication may not work for everyone, and the effects may wane over time. When you stop taking a weight-loss medication, you may regain much or all of the weight you lost. Weight-loss surgery In some cases, weight-loss surgery, also called bariatric surgery, is an option. Weight-loss surgery limits the amount of food you're able to comfortably eat or decreases the absorption of food and calories or both. While weight-loss surgery offers the best chance of losing the most weight, it can pose serious risks. Weight-loss surgery for obesity may be considered if you have tried other methods to lose weight that haven't worked and: - You have extreme obesity (BMI of 40 or higher) - Your BMI is 35 to 39.9, and you also have a serious weight-related health problem, such as diabetes or high blood pressure - You're committed to making the lifestyle changes that are necessary for surgery to work It doesn't guarantee that you'll lose all of your excess weight or that you'll keep it off long term. Weight-loss success after surgery depends on your commitment to making lifelong changes in your eating and exercise habits. It doesn't guarantee that you'll lose all of your excess weight or that you'll keep it off long term. Weight-loss success after surgery depends on your commitment to making lifelong changes in your eating and exercise habits. Common weight-loss surgeries include: - Gastric bypass surgery. In gastric bypass (Roux-en-Y gastric bypass), the surgeon creates a small pouch at the top of your stomach. The small intestine is then cut a short distance below the main stomach and connected to the new pouch. Food and liquid flow directly from the pouch into this part of the intestine, bypassing most of your stomach. - Laparoscopic adjustable gastric banding (LAGB). In this procedure, your stomach is separated into two pouches with an inflatable band. Pulling the band tight, like a belt, the surgeon creates a tiny channel between the two pouches. The band keeps the opening from expanding and is generally designed to stay in place permanently. - Biliopancreatic diversion with duodenal switch. This procedure begins with the surgeon removing a large part of the stomach. The surgeon leaves the valve that releases food to the small intestine and the first part of the small intestine (duodenum). Then the surgeon closes off the middle section of the intestine and attaches the last part directly to the duodenum. The separated section of the intestine is reattached to the end of the intestine to allow bile and digestive juices to flow into this part of the intestine. - Gastric sleeve. In this procedure, part of the stomach is removed, creating a smaller reservoir for food. It's a less complicated surgery than gastric bypass or biliopancreatic diversion with duodenal switch. Other treatments Vagal nerve blockade is another treatment for obesity. It involves implanting a device under the skin of the abdomen that sends intermittent electrical pulses to the abdominal vagus nerve, which tells the brain when the stomach feels empty or full. This new technology received FDA approval in 2014 for use by adults who have not been able to lose weight with a weight-loss program and who have a BMI of 35 to 45 with at least one obesity-related condition, such as type 2 diabetes. Preventing weight regain after obesity treatment Unfortunately, it's common to regain weight no matter what obesity treatment methods you try. If you take weight-loss medications, you'll probably regain weight when you stop taking them. You might even regain weight after weight-loss surgery if you continue to overeat or overindulge in high-calorie foods. But that doesn't mean your weight-loss efforts are futile. One of the best ways to prevent regaining the weight you've lost is to get regular physical activity. Aim for 60 minutes a day. Keep track of your physical activity if it helps you stay motivated and on course. As you lose weight and gain better health, talk to your doctor about what additional activities you might be able to do and, if appropriate, how to give your activity and exercise a boost. You may always have to remain vigilant about your weight. Combining a healthier diet and more activity in a practical and sustainable manner are the best ways to keep the weight you lost off for the long term. Take your weight loss and weight maintenance one day at a time and surround yourself with supportive resources to help ensure your success. Find a healthier way of living that you can stick with for the long term.

help with obesity I would like help on my obesity problem and if I can get help

A healthy eating plan and regular physical activity may help you lose weight and keep it off over the long term. If these lifestyle changes are not enough, your doctor may prescribe medications. Some medications may help you feel less hungry or full sooner. Other medications may make it harder for your body to absorb fat from the foods you eat. Weight-loss medications are for people who may have health problems related to overweight or obesity. When combined with changes to behavior, including eating and physical activity habits, prescription medications may help some people lose weight.

Prescription Medications to Treat Overweight and Obesity: Health care providers use the Body Mass Index (BMI), which is a measure of your weight in relation to your height, to define overweight and obesity. People who have a BMI between 25 and 30 are considered overweight. Obesity is defined as having a BMI of 30 or greater. You can calculate your BMI to learn if you are overweight or obese. Being overweight or obese may increase the risk of health problems. Your health care provider can assess your individual risk due to your weight.Obesity is a chronic condition that affects more than one in three adults in the United States. Another one in three adults is overweight. If you are struggling with your weight, you may find that a healthy eating plan and regular physical activity help you lose weight and keep it off over the long term. If these lifestyle changes are not enough to help you lose weight or maintain your weight loss, your doctor may prescribe medications as part of your weight-control program. Prescription medications to treat overweight and obesity work in different ways. For example, some medications may help you feel less hungry or full sooner. Other medications may make it harder for your body to absorb fat from the foods you eat. Weight-loss medications are meant to help people who may have health problems related to overweight or obesity. Before prescribing a weight-loss medication, your doctor also will considerthe likely benefits of weight loss the medication’s possible side effects your current health issues and other medications your family's medical history costHealth care professionals often use BMI to help decide who might benefit from weight-loss medications. Your doctor may prescribe a medication to treat your overweight or obesity if you are an adult witha BMI of 30 or more or a BMI of 27 or more and you have weight-related health problems, such as high blood pressure or type 2 diabetes.Weight-loss medications aren’t for everyone with a high BMI. Some people who are overweight or obese may lose weight with a lifestyle program that helps them change their behaviors and improve their eating and physical activity habits. A lifestyle program may also address other factors that affect weight gain, such as eating triggers and not getting enough sleep. The U.S. Food and Drug Administration (FDA) has approved most weight-loss medications only for adults. The prescription medication orlistat (Xenical) is FDA-approved for children ages 12 and older. Medications don’t replace physical activity or healthy eating habits as a way to lose weight. Studies show that weight-loss medications work best when combined with a lifestyle program. Ask your doctor or other health care professional about lifestyle treatment programs for weight management that will work for you.Weight-loss medications don’t replace physical activity and healthy eating habits. When combined with changes to behavior, including eating and physical activity habits, prescription medications may help some people lose weight. On average, people who take prescription medications as part of a lifestyle program lose between 3 and 9 percent more of their starting body weight than people in a lifestyle program who do not take medication. Research shows that some people taking prescription weight-loss medications lose 10 percent or more of their starting weight.1 Results vary by medication and by person.Weight loss of 5 to 10 percent of your starting body weight may help improve your health by lowering blood sugar, blood pressure, and triglycerides. Losing weight also can improve some other health problems related to overweight and obesity, such as joint pain or sleep apnea. Most weight loss takes place within the first 6 months of starting the medication. Experts are concerned that, in some cases, the side effects of prescription medications to treat overweight and obesity may outweigh the benefits. For this reason, you should never take a weight-loss medication only to improve the way you look. In the past, some weight-loss medications were linked to serious health problems. For example, the FDA recalled fenfluramine and dexfenfluramine (part of the “fen-phen” combination) in 1997 because of concerns related to heart valve problems.Possible side effects vary by medication and how it acts on your body. Most side effects are mild and most often improve if you continue to take the medication. Rarely, serious side effects can occur.Tips for Taking Weight-loss MedicationFollow your doctor's instructions about weight-loss medications. Buy your medication from a pharmacy or web distributor approved by your doctor. Take weight-loss medication to support your healthy eating and physical activity program. Know the side effects and warnings for taking any medication. Ask your doctor if you should stop taking your medication if you are not losing weight after 12 weeks. Discuss other medications, including supplements and vitamins, you are taking with your doctor when considering weight-loss medications. Avoid taking weight-loss medications during pregnancy or if you are planning a pregnancy. Choosing a medication to treat overweight or obesity is a decision between you and your doctor. Important factors to consider includethe likely benefits of weight loss the medication’s possible side effects your current health issues and other medications your family’s medical history costTalk with your doctor about which weight-loss medication might be right for you. How long you will need to take weight-loss medication depends on whether the drug helps you lose and maintain weight and whether you have any side effects. If you have lost enough weight to improve your health and are not having serious side effects, your doctor may advise that you stay on the medication indefinitely. If you do not lose at least 5 percent of your starting weight after 12 weeks on the full dose of your medication, your doctor will probably advise you to stop taking it. He or she may change your treatment plan or consider using a different weight-loss medication. Your doctor also may have you try different lifestyle, physical activity, or eating programs; change your other medications that cause weight gain; or refer you to a bariatric surgeon to see if weight-loss surgery might be an option for you.Because obesity is a chronic condition, you may need to continue changes to your eating and physical activity habits and other behaviors for years—or even a lifetime—to improve your health and maintain a healthy weight. You will probably regain some weight after you stop taking weight-loss medication. Developing and maintaining healthy eating habits and increasing physical activity may help you regain less weight or keep it off. Federal physical activity guidelines recommend at least 150 minutes of physical activity per week for adults—that’s about 30 minutes a day most days of the week. You may need to do more to reach or maintain your weight-loss goal. Some, but not all, insurance plans cover medications that treat overweight and obesity. Contact your insurance provider to find out if your plan covers these medications. The table below lists FDA-approved prescription medications for weight loss. The FDA has approved five of these drugs—orlistat (Xenical, Alli), lorcaserin (Belviq), phentermine-topiramate (Qsymia), naltrexone-bupropion (Contrave), and liraglutide (Saxenda)—for long-term use. You can keep taking these drugs as long as you are benefiting from treatment and not having unpleasant side-effects.Some weight-loss medications that curb appetite are approved by the FDA only for short-term use, or up to 12 weeks. Although some doctors prescribe them for longer periods of time, not many research studies have looked at how safe and effective they are for long-term use.Pregnant women should never take weight-loss medications. Women who are planning to get pregnant also should avoid these medications, as some of them may harm a fetus.Prescription Medications Approved for Overweight and Obesity TreatmentWeight-loss medication Approved for How it works Common side effects Warnings Orlistat (Xenical) Available in lower dose without prescription (Alli) Adults and children ages 12 and older Works in your gut to reduce the amount of fat your body absorbs from the food you eat diarrhea gas leakage of oily stools stomach pain Rare cases of severe liver injury have been reported. Avoid taking with cyclosporine. Take a multivitamin pill daily to make sure you get enough of certain vitamins that your body may not absorb from the food you eat. Lorcaserin (Belviq) Adults Acts on the serotonin receptors in your brain. May help you feel full after eating smaller amounts of food. constipation cough dizziness dry mouth feeling tired headaches nausea Tell your doctor if you take antidepressants or migraine medications, since some of these can cause problems when taken together. Phentermine-topiramate (Qsymia) Adults A mix of two medications: phentermine, which lessens your appetite, and topiramate, which is used to treat seizures or migraine headaches. May make you less hungry or feel full sooner. constipation dizziness dry mouth taste changes, especially with carbonated beverages tingling of your hands and feet trouble sleeping Don’t use if you have glaucoma or hyperthyroidism. Tell your doctor if you have had a heart attack or stroke, abnormal heart rhythm, kidney disease, or mood problems. MAY LEAD TO BIRTH DEFECTS. DO NOT TAKE QSYMIA IF YOU ARE PREGNANT OR PLANNING A PREGNANCY. Do not take if you are breastfeeding. Naltrexone-bupropion (Contrave) Adults A mix of two medications: naltrexone, which is used to treat alcohol and drug dependence, and bupropion, which is used to treat depression or help people quit smoking. May make you feel less hungry or full sooner. constipation diarrhea dizziness dry mouth headache increased blood pressure increased heart rate insomnia liver damage nausea vomiting Do not use if you have uncontrolled high blood pressure, seizures or a history of anorexia or bulimia nervosa. Do not use if you are dependent on opioid pain medications or withdrawing from drugs or alcohol. Do not use if you are taking bupropion (Wellbutrin, Zyban). MAY INCREASE SUICIDAL THOUGHTS OR ACTIONS. Liraglutide (Saxenda) Available by injection only Adults May make you feel less hungry or full sooner. At a lower dose under a different name, Victoza, FDA-approved to treat type 2 diabetes. nausea diarrhea constipation abdominal pain headache raised pulse May increase the chance of developing pancreatitis. Has been found to cause a rare type of thyroid tumor in animals. Other medications that curb your desire to eat include phentermine benzphetamine diethylpropion phendimetrazine Adults Increase chemicals in your brain to make you feel you are not hungry or that you are full. Note: FDA-approved only for short-term use—up to 12 weeks dry mouth constipation difficulty sleeping dizziness feeling nervous feeling restless headache raised blood pressure raised pulse Do not use if you have heart disease, uncontrolled high blood pressure, hyperthyroidism, or glaucoma. Tell your doctor if you have severe anxiety or other mental health problems. Sometimes doctors use medications in a way that’s different from what the FDA has approved, known as “off-label” use. By choosing an off-label medication to treat overweight and obesity, your doctor may prescribea drug approved for treating a different medical problem two or more drugs at the same time a drug for a longer period of time than approved by the FDAYou should feel comfortable asking your doctor if he or she is prescribing a medication that is not approved just for treating overweight and obesity. Before using a medication, learn all you need to know about it. Researchers are currently studying several new medications and combinations of medications in animals and people. Researchers are working to identify safer and more effective medications to help people who are overweight or obese lose weight and maintain a healthy weight for a long time.Future drugs may use new strategies, such as tocombine drugs that affect appetite and those that affect addiction (or craving) stimulate gut hormones that reduce appetite shrink the blood vessels that feed fat cells in the body, thereby preventing them from growing target genes that affect body weight change bacteria in the gut to control weight [1] Yanovski SZ, Yanovski JA. JAMA. Long-term drug treatment for obesity: A systematic and clinical review. 2014; 311(1):74–86.

help with obesity I would like help on my obesity problem and if I can get help

Don't try to treat an ingrown nail at home and see your doctor right away, if you have diabetes, nerve problem in the leg or foot, poor blood circulation to your foot, or an infection around the nail To treat an ingrown nail at home, soak the foot in warm water 3 to 4 times a day. After soaking, keep the toe dry, gently massage over the inflamed skin, place a small piece of cotton or dental floss under the nail. Wet the cotton or floss with water or antiseptic. When trimming your toenails, briefly soak your foot in warm water to soften the nails, use a clean, sharp trimmer, trim toenails straight across the top. Do not taper or round the corners or trim too short.  Do not try to cut out the ingrown portion of the nail yourself. This will only make the problem worse. Consider wearing sandals until the problem goes away. Over-the-counter medicine that is applied to the ingrown toenail may help with the pain, but it does not treat the problem. If this doesn't work and the ingrown nail gets worse, see your family doctor, a foot specialist (podiatrist), or a skin specialist (dermatologist). If the ingrown nail doesn't heal or keeps coming back, your provider may remove part of the nail: This procedure is called a partial nail avulsion. If the toe is infected, your doctor may prescribe antibiotics. After the procedure, follow the instructions for helping your nail heal.

Ingrown toenail (Treatment): If you have diabetes, nerve problem in the leg or foot, poor blood circulation to your foot, or an infection around the nail, see a provider right away. Don't try to treat an ingrown nail at home. Otherwise, to treat an ingrown nail at home: - Soak the foot in warm water 3 to 4 times a day if possible. After soaking, keep the toe dry. - Gently massage over the inflamed skin. - Place a small piece of cotton or dental floss under the nail. Wet the cotton or floss with water or antiseptic. When trimming your toenails: - Briefly soak your foot in warm water to soften the nails. - Use a clean, sharp trimmer. - Trim toenails straight across the top. Do not taper or round the corners or trim too short.  - Do not try to cut out the ingrown portion of the nail yourself. This will only make the problem worse. Consider wearing sandals until the problem goes away. Over-the-counter medicine that is applied to the ingrown toenail may help with the pain, but it does not treat the problem. If this doesn't work and the ingrown nail gets worse, see your family doctor, a foot specialist (podiatrist), or a skin specialist (dermatologist). If the ingrown nail doesn't heal or keeps coming back, your provider may remove part of the nail: - Numbing medicine is first injected into the toe. - The ingrown part of the nail is removed. This procedure is called a partial nail avulsion. - It takes 2 to 4 months for the nail to regrow. If the toe is infected, your doctor may prescribe antibiotics. After the procedure, follow any instructions for helping your nail heal.

I have no help its about 4 years now I have ingrown toenail i have a problem of ingrown toenail its about 4 years now I have this problem i need help

Nephrotic syndrome is caused by different disorders that damage the kidneys., in adults, most commonly by glomerulonephritis. This damage leads to the release of too much protein in the urine. Other conditions that damage kidneys include cancer, diabetes, systemic lupus erythematosus, multiple myeloma, amyloidosis, immune disorders, and infections. Nephrotic syndrome can affect all age groups. In children, it is most common between ages 2 and 6. This disorder occurs slightly more often in males than females.

What causes Nephrotic syndrome?: Nephrotic syndrome is caused by different disorders that damage the kidneys. This damage leads to the release of too much protein in the urine. The most common cause in children is minimal change disease. Membranous glomerulonephritis is the most common cause in adults.In both diseases, the glomeruli in the kidneys are damaged. Glomeruli are the structures that help filter wastes and fluids. This condition can also occur from: - Cancer - Diseases such as diabetes, systemic lupus erythematosus, multiple myeloma, and amyloidosis - Genetic disorders - Immune disorders - Infections (such as strep throat, hepatitis, or mononucleosis) - Use of certain drugs It can occur with kidney disorders such as: - Focal and segmental glomerulosclerosis - Glomerulonephritis - Mesangiocapillary glomerulonephritis Nephrotic syndrome can affect all age groups. In children, it is most common between ages 2 and 6. This disorder occurs slightly more often in males than females.

What is Nephrotic Syndrome. What are its causes and cures?

Rheumatoid arthritis can occur at any age, but it most commonly begins between the ages of 40 and 60. Factors that may increase your risk of rheumatoid arthritis include sex, family history, smoking, environmental exposures, and obesity. Women are more likely than men to develop rheumatoid arthritis. If a member of your family has rheumatoid arthritis, you may have an increased risk of the disease. Cigarette smoking also increases your risk of developing rheumatoid arthritis, particularly if you have a genetic predisposition for developing the disease. Smoking also appears to be associated with greater disease severity. Although uncertain and poorly understood, some environmental exposures such as asbestos or silica may increase the risk for developing rheumatoid arthritis. People who are overweight or obese appear to be at somewhat higher risk of developing rheumatoid arthritis, especially in women diagnosed with the disease when they were 55 or younger.

Rheumatoid arthritis: Rheumatoid arthritis is a chronic inflammatory disorder that can affect more than just your joints. In some people, the condition also can damage a wide variety of body systems, including the skin, eyes, lungs, heart and blood vessels. An autoimmune disorder, rheumatoid arthritis occurs when your immune system mistakenly attacks your own body's tissues. Unlike the wear-and-tear damage of osteoarthritis, rheumatoid arthritis affects the lining of your joints, causing a painful swelling that can eventually result in bone erosion and joint deformity. The inflammation associated with rheumatoid arthritis is what can damage other parts of the body as well. While new types of medications have improved treatment options dramatically, severe rheumatoid arthritis can still cause physical disabilities. Signs and symptoms of rheumatoid arthritis may include: - Tender, warm, swollen joints - Joint stiffness that is usually worse in the mornings and after inactivity - Fatigue, fever and weight loss Early rheumatoid arthritis tends to affect your smaller joints first - particularly the joints that attach your fingers to your hands and your toes to your feet. As the disease progresses, symptoms often spread to the wrists, knees, ankles, elbows, hips and shoulders. In most cases, symptoms occur in the same joints on both sides of your body. About 40 percent of the people who have rheumatoid arthritis also experience signs and symptoms that don't involve the joints. Rheumatoid arthritis can affect many nonjoint structures, including: - Skin - Eyes - Lungs - Heart - Kidneys - Salivary glands - Nerve tissue - Bone marrow - Blood vessels Rheumatoid arthritis signs and symptoms may vary in severity and may even come and go. Periods of increased disease activity, called flares, alternate with periods of relative remission - when the swelling and pain fade or disappear. Over time, rheumatoid arthritis can cause joints to deform and shift out of place. Make an appointment with your doctor if you have persistent discomfort and swelling in your joints. Rheumatoid arthritis occurs when your immune system attacks the synovium - the lining of the membranes that surround your joints. The resulting inflammation thickens the synovium, which can eventually destroy the cartilage and bone within the joint. The tendons and ligaments that hold the joint together weaken and stretch. Gradually, the joint loses its shape and alignment. Doctors don't know what starts this process, although a genetic component appears likely. While your genes don't actually cause rheumatoid arthritis, they can make you more susceptible to environmental factors - such as infection with certain viruses and bacteria - that may trigger the disease. Factors that may increase your risk of rheumatoid arthritis include: - Your sex. Women are more likely than men to develop rheumatoid arthritis. - Age. Rheumatoid arthritis can occur at any age, but it most commonly begins between the ages of 40 and 60. - Family history. If a member of your family has rheumatoid arthritis, you may have an increased risk of the disease. - Smoking. Cigarette smoking increases your risk of developing rheumatoid arthritis, particularly if you have a genetic predisposition for developing the disease. Smoking also appears to be associated with greater disease severity. - Environmental exposures. Although uncertain and poorly understood, some exposures such as asbestos or silica may increase the risk for developing rheumatoid arthritis. Emergency workers exposed to dust from the collapse of the World Trade Center are at higher risk of autoimmune diseases such as rheumatoid arthritis. - Obesity. People who are overweight or obese appear to be at somewhat higher risk of developing rheumatoid arthritis, especially in women diagnosed with the disease when they were 55 or younger. Rheumatoid arthritis can be difficult to diagnose in its early stages because the early signs and symptoms mimic those of many other diseases. There is no one blood test or physical finding to confirm the diagnosis. During the physical exam, your doctor will check your joints for swelling, redness and warmth. He or she may also check your reflexes and muscle strength. Blood tests People with rheumatoid arthritis often have an elevated erythrocyte sedimentation rate (ESR, or sed rate) or C-reactive protein (CRP), which may indicate the presence of an inflammatory process in the body. Other common blood tests look for rheumatoid factor and anti-cyclic citrullinated peptide (anti-CCP) antibodies. Imaging tests Your doctor may recommend X-rays to help track the progression of rheumatoid arthritis in your joints over time. MRI and ultrasound tests can help your doctor judge the severity of the disease in your body. There is no cure for rheumatoid arthritis. But recent discoveries indicate that remission of symptoms is more likely when treatment begins early with strong medications known as disease-modifying antirheumatic drugs (DMARDs). Medications The types of medications recommended by your doctor will depend on the severity of your symptoms and how long you've had rheumatoid arthritis. - NSAIDs. Nonsteroidal anti-inflammatory drugs (NSAIDs) can relieve pain and reduce inflammation. Over-the-counter NSAIDs include ibuprofen (Advil, Motrin IB) and naproxen sodium (Aleve). Stronger NSAIDs are available by prescription. Side effects may include ringing in your ears, stomach irritation, heart problems, and liver and kidney damage. - Steroids. Corticosteroid medications, such as prednisone, reduce inflammation and pain and slow joint damage. Side effects may include thinning of bones, weight gain and diabetes. Doctors often prescribe a corticosteroid to relieve acute symptoms, with the goal of gradually tapering off the medication. - Disease-modifying antirheumatic drugs (DMARDs). These drugs can slow the progression of rheumatoid arthritis and save the joints and other tissues from permanent damage. Common DMARDs include methotrexate (Trexall, Otrexup, Rasuvo), leflunomide (Arava), hydroxychloroquine (Plaquenil) and sulfasalazine (Azulfidine). Side effects vary but may include liver damage, bone marrow suppression and severe lung infections. - Biologic agents. Also known as biologic response modifiers, this newer class of DMARDs includes abatacept (Orencia), adalimumab (Humira), anakinra (Kineret), certolizumab (Cimzia), etanercept (Enbrel), golimumab (Simponi), infliximab (Remicade), rituximab (Rituxan), tocilizumab (Actemra) and tofacitinib (Xeljanz). These drugs can target parts of the immune system that trigger inflammation that causes joint and tissue damage. These types of drugs also increase the risk of infections. Biologic DMARDs are usually most effective when paired with a nonbiologic DMARD, such as methotrexate. Therapy Your doctor may send you to a physical or occupational therapist who can teach you exercises to help keep your joints flexible. The therapist may also suggest new ways to do daily tasks, which will be easier on your joints. For example, if your fingers are sore, you may want to pick up an object using your forearms. Assistive devices can make it easier to avoid stressing your painful joints. For instance, a kitchen knife equipped with a saw handle helps protect your finger and wrist joints. Certain tools, such as buttonhooks, can make it easier to get dressed. Catalogs and medical supply stores are good places to look for ideas. Surgery If medications fail to prevent or slow joint damage, you and your doctor may consider surgery to repair damaged joints. Surgery may help restore your ability to use your joint. It can also reduce pain and correct deformities. Rheumatoid arthritis surgery may involve one or more of the following procedures: - Synovectomy. Surgery to remove the inflamed synovium (lining of the joint). Synovectomy can be performed on knees, elbows, wrists, fingers and hips. - Tendon repair. Inflammation and joint damage may cause tendons around your joint to loosen or rupture. Your surgeon may be able to repair the tendons around your joint. - Joint fusion. Surgically fusing a joint may be recommended to stabilize or realign a joint and for pain relief when a joint replacement isn't an option. - Total joint replacement. During joint replacement surgery, your surgeon removes the damaged parts of your joint and inserts a prosthesis made of metal and plastic. Surgery carries a risk of bleeding, infection and pain. Discuss the benefits and risks with your doctor. You can take steps to care for your body if you have rheumatoid arthritis. These self-care measures, when used along with your rheumatoid arthritis medications, can help you manage your signs and symptoms: - Exercise regularly. Gentle exercise can help strengthen the muscles around your joints, and it can help fight fatigue you might feel. Check with your doctor before you start exercising. If you're just getting started, begin by taking a walk. Try swimming or gentle water aerobics. Avoid exercising tender, injured or severely inflamed joints. - Apply heat or cold. Heat can help ease your pain and relax tense, painful muscles. Cold may dull the sensation of pain. Cold also has a numbing effect and decreases muscle spasms. - Relax. Find ways to cope with pain by reducing stress in your life. Techniques such as guided imagery, distraction and muscle relaxation can all be used to control pain. Some common complementary and alternative treatments that have shown promise for rheumatoid arthritis include: - Fish oil. Some preliminary studies have found that fish oil supplements may reduce rheumatoid arthritis pain and stiffness. Side effects can include nausea, belching and a fishy taste in the mouth. Fish oil can interfere with medications, so check with your doctor first. - Plant oils. The seeds of evening primrose, borage and black currant contain a type of fatty acid that may help with rheumatoid arthritis pain and morning stiffness. Side effects may include nausea, diarrhea and gas. Some plant oils can cause liver damage or interfere with medications, so check with your doctor first. - Tai chi. This movement therapy involves gentle exercises and stretches combined with deep breathing. Many people use tai chi to relieve stress in their lives. Small studies have found that tai chi may reduce rheumatoid arthritis pain. When led by a knowledgeable instructor, tai chi is safe. But don't do any moves that cause pain.

Are there any researches indicating how early an individual may experience any signs or symptoms of Rheumatoid Arthritis?

The cause of PCOS is unknown, but probably involves a combination of genetic and environmental factors

Polycystic ovarian syndrome (Summary): Polycystic ovarian syndrome (PCOS) is a health problem that can affect a woman's menstrual cycle, ability to have children, hormones , heart, blood vessels, and appearance. Women with this condition typically have high levels of  hormones called androgens, missed or irregular periods, and many small cysts in their ovaries. The cause of PCOS is unknown, but probably involves a combination of genetic and environmental factors . Treatment for PCOS may involve birth control pills and medications for diabetes and infertility. Medicines called anti-androgens are also used to speed the growth of hair and clear acne. [1] [2]

Polycystic ovarian syndrome Is it possible for parents to pass this on in the genes to their children - is there any other way this can be acquired?

The risk of preeclampsia is higher for very young pregnant women as well as pregnant women older than 40. The risk of developing preeclampsia is highest during the first pregnancy. Risk factors for preeclampsia include a personal or family history of preeclampsia, chronic hypertension, pregnancy with a new partner, obesity, and in vitro fertilization. Preeclampsia is more common in women who are carrying twins, triplets or other multiples. Having babies less than two years or more than 10 years apart leads to a higher risk of preeclampsia. In addition to chronic high blood pressure, other conditions, such as migraines, type 1 or type 2 diabetes, kidney disease, a tendency to develop blood clots, lupus increase risk of preeclampsia.

Preeclampsia (Risk factors): Preeclampsia develops only as a complication of pregnancy. Risk factors include: - History of preeclampsia. A personal or family history of preeclampsia significantly raises your risk of preeclampsia. - Chronic hypertension. If you already have chronic hypertension, you have a higher risk of developing preeclampsia. - First pregnancy. The risk of developing preeclampsia is highest during your first pregnancy. - New paternity. Each pregnancy with a new partner increases the risk of preeclampsia more than does a second or third pregnancy with the same partner. - Age. The risk of preeclampsia is higher for very young pregnant women as well as pregnant women older than 40. - Obesity. The risk of preeclampsia is higher if you're obese. - Multiple pregnancy. Preeclampsia is more common in women who are carrying twins, triplets or other multiples. - Interval between pregnancies. Having babies less than two years or more than 10 years apart leads to a higher risk of preeclampsia. - History of certain conditions. Having certain conditions before you become pregnant - such as chronic high blood pressure, migraines, type 1 or type 2 diabetes, kidney disease, a tendency to develop blood clots, or lupus - increases your risk of preeclampsia. - In vitro fertilization. Your risk of preeclampsia is increased if your baby was conceived with in vitro fertilization.

prevention of preeclampsia I know that the jury is out on the exact causes of preeclampsia, but I am looking for some of the ways that the chances of acquiring it can be minimized.

Although preeclampsia occurs primarily in first pregnancies, a woman who had preeclampsia in a previous pregnancy is seven times more likely to develop preeclampsia in a later pregnancy. Other factors that can increase a woman's risk include chronic high blood pressure or kidney disease before pregnancy, obesity, age over 40, being pregnant with more than one fetus, African American ethnicity, family history of preeclampsia. Preeclampsia is also more common among women who have histories of certain health conditions, such as migraines, diabetes, rheumatoid arthritis, lupus, scleroderma, urinary tract infections, gum disease, polycystic ovary syndrome, multiple sclerosis, gestational diabetes, and sickle cell disease. Preeclampsia is also more common in pregnancies resulting from egg donation, donor insemination, or in vitro fertilization. If you are at very high risk of preeclampsia, your doctor may recommend that you start taking low-dose aspirin after at least 12 weeks of pregnancy. Visit your health care provider for a preconception visit to discuss what you can do to lower your risk. Your health care provider may recommend ways to control your blood pressure, if needed, by limiting your salt intake, exercising regularly, and losing weight if you are overweight. If you take medication to control your blood pressure, ask your health care provider if you should change it. Some medications should not be used during pregnancy. Get regular prenatal care, including regular blood pressure checks, urine tests for protein, as well as regular weight checks. Avoid alcohol and tobacco. Talk with your health care provider about any drugs or supplements that you take or are thinking of taking, including vitamins and herbs. Follow your provider's recommendations about prescription and other medications.

Preeclampsia and Eclampsia: Preeclampsia (pree-i-KLAMP-see-uh) and eclampsia (ih-KLAMP-see-uh) are pregnancy-related high blood pressure disorders. In preeclampsia, the mother’s high blood pressure reduces the blood supply to the fetus, which may get less oxygen and fewer nutrients. Eclampsia is when pregnant women with preeclampsia develop seizures or coma. NICHD and other agencies are working to understand what causes these conditions and how they can be prevented and better treated. Preeclampsia and eclampsia are part of the spectrum of high blood pressure, or hypertensive, disorders that can occur during pregnancy.At the mild end of the spectrum is gestational hypertension, which occurs when a woman who previously had normal blood pressure develops high blood pressure when she is more than 20 weeks pregnant and her blood pressure returns to normal within 12 weeks after delivery. This problem usually occurs without other symptoms. In many cases, gestational hypertension does not harm the mother or fetus. Severe gestational hypertension, however, may be associated with preterm birth and infants who are small for their age at birth.1 And about 15% to 25% of women with gestational hypertension go on to develop preeclampsia.2Preeclampsia is similar to gestational hypertension, because it also describes high blood pressure at or after 20 weeks of pregnancy in a woman whose blood pressure was normal before pregnancy. But preeclampsia can also include blood pressure at or greater than 140/90 mmHg, increased swelling, and protein in the urine.3 The condition can be serious and is a leading cause of preterm birth (before 37 weeks of pregnancy).4 If it is severe enough to affect brain function, causing seizures or coma, it is called eclampsia.One of the serious complications of hypertensive disorders in pregnancy is HELLP syndrome, a situation in which a pregnant woman with preeclampsia or eclampsia suffers damage to the liver and blood cells. The letters in the name HELLP stand for the following problems:- H - Hemolysis, in which oxygen-carrying red blood cells break down - EL - Elevated Liver enzymes, showing damage to the liver - LP - Low Platelet count, meaning that the cells responsible for stopping bleeding are low The causes of preeclampsia and eclampsia are not known. These disorders previously were believed to be caused by a toxin, called “toxemia,” in the blood, but health care providers now know that is not true. Nevertheless, preeclampsia is sometimes still referred to as “toxemia.”To learn more about preeclampsia and eclampsia, scientists are investigating many factors that could contribute to the development and progression of these diseases, including:- Placental abnormalities, such as insufficient blood flow - Genetic factors - Environmental exposures - Nutritional factors - Maternal immunology and autoimmune disorders - Cardiovascular and inflammatory changes - Hormonal imbalances - Risks During Pregnancy Preeclampsia during pregnancy is mild in 75% of cases.1 However, a woman can progress from mild to severe preeclampsia or to full eclampsia very quickly―even in a matter of days. Both preeclampsia and eclampsia can cause serious health problems for the mother and infant. Women with preeclampsia are at increased risk for damage to the kidneys, liver, brain, and other organ and blood systems. Preeclampsia may also affect the placenta. The condition could lead to a separation of the placenta from the uterus (referred to as placental abruption), preterm birth, and pregnancy loss or stillbirth. In some cases, preeclampsia can lead to organ failure or stroke. In severe cases, preeclampsia can develop into eclampsia, which includes seizures. Seizures in eclampsia may cause a woman to lose consciousness and twitch uncontrollably.2 If the fetus is not delivered, these conditions can cause the death of the mother and/or the fetus. Expecting mothers rarely die from preeclampsia in the developed world, but it is still a major cause of illness and death globally.3 According to the World Health Organization, preeclampsia and eclampsia cause 14% of maternal deaths each year, or about 50,000 to 75,000 women worldwide.4 - Risks After Pregnancy In “uncomplicated preeclampsia,” the mother’s high blood pressure and other symptoms usually go back to normal within 6 weeks of the infant’s birth. However, studies have shown that women who had preeclampsia are four times more likely to later develop hypertension (high blood pressure) and are twice as likely to later develop ischemic heart disease (reduced blood supply to the heart muscle, which can cause heart attacks), a blood clot in a vein, and stroke as are women who did not have preeclampsia.5 Less commonly, mothers who had preeclampsia could experience permanent damage to their organs, such as their kidneys and liver. They could also experience fluid in the lungs. In the days following birth, women with preeclampsia remain at increased risk for developing eclampsia and seizures.3,6 Preeclampsia may be related to problems with the placenta early in the pregnancy.1 Such problems pose risks to the fetus, including:- Lack of oxygen and nutrients, which can impair fetal growth - Preterm birth - Stillbirth if placental abruption (separation of the placenta from the uterine wall) leads to heavy bleeding in the mother - Death: According to the Preeclampsia Foundation , each year, about 10,500 infants in the United States and about half a million worldwide die due to preeclampsia.2 Stillbirths are more likely to occur when the mother has a more severe form of preeclampsia, including HELLP syndrome.Infants whose mothers had preeclampsia are also at increased risk for later problems, even if they were born at full term (39 weeks of pregnancy).3 Infants born preterm due to preeclampsia face a higher risk of some long-term health issues, mostly related to being born early, including learning disorders, cerebral palsy, epilepsy, deafness, and blindness. Infants born preterm may also have to be hospitalized for a long time after birth and may be smaller than infants born full term. Infants who experienced poor growth in the uterus may later be at higher risk of diabetes, congestive heart failure, and high blood pressure.4 The exact number of women who develop preeclampsia is not known. Some estimates suggest that preeclampsia affects 2% to 8% of all pregnancies globally and about 3.4% in the United States.1,2The condition is estimated to account for 10% to 15% of maternal deaths worldwide.1 Disorders related to high blood pressure are the second leading cause of stillbirths and early neonatal deaths in developing nations.3In addition, HELLP syndrome occurs in about 10% to 20% of all women with severe preeclampsia or eclampsia.4Although preeclampsia occurs primarily in first pregnancies, a woman who had preeclampsia in a previous pregnancy is seven times more likely to develop preeclampsia in a later pregnancy.5Other factors that can increase a woman's risk include:5- Chronic high blood pressure or kidney disease before pregnancy - High blood pressure or preeclampsia in an earlier pregnancy - Obesity. Overweight or obese women are also more likely to have preeclampsia in more than one pregnancy.6 - Age. Women older than 40 are at higher risk. - Multiple gestation (being pregnant with more than one fetus) - African American ethnicity. Also, among women who have had preeclampsia before, non-white women are more likely than white women to develop preeclampsia again in a later pregnancy.6 - Family history of preeclampsia. According to the World Health Organization, among women who have had preeclampsia, about 20% to 40% of their daughters and 11% to 37% of their sisters also will get the disorder.7Preeclampsia is also more common among women who have histories of certain health conditions, such as migraines,8 diabetes,9 rheumatoid arthritis,10 lupus,11 scleroderma,12 urinary tract infections,13 gum disease,14 polycystic ovary syndrome,15 multiple sclerosis, gestational diabetes, and sickle cell disease.16Preeclampsia is also more common in pregnancies resulting from egg donation, donor insemination, or in vitro fertilization.The U.S. Preventative Services Task Force recommends that women who are at high risk for preeclampsia take low-dose aspirin starting after 12 weeks of pregnancy to prevent preeclampsia.17 Women who are pregnant or who are thinking about getting pregnant should talk with their health care provider about preeclampsia risk and ways to reduce the risk. - Preeclampsia Possible symptoms of preeclampsia include: - High blood pressure - Too much protein in the urine - Swelling in a woman's face and hands (a woman's feet might swell too, but swollen feet are common during pregnancy and may not signal a problem) - Systemic problems, such as headache, blurred vision, and right upper quadrant abdominal pain - High blood pressure - Too much protein in the urine - Swelling in a woman's face and hands (a woman's feet might swell too, but swollen feet are common during pregnancy and may not signal a problem) - Systemic problems, such as headache, blurred vision, and right upper quadrant abdominal pain - Eclampsia The following symptoms are cause for immediate concern:1 - Seizures - Severe headache - Vision problems, such as temporary blindness - Abdominal pain, especially in the upper right area of the belly - Nausea and vomiting - Smaller urine output or not urinating very often - Seizures - Severe headache - Vision problems, such as temporary blindness - Abdominal pain, especially in the upper right area of the belly - Nausea and vomiting - Smaller urine output or not urinating very often - HELLP Syndrome HELLP syndrome can lead to serious complications, including liver failure and death.1 A pregnant woman with HELLP syndrome might bleed or bruise easily and/or experience abdominal pain, nausea or vomiting, headache, or extreme fatigue. Although most women who develop HELLP syndrome already have high blood pressure and preeclampsia, sometimes the syndrome is the first sign. In addition, HELLP syndrome can occur without a woman having either high blood pressure or protein in her urine. A health care provider will check a pregnant woman’s blood pressure and urine during each prenatal visit. If the blood pressure reading is considered high (140/90 or higher), especially after the 20th week of pregnancy, the health care provider will likely perform blood tests and more extensive lab tests to look for extra protein in the urine (called proteinuria) as well as other symptoms.The American College of Obstetricians and Gynecologists provides the following criteria for a diagnosis of gestational hypertension, preeclampsia, eclampsia, and HELLP syndrome.Gestational hypertension is diagnosed if a pregnant woman has high blood pressure but no protein in the urine. Gestational hypertension occurs when women whose blood pressure levels were normal before pregnancy develop high blood pressure after 20 weeks of pregnancy. Gestational hypertension can progress into preeclampsia.1Mild preeclampsia is diagnosed when a pregnant woman has:2- Systolic blood pressure (top number) of 140 mmHg or higher or diastolic blood pressure (bottom number) of 90 mmHg or higher and either - Urine with 0.3 or more grams of protein in a 24-hour specimen (a collection of every drop of urine within 24 hours) or a protein-to-creatinine ratio greater than 0.3  or - Blood tests that show kidney or liver dysfunction - Fluid in the lungs and difficulty breathing - Visual impairmentsSevere preeclampsia occurs when a pregnant woman has any of the following:- Systolic blood pressure of 160 mmHg or higher or diastolic blood pressure of 110 mmHg or higher on two occasions at least 4 hours apart while the patient is on bed rest - Urine with 5 or more grams of protein in a 24-hour specimen or 3 or more grams of protein on 2 random urine samples collected at least 4 hours apart - Test results suggesting kidney or liver damage—for example, blood tests that reveal low numbers of platelets or high liver enzymes - Severe, unexplained stomach pain that does not respond to medication - Symptoms that include visual disturbances, difficulty breathing, or fluid buildup3Eclampsia occurs when women with preeclampsia develop seizures. The seizures can happen before or during labor or after the baby is delivered. HELLP syndrome is diagnosed when laboratory tests show hemolysis (burst red blood cells release hemoglobin into the blood plasma), elevated liver enzymes, and low platelets. There also may or may not be extra protein in the urine.4Some women may also be diagnosed with superimposed preeclampsia—a situation in which the woman develops preeclampsia on top of high blood pressure that was present before she got pregnant. Health care providers look for an increase in blood pressure and either protein in the urine, fluid buildup, or both for a diagnosis of superimposed preeclampsia.In addition to tests that might diagnose preeclampsia or similar problems, health care providers may do other tests to assess the health of the mother and fetus, including:- Blood tests to see how well the mother's liver and kidneys are working - Blood tests to check blood platelet levels to see how well the mother’s blood is clotting - Blood tests to count the total number of red blood cells in the mother’s blood - A maternal weight check - An ultrasound to assess the fetus’s size - A check of the fetus's heart rate - A physical exam to look for swelling in the mother’s face, hands, or legs as well as abdominal tenderness or an enlarged liver - Preeclampsia Treatment If the pregnancy is at 37 weeks or later, the health care provider will usually want to deliver the fetus to treat preeclampsia and avoid further complications. If the pregnancy is at less than 37 weeks, however, the woman and her health care provider may consider treatment options that give the fetus more time to develop, depending on how severe the condition is. A health care provider may consider the following options: - If the preeclampsia is mild, it may be possible to wait to deliver. To help prevent further complications, the health care provider may ask the woman to go on bed rest to try to lower blood pressure and increase the blood flow to the placenta. - Close monitoring of the woman and her fetus will be needed. Tests for the mother might include blood and urine tests to see if the preeclampsia is progressing, such as tests to assess platelet counts, liver enzymes, kidney function, and urinary protein levels. Tests for the fetus might include ultrasound, heart rate monitoring, assessment of fetal growth, and amniotic fluid assessment. - Anticonvulsive medication, such as magnesium sulfate, might be used to prevent a seizure. - In some cases, such as with severe preeclampsia, the woman will be admitted to the hospital so she can be monitored closely and continuously. Treatment in the hospital might include intravenous medication to control blood pressure and prevent seizures or other complications as well as steroid injections to help speed up the development of the fetus's lungs. When a woman has severe preeclampsia and is at 34 weeks of pregnancy or later, the American College of Obstetricians and Gynecologists recommends delivery as soon as medically possible. If the pregnancy is at less than 34 weeks, health care providers will probably prescribe corticosteroids to help speed up the maturation of the fetal lungs before attempting delivery.2 Preterm delivery may be necessary, even if that means likely complications for the infant, because of the risk of severe maternal complications. The symptoms of preeclampsia usually go away within 6 weeks of delivery.3 - If the preeclampsia is mild, it may be possible to wait to deliver. To help prevent further complications, the health care provider may ask the woman to go on bed rest to try to lower blood pressure and increase the blood flow to the placenta. - Close monitoring of the woman and her fetus will be needed. Tests for the mother might include blood and urine tests to see if the preeclampsia is progressing, such as tests to assess platelet counts, liver enzymes, kidney function, and urinary protein levels. Tests for the fetus might include ultrasound, heart rate monitoring, assessment of fetal growth, and amniotic fluid assessment. - Anticonvulsive medication, such as magnesium sulfate, might be used to prevent a seizure. - In some cases, such as with severe preeclampsia, the woman will be admitted to the hospital so she can be monitored closely and continuously. Treatment in the hospital might include intravenous medication to control blood pressure and prevent seizures or other complications as well as steroid injections to help speed up the development of the fetus's lungs. - Eclampsia Treatment Eclampsia—the onset of seizures in a woman with preeclampsia—is considered a medical emergency. Immediate treatment, usually in a hospital, is needed to stop the mother's seizures, treat blood pressure levels that are too high, and deliver the fetus. Magnesium sulfate (a type of mineral) may be given to treat active seizures and prevent future seizures. Antihypertensive medications may be given to lower the blood pressure. - HELLP Syndrome Treatment HELLP syndrome, a severe complication of preeclampsia and eclampsia, can lead to serious complications for the mother, including liver failure and death, as well as the fetus. The health care provider may consider the following treatments after a diagnosis of HELLP syndrome: - Delivery of the fetus - Hospitalization to provide intravenous medication to control blood pressure and prevent seizures or other complications as well as steroid injections to help speed up the development of the fetus's lungs.4 - Delivery of the fetus - Hospitalization to provide intravenous medication to control blood pressure and prevent seizures or other complications as well as steroid injections to help speed up the development of the fetus's lungs.4 - If I have high blood pressure, can I take steps to prevent problems like preeclampsia during pregnancy? If you currently have chronic hypertension (high blood pressure not due to pregnancy), you may be at higher-than-average risk for getting preeclampsia during pregnancy. Your risk is also higher if you had gestational hypertension (high blood pressure that occurs only during pregnancy) or preeclampsia with a previous pregnancy, if you are obese, or if you have other risk factors.1 Talk with your health care provider about how hypertension might affect your pregnancy and what you can do to lower your risk. Before You Get Pregnant - Visit your health care provider for a preconception visit to discuss what you can do to lower your risk. Your health care provider may recommend ways to control your blood pressure, if needed, by limiting your salt intake, exercising regularly, and losing weight if you are overweight. - If you take medication to control your blood pressure, ask your health care provider if you should change it. Some medications should not be used during pregnancy. Your health care provider may be able to recommend safer alternatives. While You Are Pregnant - Get regular prenatal care, including regular blood pressure checks, urine tests for protein, as well as regular weight checks. - Avoid alcohol and tobacco. - Talk with your health care provider about any drugs or supplements that you take or are thinking of taking, including vitamins and herbs. Follow your provider's recommendations about prescription and other medications. - If you are at very high risk of preeclampsia, your doctor may recommend that you start taking low-dose aspirin after at least 12 weeks of pregnancy.2 [top] - Visit your health care provider for a preconception visit to discuss what you can do to lower your risk. Your health care provider may recommend ways to control your blood pressure, if needed, by limiting your salt intake, exercising regularly, and losing weight if you are overweight. - If you take medication to control your blood pressure, ask your health care provider if you should change it. Some medications should not be used during pregnancy. Your health care provider may be able to recommend safer alternatives. - Get regular prenatal care, including regular blood pressure checks, urine tests for protein, as well as regular weight checks. - Avoid alcohol and tobacco. - Talk with your health care provider about any drugs or supplements that you take or are thinking of taking, including vitamins and herbs. Follow your provider's recommendations about prescription and other medications. - If you are at very high risk of preeclampsia, your doctor may recommend that you start taking low-dose aspirin after at least 12 weeks of pregnancy.2 - If I had preeclampsia with a previous pregnancy, will I have it again in later pregnancies? If you had preeclampsia during your first pregnancy, your risk of developing preeclampsia again is about 15%.3 Your risk is even higher if you delivered your first child before 28 weeks of pregnancy or if you are overweight or obese.3 Your risk of having preeclampsia again is also higher if you developed preeclampsia early in your previous pregnancy, if you developed chronic hypertension or diabetes after the first pregnancy, if you had in vitro fertilization, or if you are carrying more than one fetus. Having severe preeclampsia or HELLP syndrome during the first pregnancy also raises your risk. If you had HELLP syndrome during a pregnancy, you have about a 20% chance of getting some form of gestational hypertension again.4 [top]

prevention of preeclampsia I know that the jury is out on the exact causes of preeclampsia, but I am looking for some of the ways that the chances of acquiring it can be minimized.

The risk of preeclampsia is higher for very young pregnant women as well as pregnant women older than 40. The risk of developing preeclampsia is highest during the first pregnancy. Risk factors for preeclampsia include a personal or family history of preeclampsia, chronic hypertension, pregnancy with a new partner, obesity, and in vitro fertilization. Preeclampsia is more common in women who are carrying twins, triplets or other multiples. Having babies less than two years or more than 10 years apart leads to a higher risk of preeclampsia. In addition to chronic high blood pressure, other conditions, such as migraines, type 1 or type 2 diabetes, kidney disease, a tendency to develop blood clots, lupus increase risk of preeclampsia.

Preeclampsia: Preeclampsia is a pregnancy complication characterized by high blood pressure and signs of damage to another organ system, most often the liver and kidneys. Preeclampsia usually begins after 20 weeks of pregnancy in women whose blood pressure had been normal. Even a slight rise in blood pressure may be a sign of preeclampsia. Left untreated, preeclampsia can lead to serious - even fatal - complications for both you and your baby. If you have preeclampsia, the only cure is delivery of your baby. If you're diagnosed with preeclampsia too early in your pregnancy to deliver your baby, you and your doctor face a challenging task. Your baby needs more time to mature, but you need to avoid putting yourself or your baby at risk of serious complications. Preeclampsia sometimes develops without any symptoms. High blood pressure may develop slowly, or it may have a sudden onset. Monitoring your blood pressure is an important part of prenatal care because the first sign of preeclampsia is commonly a rise in blood pressure. Blood pressure that exceeds 140/90 millimeters of mercury (mm Hg) or greater - documented on two occasions, at least four hours apart - is abnormal. Other signs and symptoms of preeclampsia may include: - Excess protein in your urine (proteinuria) or additional signs of kidney problems - Severe headaches - Changes in vision, including temporary loss of vision, blurred vision or light sensitivity - Upper abdominal pain, usually under your ribs on the right side - Nausea or vomiting - Decreased urine output - Decreased levels of platelets in your blood (thrombocytopenia) - Impaired liver function - Shortness of breath, caused by fluid in your lungs Sudden weight gain and swelling (edema) - particularly in your face and hands - may occur with preeclampsia. But these also occur in many normal pregnancies, so they're not considered reliable signs of preeclampsia. Make sure you attend your prenatal visits so that your care provider can monitor your blood pressure. Contact your doctor immediately or go to an emergency room if you have severe headaches, blurred vision or other visual disturbance, severe pain in your abdomen, or severe shortness of breath. Because headaches, nausea, and aches and pains are common pregnancy complaints, it's difficult to know when new symptoms are simply part of being pregnant and when they may indicate a serious problem - especially if it's your first pregnancy. If you're concerned about your symptoms, contact your doctor. The exact cause of preeclampsia involves several factors. Experts believe it begins in the placenta - the organ that nourishes the fetus throughout pregnancy. Early in pregnancy, new blood vessels develop and evolve to efficiently send blood to the placenta. In women with preeclampsia, these blood vessels don't seem to develop or function properly. They're narrower than normal blood vessels and react differently to hormonal signaling, which limits the amount of blood that can flow through them. Causes of this abnormal development may include: - Insufficient blood flow to the uterus - Damage to the blood vessels - A problem with the immune system - Certain genes Preeclampsia is classified as one of four high blood pressure disorders that can occur during pregnancy. The other three are: - Gestational hypertension. Women with gestational hypertension have high blood pressure but no excess protein in their urine or other signs of organ damage. Some women with gestational hypertension eventually develop preeclampsia. - Chronic hypertension. Chronic hypertension is high blood pressure that was present before pregnancy or that occurs before 20 weeks of pregnancy. But because high blood pressure usually doesn't have symptoms, it may be hard to determine when it began. - Chronic hypertension with superimposed preeclampsia. This condition occurs in women who have been diagnosed with chronic high blood pressure before pregnancy, but then develop worsening high blood pressure and protein in the urine or other health complications during pregnancy. Preeclampsia develops only as a complication of pregnancy. Risk factors include: - History of preeclampsia. A personal or family history of preeclampsia significantly raises your risk of preeclampsia. - Chronic hypertension. If you already have chronic hypertension, you have a higher risk of developing preeclampsia. - First pregnancy. The risk of developing preeclampsia is highest during your first pregnancy. - New paternity. Each pregnancy with a new partner increases the risk of preeclampsia more than does a second or third pregnancy with the same partner. - Age. The risk of preeclampsia is higher for very young pregnant women as well as pregnant women older than 40. - Obesity. The risk of preeclampsia is higher if you're obese. - Multiple pregnancy. Preeclampsia is more common in women who are carrying twins, triplets or other multiples. - Interval between pregnancies. Having babies less than two years or more than 10 years apart leads to a higher risk of preeclampsia. - History of certain conditions. Having certain conditions before you become pregnant - such as chronic high blood pressure, migraines, type 1 or type 2 diabetes, kidney disease, a tendency to develop blood clots, or lupus - increases your risk of preeclampsia. - In vitro fertilization. Your risk of preeclampsia is increased if your baby was conceived with in vitro fertilization. The more severe your preeclampsia and the earlier it occurs in your pregnancy, the greater the risks for you and your baby. Preeclampsia may require induced labor and delivery. Delivery by cesarean delivery (C-section) may be necessary if there are clinical or obstetric conditions that require a speedy delivery. Your obstetric provider will assist you in deciding what type of delivery is correct for your condition. Complications of preeclampsia may include: - Fetal growth restriction. Preeclampsia affects the arteries carrying blood to the placenta. If the placenta doesn't get enough blood, your baby may receive inadequate blood and oxygen and fewer nutrients. This can lead to slow growth known as fetal growth restriction, low birth weight or preterm birth. - Preterm birth. If you have preeclampsia with severe features, you may need to be delivered early, to save the life of you and your baby. Prematurity can lead to breathing and other problems for your baby. Your health care provider will help you understand when is the ideal time for your delivery. - Placental abruption. Preeclampsia increases your risk of placental abruption, a condition in which the placenta separates from the inner wall of your uterus before delivery. Severe abruption can cause heavy bleeding, which can be life-threatening for both you and your baby. - HELLP syndrome. HELLP - which stands for hemolysis (the destruction of red blood cells), elevated liver enzymes and low platelet count - syndrome is a more severe form of preeclampsia, and can rapidly become life-threatening for both you and your baby. Symptoms of HELLP syndrome include nausea and vomiting, headache, and upper right abdominal pain. HELLP syndrome is particularly dangerous because it represents damage to several organ systems. On occasion, it may develop suddenly, even before high blood pressure is detected or it may develop without any symptoms at all. - Eclampsia. When preeclampsia isn't controlled, eclampsia - which is essentially preeclampsia plus seizures - can develop. It is very difficult to predict which patients will have preeclampsia that is severe enough to result in eclampsia. Often, there are no symptoms or warning signs to predict eclampsia. Because eclampsia can have serious consequences for both mom and baby, delivery becomes necessary, regardless of how far along the pregnancy is. - Other organ damage. Preeclampsia may result in kidney, liver, lung, heart, or eyes, and may cause a stroke or other brain injury. The amount of injury to other organs depends on the severity of preeclampsia. - Cardiovascular disease. Having preeclampsia may increase your risk of future heart and blood vessel (cardiovascular) disease. The risk is even greater if you've had preeclampsia more than once or you've had a preterm delivery. To minimize this risk, after delivery try to maintain your ideal weight, eat a variety of fruits and vegetables, exercise regularly, and don't smoke. To diagnose preeclampsia, you have to have high blood pressure and one or more of the following complications after the 20th week of pregnancy: - Protein in your urine (proteinuria) - A low platelet count - Impaired liver function - Signs of kidney trouble other than protein in the urine - Fluid in the lungs (pulmonary edema) - New-onset headaches or visual disturbances Previously, preeclampsia was only diagnosed if high blood pressure and protein in the urine were present. However, experts now know that it's possible to have preeclampsia, yet never have protein in the urine. A blood pressure reading in excess of 140/90 mm Hg is abnormal in pregnancy. However, a single high blood pressure reading doesn't mean you have preeclampsia. If you have one reading in the abnormal range - or a reading that's substantially higher than your usual blood pressure - your doctor will closely observe your numbers. Having a second abnormal blood pressure reading four hours after the first may confirm your doctor's suspicion of preeclampsia. Your doctor may have you come in for additional blood pressure readings and blood and urine tests. Tests that may be needed If your doctor suspects preeclampsia, you may need certain tests, including: - Blood tests. Your doctor will order liver function tests, kidney function tests and also measure your platelets - the cells that help blood clot. - Urine analysis. Your doctor will ask you to collect your urine for 24 hours, for measurement of the amount of protein in your urine. A single urine sample that measures the ratio of protein to creatinine - a chemical that's always present in the urine - also may be used to make the diagnosis. - Fetal ultrasound. Your doctor may also recommend close monitoring of your baby's growth, typically through ultrasound. The images of your baby created during the ultrasound exam allow your doctor to estimate fetal weight and the amount of fluid in the uterus (amniotic fluid). - Nonstress test or biophysical profile. A nonstress test is a simple procedure that checks how your baby's heart rate reacts when your baby moves. A biophysical profile uses an ultrasound to measure your baby's breathing, muscle tone, movement and the volume of amniotic fluid in your uterus. The only cure for preeclampsia is delivery. You're at increased risk of seizures, placental abruption, stroke and possibly severe bleeding until your blood pressure decreases. Of course, if it's too early in your pregnancy, delivery may not be the best thing for your baby. If you're diagnosed with preeclampsia, your doctor will let you know how often you'll need to come in for prenatal visits - likely more frequently than what's typically recommended for pregnancy. You'll also need more frequent blood tests, ultrasounds and nonstress tests than would be expected in an uncomplicated pregnancy. Medications Possible treatment for preeclampsia may include: - Medications to lower blood pressure. These medications, called antihypertensives, are used to lower your blood pressure if it's dangerously high. Blood pressure in the 140/90 millimeters of mercury (mm Hg) range generally isn't treated. Although there are many different types of antihypertensive medications, a number of them aren't safe to use during pregnancy. Discuss with your doctor whether you need to use an antihypertensive medicine in your situation to control your blood pressure. - Corticosteroids. If you have severe preeclampsia or HELLP syndrome, corticosteroid medications can temporarily improve liver and platelet function to help prolong your pregnancy. Corticosteroids can also help your baby's lungs become more mature in as little as 48 hours - an important step in preparing a premature baby for life outside the womb. - Anticonvulsant medications. If your preeclampsia is severe, your doctor may prescribe an anticonvulsant medication, such as magnesium sulfate, to prevent a first seizure. Bed rest Bed rest used to be routinely recommended for women with preeclampsia. But research hasn't shown a benefit from this practice, and it can increase your risk of blood clots, as well as impact your economic and social lives. For most women, bed rest is no longer recommended. Hospitalization Severe preeclampsia may require that you be hospitalized. In the hospital, your doctor may perform regular nonstress tests or biophysical profiles to monitor your baby's well-being and measure the volume of amniotic fluid. A lack of amniotic fluid is a sign of poor blood supply to the baby. Delivery If you're diagnosed with preeclampsia near the end of your pregnancy, your doctor may recommend inducing labor right away. The readiness of your cervix - whether it's beginning to open (dilate), thin (efface) and soften (ripen) - also may be a factor in determining whether or when labor will be induced. In severe cases, it may not be possible to consider your baby's gestational age or the readiness of your cervix. If it's not possible to wait, your doctor may induce labor or schedule a C-section right away. During delivery, you may be given magnesium sulfate intravenously to prevent seizures. If you need pain-relieving medication after your delivery, ask your doctor what you should take. NSAIDs, such as ibuprofen (Advil, Motrin IB, others) and naproxen sodium (Aleve), can increase your blood pressure.

prevention of preeclampsia I know that the jury is out on the exact causes of preeclampsia, but I am looking for some of the ways that the chances of acquiring it can be minimized.

Although preeclampsia occurs primarily in first pregnancies, a woman who had preeclampsia in a previous pregnancy is seven times more likely to develop preeclampsia in a later pregnancy. Other factors that can increase a woman's risk include chronic high blood pressure or kidney disease before pregnancy, obesity, age over 40, being pregnant with more than one fetus, African American ethnicity, family history of preeclampsia.The U.S. Preventative Services Task Force recommends that women who are at high risk for preeclampsia take low-dose aspirin starting after 12 weeks of pregnancy to prevent preeclampsia. Women who are pregnant or who are thinking about getting pregnant should talk with their health care provider about preeclampsia risk and ways to reduce the risk.

Preeclampsia and Eclampsia (How many women are affected by or at risk of preeclampsia?): The exact number of women who develop preeclampsia is not known. Some estimates suggest that preeclampsia affects 2% to 8% of all pregnancies globally and about 3.4% in the United States.1,2The condition is estimated to account for 10% to 15% of maternal deaths worldwide.1 Disorders related to high blood pressure are the second leading cause of stillbirths and early neonatal deaths in developing nations.3In addition, HELLP syndrome occurs in about 10% to 20% of all women with severe preeclampsia or eclampsia.4Although preeclampsia occurs primarily in first pregnancies, a woman who had preeclampsia in a previous pregnancy is seven times more likely to develop preeclampsia in a later pregnancy.5Other factors that can increase a woman's risk include:5- Chronic high blood pressure or kidney disease before pregnancy - High blood pressure or preeclampsia in an earlier pregnancy - Obesity. Overweight or obese women are also more likely to have preeclampsia in more than one pregnancy.6 - Age. Women older than 40 are at higher risk. - Multiple gestation (being pregnant with more than one fetus) - African American ethnicity. Also, among women who have had preeclampsia before, non-white women are more likely than white women to develop preeclampsia again in a later pregnancy.6 - Family history of preeclampsia. According to the World Health Organization, among women who have had preeclampsia, about 20% to 40% of their daughters and 11% to 37% of their sisters also will get the disorder.7Preeclampsia is also more common among women who have histories of certain health conditions, such as migraines,8 diabetes,9 rheumatoid arthritis,10 lupus,11 scleroderma,12 urinary tract infections,13 gum disease,14 polycystic ovary syndrome,15 multiple sclerosis, gestational diabetes, and sickle cell disease.16Preeclampsia is also more common in pregnancies resulting from egg donation, donor insemination, or in vitro fertilization.The U.S. Preventative Services Task Force recommends that women who are at high risk for preeclampsia take low-dose aspirin starting after 12 weeks of pregnancy to prevent preeclampsia.17 Women who are pregnant or who are thinking about getting pregnant should talk with their health care provider about preeclampsia risk and ways to reduce the risk.

prevention of preeclampsia I know that the jury is out on the exact causes of preeclampsia, but I am looking for some of the ways that the chances of acquiring it can be minimized.

Your doctor may recommend creams, ultraviolet light therapy, prescription medications, shots, or some combination of these treatments. You will need to find the treatment that helps you. Joining a support group helps some people with psoriasis cope with the disease. Your doctor may recommend that you try one of these treatments or a combination of them: putting creams on your skin. ultraviolet light, which should be controlled by your doctor, and getting more sunlight. You can take an active role in treating your psoriasis. Besides going to your doctor regularly, you can keeping your skin well moisturized and stay healthy overall.

Psoriasis: - Psoriasis is an autoimmune disease that causes red, scaly skin. - It is caused by genes, meaning it runs in families, but some outside factors can make it worse or trigger flares. - Psoriasis can be hard to diagnose because it can look like other skin diseases. - Your doctor may recommend creams, ultraviolet light therapy, prescription medications, shots, or some combination of these treatments. - You may have to try a couple of different treatments before finding one that helps you. - Joining a support group helps some people with psoriasis cope with the disease. Psoriasis is a skin disease that causes red, scaly skin that may feel painful, swollen or hot. If you have psoriasis, you are more likely to get some other conditions, including: - Psoriatic arthritis, a condition that causes joint pain and swelling. - Cardiovascular problems, which affect the heart and blood circulation system. - Obesity. - High blood pressure. - Diabetes. Some treatments for psoriasis can have serious side effects, so be sure to talk about them with your doctor and keep all your appointments. - Psoriasis is an autoimmune disease that causes red, scaly skin. - It is caused by genes, meaning it runs in families, but some outside factors can make it worse or trigger flares. - Psoriasis can be hard to diagnose because it can look like other skin diseases. - Your doctor may recommend creams, ultraviolet light therapy, prescription medications, shots, or some combination of these treatments. - You may have to try a couple of different treatments before finding one that helps you. - Joining a support group helps some people with psoriasis cope with the disease. - Psoriasis is an autoimmune disease that causes red, scaly skin. - It is caused by genes, meaning it runs in families, but some outside factors can make it worse or trigger flares. - Psoriasis can be hard to diagnose because it can look like other skin diseases. - Your doctor may recommend creams, ultraviolet light therapy, prescription medications, shots, or some combination of these treatments. - You may have to try a couple of different treatments before finding one that helps you. - Joining a support group helps some people with psoriasis cope with the disease. Psoriasis is a skin disease that causes red, scaly skin that may feel painful, swollen or hot. If you have psoriasis, you are more likely to get some other conditions, including: - Psoriatic arthritis, a condition that causes joint pain and swelling. - Cardiovascular problems, which affect the heart and blood circulation system. - Obesity. - High blood pressure. - Diabetes. Some treatments for psoriasis can have serious side effects, so be sure to talk about them with your doctor and keep all your appointments. Anyone can get psoriasis, but it is more common in adults. Certain genes have been linked to psoriasis, so you are more likely to get it if someone else in your family has it. Anyone can get psoriasis, but it is more common in adults. Certain genes have been linked to psoriasis, so you are more likely to get it if someone else in your family has it. There are several different types of psoriasis. Here are a few examples: - Plaque psoriasis, which causes patches of skin that are red at the base and covered by silvery scales. - Guttate psoriasis, which causes small, drop-shaped lesions on your trunk, limbs, and scalp. This type of psoriasis is most often triggered by upper respiratory infections, such as strep throat. - Pustular psoriasis, which causes pus-filled blisters. Attacks or flares can be caused by medications, infections, stress, or certain chemicals. - Inverse psoriasis, which causes smooth, red patches in folds of skin near the genitals, under the breasts or in the armpits. Rubbing and sweating can make this type of psoriasis worse. - Erythrodermic psoriasis, which causes red and scaly skin over much of your body. This can be a reaction to a bad sunburn or taking certain medications, such as corticosteroids. It can also happen if you have a different type of psoriasis that is not well controlled. This type of psoriasis can be very serious, so if you have it, you should see a doctor immediately. There are several different types of psoriasis. Here are a few examples: - Plaque psoriasis, which causes patches of skin that are red at the base and covered by silvery scales. - Guttate psoriasis, which causes small, drop-shaped lesions on your trunk, limbs, and scalp. This type of psoriasis is most often triggered by upper respiratory infections, such as strep throat. - Pustular psoriasis, which causes pus-filled blisters. Attacks or flares can be caused by medications, infections, stress, or certain chemicals. - Inverse psoriasis, which causes smooth, red patches in folds of skin near the genitals, under the breasts or in the armpits. Rubbing and sweating can make this type of psoriasis worse. - Erythrodermic psoriasis, which causes red and scaly skin over much of your body. This can be a reaction to a bad sunburn or taking certain medications, such as corticosteroids. It can also happen if you have a different type of psoriasis that is not well controlled. This type of psoriasis can be very serious, so if you have it, you should see a doctor immediately. Psoriasis is an autoimmune disease, which means that your body’s immune system – which protects you from diseases – starts overacting and causing problems. If you have psoriasis, a type of white blood cells called the T cells become so active that they trigger other immune system responses, including swelling and fast turnover of skin cells. Your skin cells grow deep in the skin and rise slowly to the surface. This is called cell turnover, and it usually takes about a month. If you have psoriasis, though, cell turnover can take only a few days. Your skin cells rise too fast and pile up on the surface, causing your skin to look red and scaly. Some things may cause a flare, meaning your psoriasis becomes worse for a while, including: - Infections. - Stress. - Changes in the weather that dry out your skin. - Certain medicines. - Cuts, scratches or sunburns. Certain genes have been linked to psoriasis, meaning it runs in families. Psoriasis is an autoimmune disease, which means that your body’s immune system – which protects you from diseases – starts overacting and causing problems. If you have psoriasis, a type of white blood cells called the T cells become so active that they trigger other immune system responses, including swelling and fast turnover of skin cells. Your skin cells grow deep in the skin and rise slowly to the surface. This is called cell turnover, and it usually takes about a month. If you have psoriasis, though, cell turnover can take only a few days. Your skin cells rise too fast and pile up on the surface, causing your skin to look red and scaly. Some things may cause a flare, meaning your psoriasis becomes worse for a while, including: - Infections. - Stress. - Changes in the weather that dry out your skin. - Certain medicines. - Cuts, scratches or sunburns. Certain genes have been linked to psoriasis, meaning it runs in families. Psoriasis is an autoimmune disease, which means that your body’s immune system – which protects you from diseases – starts overacting and causing problems. If you have psoriasis, a type of white blood cells called the T cells become so active that they trigger other immune system responses, including swelling and fast turnover of skin cells. Your skin cells grow deep in the skin and rise slowly to the surface. This is called cell turnover, and it usually takes about a month. If you have psoriasis, though, cell turnover can take only a few days. Your skin cells rise too fast and pile up on the surface, causing your skin to look red and scaly. Some things may cause a flare, meaning your psoriasis becomes worse for a while, including: - Infections. - Stress. - Changes in the weather that dry out your skin. - Certain medicines. - Cuts, scratches or sunburns. Certain genes have been linked to psoriasis, meaning it runs in families. Psoriasis can be hard to diagnose because it can look like other skin diseases. Your doctor may look at a small sample of your skin under a microscope to help them figure out if psoriasis is causing your skin condition. Psoriasis can be hard to diagnose because it can look like other skin diseases. Your doctor may look at a small sample of your skin under a microscope to help them figure out if psoriasis is causing your skin condition. Psoriasis can be hard to diagnose because it can look like other skin diseases. Your doctor may look at a small sample of your skin under a microscope to help them figure out if psoriasis is causing your skin condition. There are several different types of treatment for psoriasis. Your doctor may recommend that you try one of these or a combination of them: - Topical treatment, which means putting creams on your skin. - Light therapy, which involves a doctor shining an ultraviolet light on your skin or getting more sunlight. It’s important that a doctor controls the amount of light you are getting from this therapy, because too much ultraviolet light may make your psoriasis worse. - Systemic treatment, which can include taking prescription medicines or getting shots of medicine. There are several different types of treatment for psoriasis. Your doctor may recommend that you try one of these or a combination of them: - Topical treatment, which means putting creams on your skin. - Light therapy, which involves a doctor shining an ultraviolet light on your skin or getting more sunlight. It’s important that a doctor controls the amount of light you are getting from this therapy, because too much ultraviolet light may make your psoriasis worse. - Systemic treatment, which can include taking prescription medicines or getting shots of medicine. There are several different types of treatment for psoriasis. Your doctor may recommend that you try one of these or a combination of them: - Topical treatment, which means putting creams on your skin. - Light therapy, which involves a doctor shining an ultraviolet light on your skin or getting more sunlight. It’s important that a doctor controls the amount of light you are getting from this therapy, because too much ultraviolet light may make your psoriasis worse. - Systemic treatment, which can include taking prescription medicines or getting shots of medicine. Several types of health care professionals may treat you, including: - Dermatologists, who treat skin problems. - Internists, who diagnose and treat adults. Several types of health care professionals may treat you, including: - Dermatologists, who treat skin problems. - Internists, who diagnose and treat adults. Several types of health care professionals may treat you, including: - Dermatologists, who treat skin problems. - Internists, who diagnose and treat adults. Psoriasis is a chronic disease, which  means it lasts a long time. You can take an active role in treating your psoriasis. Besides going to your doctor regularly, here are some things you can try to help manage your symptoms: - Keeping your skin well moisturized. - Staying healthy overall. - Joining support groups or counseling to help you realize you are not alone in dealing with psoriasis and to share ideas for coping with the disease. Psoriasis is a chronic disease, which  means it lasts a long time. You can take an active role in treating your psoriasis. Besides going to your doctor regularly, here are some things you can try to help manage your symptoms: - Keeping your skin well moisturized. - Staying healthy overall. - Joining support groups or counseling to help you realize you are not alone in dealing with psoriasis and to share ideas for coping with the disease.

Psoriasis for past 7-8 years I had psoriasis on my scalp for nearly 10 years. Please give suggestions and medications.

There is no cure for multiple sclerosis. Treatment typically focuses on speeding recovery from attacks, slowing the progression of the disease and managing MS symptoms. For primary-progressive MS, ocrelizumab (Ocrevus) is the only FDA-approved disease-modifying therapy. It slows worsening of disability in people with this type of MS. For relapsing-remitting MS, several disease-modifying therapies are available.

Multiple sclerosis: Multiple sclerosis (MS) is a potentially disabling disease of the brain and spinal cord (central nervous system). In MS, the immune system attacks the protective sheath (myelin) that covers nerve fibers and causes communication problems between your brain and the rest of your body. Eventually, the disease can cause the nerves themselves to deteriorate or become permanently damaged. Signs and symptoms of MS vary widely and depend on the amount of nerve damage and which nerves are affected. Some people with severe MS may lose the ability to walk independently or at all, while others may experience long periods of remission without any new symptoms. There's no cure for multiple sclerosis. However, treatments can help speed recovery from attacks, modify the course of the disease and manage symptoms. Find out why Mayo Clinic is the best place for your care. Multiple sclerosis signs and symptoms may differ greatly from person to person and over the course of the disease depending on the location of affected nerve fibers. They may include: - Numbness or weakness in one or more limbs that typically occurs on one side of your body at a time, or the legs and trunk - Partial or complete loss of vision, usually in one eye at a time, often with pain during eye movement - Prolonged double vision - Tingling or pain in parts of your body - Electric-shock sensations that occur with certain neck movements, especially bending the neck forward (Lhermitte sign) - Tremor, lack of coordination or unsteady gait - Slurred speech - Fatigue - Dizziness - Problems with bowel and bladder function When to see a doctor See a doctor if you experience any of the above symptoms for unknown reasons. Disease course Most people with MS have a relapsing-remitting disease course. They experience periods of new symptoms or relapses that develop over days or weeks and usually improve partially or completely. These relapses are followed by quiet periods of disease remission that can last months or even years. Small increases in body temperature can temporarily worsen signs and symptoms of MS, but these aren't considered disease relapses. About 60 to 70 percent of people with relapsing-remitting MS eventually develop a steady progression of symptoms, with or without periods of remission, known as secondary-progressive MS. The worsening of symptoms usually includes problems with mobility and gait. The rate of disease progression varies greatly among people with secondary-progressive MS. Some people with MS experience a gradual onset and steady progression of signs and symptoms without any relapses. This is known as primary-progressive MS. The cause of multiple sclerosis is unknown. It's considered an autoimmune disease in which the body's immune system attacks its own tissues. In the case of MS, this immune system malfunction destroys myelin (the fatty substance that coats and protects nerve fibers in the brain and spinal cord). Myelin can be compared to the insulation coating on electrical wires. When the protective myelin is damaged and nerve fiber is exposed, the messages that travel along that nerve may be slowed or blocked. The nerve may also become damaged itself. It isn't clear why MS develops in some people and not others. A combination of genetics and environmental factors appears to be responsible. These factors may increase your risk of developing multiple sclerosis: - Age. MS can occur at any age, but most commonly affects people between the ages of 15 and 60. - Sex. Women are about twice as likely as men are to develop MS. - Family history. If one of your parents or siblings has had MS, you are at higher risk of developing the disease. - Certain infections. A variety of viruses have been linked to MS, including Epstein-Barr, the virus that causes infectious mononucleosis. - Race. White people, particularly those of Northern European descent, are at highest risk of developing MS. People of Asian, African or Native American descent have the lowest risk. - Climate. MS is far more common in countries with temperate climates, including Canada, the northern United States, New Zealand, southeastern Australia and Europe. - Certain autoimmune diseases. You have a slightly higher risk of developing MS if you have thyroid disease, type 1 diabetes or inflammatory bowel disease. - Smoking. Smokers who experience an initial event of symptoms that may signal MS are more likely than nonsmokers to develop a second event that confirms relapsing-remitting MS. There are no specific tests for MS. Instead, a diagnosis of multiple sclerosis often relies on ruling out other conditions that might produce similar signs and symptoms, known as a differential diagnosis. Your doctor is likely to start with a thorough medical history and examination. Your doctor may then recommend: - Blood tests, to help rule out other diseases with symptoms similar to MS. Tests to check for specific biomarkers associated with MS are currently under development and may also aid in diagnosing the disease. - Lumbar puncture (spinal tap), in which a small sample of fluid is removed from your spinal canal for laboratory analysis. This sample can show abnormalities in antibodies that are associated with MS. Spinal tap can also help rule out infections and other conditions with symptoms similar to MS. - MRI, which can reveal areas of MS (lesions) on your brain and spinal cord. You may receive an intravenous injection of a contrast material to highlight lesions that indicate your disease is in an active phase. - Evoked potential tests, which record the electrical signals produced by your nervous system in response to stimuli. An evoked potential test may use visual stimuli or electrical stimuli, in which you watch a moving visual pattern, or short electrical impulses are applied to nerves in your legs or arms. Electrodes measure how quickly the information travels down your nerve pathways. In most people with relapsing-remitting MS, the diagnosis is fairly straightforward and based on a pattern of symptoms consistent with the disease and confirmed by brain imaging scans, such as MRI. Diagnosing MS can be more difficult in persons with unusual symptoms or progressive disease. In these cases, further testing with spinal fluid analysis, evoked potentials and additional imaging may be needed. There is no cure for multiple sclerosis. Treatment typically focuses on speeding recovery from attacks, slowing the progression of the disease and managing MS symptoms. Some people have such mild symptoms that no treatment is necessary. Treatments for MS attacks - Corticosteroids, such as oral prednisone and intravenous methylprednisolone, are prescribed to reduce nerve inflammation. Side effects may include insomnia, increased blood pressure, mood swings and fluid retention. - Plasma exchange (plasmapheresis). The liquid portion of part of your blood (plasma) is removed and separated from your blood cells. The blood cells are then mixed with a protein solution (albumin) and put back into your body. Plasma exchange may be used if your symptoms are new, severe and haven't responded to steroids. Treatments to modify progression For primary-progressive MS, ocrelizumab (Ocrevus) is the only FDA-approved disease-modifying therapy. It slows worsening of disability in people with this type of MS. For relapsing-remitting MS, several disease-modifying therapies are available. Much of the immune response associated with MS occurs in the early stages of the disease. Aggressive treatment with these medications as early as possible can lower the relapse rate and slow the formation of new lesions. Many of the disease-modifying therapies used to treat MS carry significant health risks. Selecting the right therapy for you will depend on careful consideration of many factors, including duration and severity of disease, effectiveness of previous MS treatments, other health issues, cost, and child-bearing status. Treatment options for relapsing-remitting MS include: - Beta interferons. These medications are among the most commonly prescribed medications to treat MS. They are injected under the skin or into muscle and can reduce the frequency and severity of relapses. Side effects of beta interferons may include flu-like symptoms and injection-site reactions. You'll need blood tests to monitor your liver enzymes because liver damage is a possible side effect of interferon use. People taking interferons may develop neutralizing antibodies that can reduce drug effectiveness. - Ocrelizumab (Ocrevus). This humanized immunoglobulin antibody medication is the only DMT approved by the FDA to treat both the relapse-remitting and primary progressive forms of MS. Clinical trials showed it reduced relapse rate in relapsing disease and slowed worsening of disability in both forms of the disease. Ocrevus is given via an intravenous infusion by a medical professional. Side effects may infusion-related reactions including irritation at the injection site, low blood pressure, fever, and nausea among others. Ocrevus may also increase the risk of some types of cancer, particularly breast cancer. - Glatiramer acetate (Copaxone). This medication may help block your immune system's attack on myelin and must be injected beneath the skin. Side effects may include skin irritation at the injection site. - Dimethyl fumarate (Tecfidera). This twice-daily oral medication can reduce relapses. Side effects may include flushing, diarrhea, nausea and lowered white blood cell count. - Fingolimod (Gilenya). This once-daily oral medication reduces relapse rate. You'll need to have your heart rate monitored for six hours after the first dose because your heartbeat may be slowed. Other side effects include headache, high blood pressure and blurred vision. - Teriflunomide (Aubagio). This once-daily medication can reduce relapse rate. Teriflunomide can cause liver damage, hair loss and other side effects. It is harmful to a developing fetus and should not be used by women who may become pregnant and are not using appropriate contraception, or their male partner. - Natalizumab (Tysabri). This medication is designed to block the movement of potentially damaging immune cells from your bloodstream to your brain and spinal cord. It may be considered a first line treatment for some people with severe MS or as a second line treatment in others. This medication increases the risk of a viral infection of the brain called progressive multifocal leukoencephalopathy in some people. - Alemtuzumab (Lemtrada). This drug helps reduce relapses of MS by targeting a protein on the surface of immune cells and depleting white blood cells. This effect can limit potential nerve damage caused by the white blood cells, but it also increases the risk of infections and autoimmune disorders. Treatment with alemtuzumab involves five consecutive days of drug infusions followed by another three days of infusions a year later. Infusion reactions are common with alemtuzumab. The drug is only available from registered providers, and people treated with the drug must be registered in a special drug safety monitoring program. - Mitoxantrone. This immunosuppressant drug can be harmful to the heart and is associated with development of blood cancers. As a result, its use in treating MS is extremely limited. Mitoxantrone is usually used only to treat severe, advanced MS. Treatments for MS signs and symptoms - Physical therapy. A physical or occupational therapist can teach you stretching and strengthening exercises and show you how to use devices to make it easier to perform daily tasks. Physical therapy along with the use of a mobility aid when necessary can also help manage leg weakness and other gait problems often associated with MS. - Muscle relaxants. You may experience painful or uncontrollable muscle stiffness or spasms, particularly in your legs. Muscle relaxants such as baclofen (Lioresal) and tizanidine (Zanaflex) may help. - Medications to reduce fatigue. - Other medications. Medications also may be prescribed for depression, pain, sexual dysfunction, and bladder or bowel control problems that are associated with MS. To help relieve the signs and symptoms of MS, try to: - Get plenty of rest. - Exercise. If you have mild to moderate MS, regular exercise can help improve your strength, muscle tone, balance and coordination. Swimming or other water exercises are good options if you're bothered by heat. Other types of mild to moderate exercise recommended for people with MS include walking, stretching, low-impact aerobics, stationary bicycling, yoga and tai chi. - Cool down. MS symptoms often worsen when your body temperature rises. Avoiding exposure to heat and using devices such as cooling scarves or vests can be helpful. - Eat a balanced diet. Results of small studies suggest that a diet low in saturated fat but high in omega-3 fatty acids, such as those found in olive and fish oils, may be beneficial. But further research is needed. Studies also suggest that vitamin D may have potential benefit for people with MS. - Relieve stress. Stress may trigger or worsen your signs and symptoms. Yoga, tai chi, massage, meditation or deep breathing may help. Many people with MS use a variety of alternative or complementary treatments or both to help manage their symptoms, such as fatigue and muscle pain. Activities such as exercise, meditation, yoga, massage, eating a healthier diet, acupuncture and relaxation techniques may help boost overall mental and physical well-being, but there are few studies to back up their use in managing symptoms of MS. Guidelines from the American Academy of Neurology recommend the use of oral cannabis extract for muscle spasticity and pain, but do not recommend cannabis in any other form for other MS symptoms due to a lack of evidence. The guidelines also do not recommend the use of herbal supplements such as Ginkgo biloba and bee venom or magnetic therapy for MS symptoms.

Research assignment Hi, I am a grade 12 student who is doing a research assignment on neurological disorders. Do you believe that there will ever be a bonafide cure for Multiple Sclerosis? If so, what kind of time frame would put on this cure?

Spina bifida treatment depends on the severity of the condition. Spina bifida occulta often doesn't require treatment at all, but other types of spina bifida do. Discuss with your doctor surgery before or after birth. Prenatal surgery for spina bifida (fetal surgery) takes place before the 26th week of pregnancy. Children with spina bifida who had fetal surgery may have reduced disability, reduced risk of hydrocephalus, and be less likely to need crutches or other walking devices. Early surgery after birth can help minimize risk of infection that's associated with the exposed nerves and may also help protect the spinal cord from more trauma. During the procedure, a neurosurgeon places the spinal cord and exposed tissue inside the baby's body and covers them with muscle and skin. Sometimes a shunt to control hydrocephalus in the baby's brain is placed during the operation on the spinal cord. Treatments for complications may include exercises to prepare the child’s legs for walking with braces or crutches when they're older. Some children may need walkers or a wheelchair. Mobility aids, along with regular physical therapy, can help a child become independent. Bowel management may include oral medications, suppositories, enemas, surgery, or a combination of these approaches. Bladder management may include medications, using catheters to empty the bladder, surgery, or a combination. To help with functioning, special equipment such as bath chairs, commode chairs and standing frames may be needed. Whatever the issue - orthopedic complications, tethered spinal cord, GI issues, skin problems, or others - most spina bifida complications can be treated or at least managed to improve quality of life. Children with spina bifida need close follow-up care and observation. Their primary care doctors follow growth, the need for immunizations and general medical issues. They coordinate your child's medical care. Children with spina bifida also often need treatment and ongoing care from physical medicine and rehabilitation, neurology, neurosurgery, urology, orthopedics, physical and occupational therapy, special education teachers, social workers, and dietitians. Parents and other caregivers are a key part of the team, learning how to help manage their child's condition and how to encourage and support their child emotionally and socially. Keep in mind that children with spina bifida can go on to college, hold jobs and have families. Special accommodations may be necessary along the way, but encourage your child to be as independent as possible.

Spina bifida: Spina bifida is a birth defect that occurs when the spine and spinal cord don't form properly. It falls under the broader category of neural tube defects. The neural tube is the embryonic structure that eventually develops into the baby's brain and spinal cord and the tissues that enclose them. Normally, the neural tube forms early in pregnancy, and it closes by the 28th day after conception. In babies with spina bifida, a portion of the neural tube fails to develop or close properly, causing defects in the spinal cord and in the bones of the spine. Spina bifida can range from mild to severe, depending on the type of defect, size, location and complications. When early treatment for spina bifida is necessary, it's done surgically, although such treatment doesn't always completely resolve the problem. Types Spina bifida can occur in different forms: spina bifida occulta, meningocele (muh-NING-go-seel) or myelomeningocele (my-uh-lo-muh-NING-go-seel). The severity of spina bifida depends on the type, size, location and complications. "Occulta" means hidden. The mildest form, spina bifida occulta results in a small separation or gap in one or more of the bones of the spine (vertebrae). Many people who have spina bifida occulta don't even know it, unless the condition is discovered during an imaging test done for unrelated reasons. In a form of spina bifida called meningocele, the protective membranes around the spinal cord (meninges) push out through the opening in the vertebrae, forming a sac filled with fluid. But this sac doesn't include the spinal cord, so nerve damage is less likely, though later complications are possible. Also known as open spina bifida, myelomeningocele is the most severe form. The spinal canal is open along several vertebrae in the lower or middle back. The membranes and spinal nerves push through this opening at birth, forming a sac on the baby's back, typically exposing tissues and nerves. This makes the baby prone to life-threatening infections. Signs and symptoms of spina bifida vary by type and severity. Symptoms can also differ for each person. - Spina bifida occulta. Because the spinal nerves usually aren't involved, typically there are no signs or symptoms. But visible indications can sometimes be seen on the newborn's skin above the spinal defect, including an abnormal tuft of hair, or a small dimple or birthmark. - Meningocele. The membranes around the spinal cord push out through an opening in the vertebrae, forming a sac filled with fluid, but this sac doesn't include the spinal cord. - Myelomeningocele. In this severe form of spina bifida: - The spinal canal remains open along several vertebrae in the lower or middle back. - Both the membranes and the spinal cord or nerves protrude at birth, forming a sac. - Tissues and nerves usually are exposed, though sometimes skin covers the sac. When to see a doctor Typically, meningocele and myelomeningocele are diagnosed before or right after birth, when medical care is available. These children should be followed by a specialized team of doctors throughout their lives and families should be educated on the different complications to watch for. Children with spina bifida occulta typically don't have any symptoms or complications, so usually only routine pediatric care is needed. Doctors aren't certain what causes spina bifida. As with many other problems, it appears to result from a combination of genetic and environmental risk factors, such as a family history of neural tube defects and folate deficiency. Spina bifida is more common among whites and Hispanics, and females are affected more often than males. Although doctors and researchers don't know for sure why spina bifida occurs, they have identified some risk factors: - Folate deficiency. Folate (vitamin B-9) is important to the healthy development of a baby. Folate is the natural form of vitamin B-9. The synthetic form, found in supplements and fortified foods, is called folic acid. A folate deficiency increases the risk of spina bifida and other neural tube defects. - Family history of neural tube defects. Couples who've had one child with a neural tube defect have a slightly higher chance of having another baby with the same defect. That risk increases if two previous children have been affected by the condition. In addition, a woman who was born with a neural tube defect has a greater chance of giving birth to a child with spina bifida. However, most babies with spina bifida are born to parents with no known family history of the condition. - Some medications. For example, anti-seizure medications, such as valproic acid (Depakene), seem to cause neural tube defects when taken during pregnancy, possibly because they interfere with the body's ability to use folate and folic acid. - Diabetes. Women with diabetes who don't control their blood sugar well have a higher risk of having a baby with spina bifida. - Obesity. Pre-pregnancy obesity is associated with an increased risk of neural tube birth defects, including spina bifida. - Increased body temperature. Some evidence suggests that increased body temperature (hyperthermia) in the early weeks of pregnancy may increase the risk of spina bifida. Elevating your core body temperature, due to fever or the use of saunas or hot tubs, has been associated with a possible slight increased risk of spina bifida. If you have known risk factors for spina bifida, talk with your doctor to determine if you need a larger dose or prescription dose of folic acid, even before a pregnancy begins. If you take medications, tell your doctor. Some medications can be adjusted to diminish the potential risk of spina bifida, if plans are made ahead of time. Spina bifida may cause minimal symptoms or only minor physical disabilities. If the spina bifida is severe, sometimes it leads to more significant physical disabilities. Severity is affected by: - The size and location of the neural tube defect - Whether skin covers the affected area - Which spinal nerves come out of the affected area of the spinal cord This list of possible complications may seem overwhelming, but not all children with spina bifida get all these complications. And these conditions can be treated. - Walking and mobility problems. The nerves that control the leg muscles don't work properly below the area of the spina bifida defect, causing muscle weakness of the legs, sometimes involving paralysis. Whether a child can walk typically depends on where the defect is, its size, and the care received before and after birth. - Orthopedic complications. Children with myelomeningocele can have a variety of problems in the legs and spine because of weak muscles in the legs and back. The types of problems depend on the level of the defect. Possible problems include a curved spine (scoliosis), abnormal growth or dislocation of the hip, bone and joint deformities, muscle contractures and other orthopedic concerns. - Bowel and bladder problems. Nerves that supply the bladder and bowels usually don't work properly when children have myelomeningocele. This is because the nerves that supply the bowel and bladder come from the lowest level of the spinal cord. - Accumulation of fluid in the brain (hydrocephalus). Babies born with myelomeningocele commonly experience accumulation of fluid in the brain, a condition known as hydrocephalus. - Shunt malfunction. Shunts can stop working or become infected. Warning signs may vary. Some of the warning signs of a shunt that isn't working include headaches, vomiting, sleepiness, irritability, swelling or redness along the shunt, confusion, changes in the eyes (fixed downward gaze), trouble feeding, or seizures. - Chiari malformation type II. Chiari malformation (kee-AH-ree mal-for-MAY-shun) type II is a common brain abnormality in children with the myelomeningocele form of spina bifida. The brainstem, or lowest part of the brain above the spinal cord, is elongated and positioned lower than usual. This can cause problems with breathing and swallowing. Rarely, compression on this area of the brain occurs and surgery is needed to relieve the pressure. - Infection in the tissues surrounding the brain (meningitis). Some babies with myelomeningocele may develop meningitis, an infection in the tissues surrounding the brain. This potentially life-threatening infection may cause brain injury. - Tethered spinal cord. Tethered spinal cord results when the spinal nerves become bound to the scar where the defect was closed surgically, making the spinal cord less able to grow as the child grows. This progressive tethering can cause loss of muscle function to the legs, bowel or bladder. Surgery can limit the degree of disability. - Sleep-disordered breathing. Both children and adults with spina bifida, particularly myelomeningocele, may have sleep apnea or other sleep disorders. Assessment for a sleep disorder in those with myelomeningocele helps detect sleep-disordered breathing, such as sleep apnea, which warrants treatment to improve health and quality of life. - Skin problems. Children with spina bifida may get wounds on their feet, legs, buttocks or back. They can't feel when they get a blister or sore. Sores or blisters can turn into deep wounds or foot infections that are hard to treat. Children with myelomeningocele have a higher risk of wound problems in casts. - Latex allergy. Children with spina bifida have a higher risk of latex allergy, an allergic reaction to natural rubber or latex products. Latex allergy may cause rash, sneezing, itching, watery eyes and a runny nose. It can also cause anaphylaxis, a potentially life-threatening condition in which swelling of the face and airways can make breathing difficult. So it's best to use latex-free gloves and equipment at delivery time and when caring for a child with spina bifida. - Other complications. More problems may arise as children with spina bifida get older, such as urinary tract infections, gastrointestinal (GI) disorders and depression. Children with myelomeningocele may develop learning disabilities, such as problems paying attention, and difficulty learning reading and math. If you're pregnant, you'll be offered prenatal screening tests to check for spina bifida and other birth defects. The tests aren't perfect. Some mothers who have positive blood tests have normal babies. Even if the results are negative, there's still a small chance that spina bifida is present. Talk to your doctor about prenatal testing, its risks and how you might handle the results. Blood tests Your doctor will most likely check for spina bifida by first performing these tests: - Maternal serum alpha-fetoprotein (MSAFP) test. For the MSAFP test, a sample of the mother's blood is drawn and tested for alpha-fetoprotein (AFP) - a protein produced by the baby. It's normal for a small amount of AFP to cross the placenta and enter the mother's bloodstream. But abnormally high levels of AFP suggest that the baby has a neural tube defect, such as spina bifida, though some spina bifida cases don't produce high levels of AFP. - Test to confirm high AFP levels. Varying levels of AFP can be caused by other factors - including a miscalculation in fetal age or multiple babies - so your doctor may order a follow-up blood test for confirmation. If the results are still high, you'll need further evaluation, including an ultrasound exam. - Other blood tests. Your doctor may perform the MSAFP test with two or three other blood tests. These tests are commonly done with the MSAFP test, but their objective is to screen for other abnormalities, such as trisomy 21 (Down syndrome), not neural tube defects. Ultrasound Many obstetricians rely on ultrasonography to screen for spina bifida. If blood tests indicate high AFP levels, your doctor will suggest an ultrasound exam to help determine why. The most common ultrasound exams bounce high-frequency sound waves off tissues in your body to form images on a video monitor. The information these images provide can help establish whether there's more than one baby and can help confirm gestational age, two factors that can affect AFP levels. An advanced ultrasound also can detect signs of spina bifida, such as an open spine or particular features in your baby's brain that indicate spina bifida. Amniocentesis If a blood test shows high levels of AFP in your blood but the ultrasound is normal, your doctor may offer amniocentesis. During amniocentesis, your doctor uses a needle to remove a sample of fluid from the amniotic sac that surrounds the baby. An analysis of the sample indicates the level of AFP present in the amniotic fluid. A small amount of AFP is normally found in amniotic fluid. However, when an open neural tube defect is present, the amniotic fluid contains an elevated amount of AFP because the skin surrounding the baby's spine is gone and AFP leaks into the amniotic sac. Discuss the risks of amniocentesis, including a slight risk of loss of the pregnancy, with your doctor. Spina bifida treatment depends on the severity of the condition. Spina bifida occulta often doesn't require treatment at all, but other types of spina bifida do. Surgery before birth Nerve function in babies with spina bifida can worsen after birth if it's not treated. Prenatal surgery for spina bifida (fetal surgery) takes place before the 26th week of pregnancy. Surgeons expose a pregnant mother's uterus surgically, open the uterus and repair the baby's spinal cord. Research suggests that children with spina bifida who had fetal surgery may have reduced disability and be less likely to need crutches or other walking devices. In addition, fetal surgery may reduce the risk of hydrocephalus. Ask your doctor whether this procedure may be appropriate for you. Discuss the risks, such as possible premature delivery and other complications, and potential benefits for you and your baby. It's important to have a comprehensive evaluation to determine whether fetal surgery is feasible. This specialized surgery should only be done at a health care facility that has experienced fetal surgery experts, a multispecialty team approach and neonatal intensive care. Typically the team includes a fetal surgeon, pediatric neurosurgeon, maternal-fetal medicine specialist, fetal cardiologist and neonatologist. Cesarean birth Many babies with myelomeningocele tend to be in a feet-first (breech) position. If your baby is in this position or if your doctor has detected a large cyst or sac, cesarean birth may be a safer way to deliver your baby. Surgery after birth Meningocele involves surgery to put the meninges back in place and close the opening in the vertebrae. Because the spinal cord develops normally in babies with meningocele, these membranes often can be removed by surgery with little or no damage to nerve pathways. Myelomeningocele also requires surgery. Performing the surgery early can help minimize risk of infection that's associated with the exposed nerves and may also help protect the spinal cord from more trauma. During the procedure, a neurosurgeon places the spinal cord and exposed tissue inside the baby's body and covers them with muscle and skin. Sometimes a shunt to control hydrocephalus in the baby's brain is placed during the operation on the spinal cord. Treatment for complications In babies with myelomeningocele, irreparable nerve damage has likely already occurred and ongoing care from a multispecialty team of surgeons, physicians and therapists is usually needed. Babies with myelomeningocele may need more surgery for a variety of complications. Treatment for complications - such as weak legs, bladder and bowel problems or hydrocephalus - typically begins soon after birth. Depending on the severity of spina bifida and the complications, treatment may include, for example: - Walking and mobility aids. Some babies may start exercises to prepare their legs for walking with braces or crutches when they're older. Some children may need walkers or a wheelchair. Mobility aids, along with regular physical therapy, can help a child become independent. - Bowel and bladder management. Routine bowel and bladder evaluations and management plans help reduce the risk of organ damage and illness. Evaluations include X-rays, kidney scans, ultrasounds, blood tests and bladder function studies. These evaluations will be more frequent in the first few years of life, but less often as children grow. - Bowel management may include oral medications, suppositories, enemas, surgery, or a combination of these approaches. - Bladder management may include medications, using catheters to empty the bladder, surgery, or a combination. - For children, a specialist in pediatric urology with experience in evaluating and performing surgery on children with spina bifida is the best choice. - Surgery for hydrocephalus. Most babies with myelomeningocele will need a ventricular shunt - a surgically placed tube that allows fluid in the brain to drain into the abdomen. This tube might be placed just after birth, during the surgery to close the sac on the lower back or later as fluid accumulates. A less invasive procedure, called endoscopic third ventriculostomy, may be used, but candidates must be carefully chosen and meet certain criteria. The surgeon uses a small video camera to see inside the brain and makes a hole in the bottom of or between the ventricles so cerebrospinal fluid can flow out of the brain. - Treatment and management of other complications. To help with functioning, special equipment such as bath chairs, commode chairs and standing frames may be needed. Whatever the issue - orthopedic complications, tethered spinal cord, GI issues, skin problems, or others - most spina bifida complications can be treated or at least managed to improve quality of life. Ongoing care Children with spina bifida need close follow-up care and observation. Their primary care doctors follow growth, the need for immunizations and general medical issues. They coordinate your child's medical care. Children with spina bifida also often need treatment and ongoing care from: - Physical medicine and rehabilitation - Neurology - Neurosurgery - Urology - Orthopedics - Physical therapy - Occupational therapy - Special education teachers - Social workers - Dietitians Parents and other caregivers are a key part of the team, learning how to help manage their child's condition and how to encourage and support their child emotionally and socially. Keep in mind that children with spina bifida can go on to college, hold jobs and have families. Special accommodations may be necessary along the way, but encourage your child to be as independent as possible.

spina bifida; vertbral fusion;syrinx tethered cord. can u help for treatment of these problem

Dizziness has many possible causes, including inner ear disturbance, motion sickness, medication effects, and underlying health condition, such as poor circulation, infection or injury. How long the dizziness lasts and makes you feel, its triggers and other symptoms may help determine its cause. Your sense of balance depends on the combined input from your eyes, which help you determine where your body is in space and how it's moving; sensory nerves, which send messages to your brain about body movements and positions, and inner ear, which detects gravity and back-and-forth motion Vertigo (dizziness) is the false sense that your surroundings are spinning or moving, which happens when your brain receives signals from the inner ear that aren't consistent with what your eyes and sensory nerves are receiving. Vertigo is what results as your brain works to sort out the confusion.

Dizziness: Dizziness is a term used to describe a range of sensations, such as feeling faint, woozy, weak or unsteady. Dizziness that creates the false sense that you or your surroundings are spinning or moving is called vertigo. Dizziness is one of the more common reasons adults visit their doctors. Frequent dizzy spells or constant dizziness can significantly affect your life. But dizziness rarely signals a life-threatening condition. Treatment of dizziness depends on the cause and your symptoms. It's usually effective, but the problem may recur. People experiencing dizziness may describe it as any of a number of sensations, such as: - A false sense of motion or spinning (vertigo) - Lightheadedness or feeling faint - Unsteadiness or a loss of balance - A feeling of floating, wooziness or heavy-headedness These feelings may be triggered or worsened by walking, standing up or moving your head. Your dizziness may accompanied by nausea or be so sudden or severe that you need to sit or lie down. The episode may last seconds or days and may recur. When to see a doctor Call 911 or seek emergency medical help if you experience dizziness with: - A sudden or severe headache - Ongoing vomiting - A sudden change in speech, vision or hearing - Stumbling or difficulty walking - Fainting - Chest pain or an irregular heart rate - Numbness or weakness - Shortness of breath - A high fever - A very stiff neck - A head injury - Seizures Consult with your doctor if you experience recurrent, sudden, severe dizziness or prolonged episodes of dizziness, faintness, lightheadedness or vertigo. Dizziness has many possible causes, including inner ear disturbance, motion sickness and medication effects. Sometimes it's caused by an underlying health condition, such as poor circulation, infection or injury. The way dizziness makes you feel and your triggers provide clues for possible causes. How long the dizziness lasts and any other symptoms you have also help pinpoint the cause. Inner ear problems that cause dizziness (vertigo) Your sense of balance depends on the combined input from the various parts of your sensory system. These include your: - Eyes, which help you determine where your body is in space and how it's moving - Sensory nerves, which send messages to your brain about body movements and positions - Inner ear, which houses sensors that help detect gravity and back-and-forth motion Vertigo is the false sense that your surroundings are spinning or moving. With inner ear disorders, your brain receives signals from the inner ear that aren't consistent with what your eyes and sensory nerves are receiving. Vertigo is what results as your brain works to sort out the confusion. - Benign paroxysmal positional vertigo (BPPV). This condition causes an intense and brief but false sense that you're spinning or moving. These episodes are triggered by a rapid change in head movement, such as when you turn over in bed, sit up or experience a blow to the head. BPPV is the most common cause of vertigo. - Infection. A viral infection of the vestibular nerve, called vestibular neuritis, can cause intense, constant vertigo. If you also have sudden hearing loss, you may have labyrinthitis. - Meniere's disease. This disease involves the excessive buildup of fluid in your inner ear. It's characterized by sudden episodes of vertigo lasting as long as several hours. You may also experience fluctuating hearing loss, ringing in the ear and the feeling of a plugged ear. - Migraine. People who experience migraines may have episodes of vertigo or other types of dizziness even when they're not having a severe headache. Such vertigo episodes can last minutes to hours and may be associated with headache as well as light and noise sensitivity. Circulation problems that cause dizziness You may feel dizzy, faint or off balance if your heart isn't pumping enough blood to your brain. Causes include: - Drop in blood pressure. A dramatic drop in your systolic blood pressure - the higher number in your blood pressure reading - may result in brief lightheadedness or a feeling of faintness. It can occur after sitting up or standing too quickly. This condition is also called orthostatic hypotension. - Poor blood circulation. Conditions such as cardiomyopathy, heart attack, heart arrhythmia and transient ischemic attack could cause dizziness. And a decrease in blood volume may cause inadequate blood flow to your brain or inner ear. Other causes of dizziness - Neurological conditions. Some neurological disorders - such as Parkinson's disease and multiple sclerosis - can lead to progressive loss of balance. - Medications. Dizziness can be a side effect of certain medications - such as anti-seizure drugs, antidepressants, sedatives and tranquilizers. In particular, blood pressure lowering medications may cause faintness if they lower your blood pressure too much. - Anxiety disorders. Certain anxiety disorders may cause lightheadedness or a woozy feeling often referred to as dizziness. These include panic attacks and a fear of leaving home or being in large, open spaces (agoraphobia). - Low iron levels (anemia). Other signs and symptoms that may occur along with dizziness if you have anemia include fatigue, weakness and pale skin. - Low blood sugar (hypoglycemia). This condition generally occurs in people with diabetes who use insulin. Dizziness (lightheadedness) may be accompanied by sweating and anxiety. - Overheating and dehydration. If you're active in hot weather, or if you don't drink enough fluids, you may feel dizzy from overheating (hyperthermia) or from dehydration. This is especially true if you take certain heart medications. Factors that may increase your risk of getting dizzy include: - Age. Older adults are more likely to have medical conditions that cause dizziness, especially a sense of imbalance. They're also more likely to take medications that can cause dizziness. - A past episode of dizziness. If you've experienced dizziness before, you're more likely to get dizzy in the future. If your doctor suspects you're having or may have had a stroke, are older or suffered a blow to the head, he or she may immediately order an MRI or CT scan. Most people visiting their doctor because of dizziness will first be asked about their symptoms and medications and then be given a physical examination. During this exam, your doctor will check how you walk and maintain your balance and how the major nerves of your central nervous system are working. You may also need a hearing test and balance tests, including: - Eye movement testing. Your doctor may watch the path of your eyes when you track a moving object. And you may be given an eye motion test in which cold and warm water or air are placed in your ear canal. - Head movement testing. If your doctor suspects your vertigo is caused by benign paroxysmal positional vertigo, he or she may do a simple head movement test called the Dix-Hallpike maneuver to verify the diagnosis. - Posturography. This test tells your doctor which parts of the balance system you rely on the most and which parts may be giving you problems. You stand in your bare feet on a platform and try to keep your balance under various conditions. - Rotary-chair testing. During this test you sit in a computer-controlled chair that moves very slowly in a full circle. At faster speeds, it moves back and forth in a very small arc. In addition, you may be given blood tests to check for infection and other tests to check heart and blood vessel health. Dizziness often gets better without treatment. Within a couple of weeks, the body usually adapts to whatever is causing it. If you seek treatment, your doctor will base it on the cause of your condition and your symptoms. It may include medications and balance exercises. Even if no cause is found or if your dizziness persists, prescription drugs and other treatments may make your symptoms more manageable. Medications - Water pills. If you have Meniere's disease, your doctor may prescribe a water pill (diuretic). This along with a low-salt diet may help reduce how often you have dizziness episodes. - Medications that reduce the dizziness. Antihistamines such as meclizine (Antivert) may offer short-term relief from vertigo. Anticholinergics help reduce dizziness. They include scopolamine skin patches (Transderm Scop). - Anti-nausea medications. Your doctor may prescribe a drug to provide immediate relief of nausea. Some of these can cause drowsiness. - Anti-anxiety medications. Diazepam (Valium) and alprazolam (Xanax) are in a class of drugs called benzodiazepines, which may cause addiction. They may also cause drowsiness. - Preventive medicine for migraine. Certain medicines may help prevent attacks of migraine. Therapy - Head position maneuvers. A technique called canalith repositioning (or Epley maneuver) usually helps resolve benign paroxysmal positional vertigo more quickly than simply waiting for your dizziness to go away. It can be done by your doctor, an audiologist or a physical therapist and involves maneuvering the position of your head. It's usually effective after one or two treatments. Before undergoing this procedure, tell your care provider if you have a neck or back condition, a detached retina or blood vessel problems. - Balance therapy. You may learn specific exercises to help make your balance system less sensitive to motion. This physical therapy technique is called vestibular rehabilitation. It is used for people with dizziness from inner ear conditions such as vestibular neuritis. - Psychotherapy. This type of therapy may help people whose dizziness is caused by anxiety disorders. Surgical or other procedures - Injections. Your doctor may inject your inner ear with the antibiotic gentamicin to disable the balance function. The unaffected ear takes over that function. - Removal of the inner ear sense organ. A procedure that's rarely used is called labyrinthectomy. It disables the vestibular labyrinth in the affected ear. The other ear takes over the balance function. This technique may be used if you have serious hearing loss and your dizziness hasn't responded to other treatments. Dizziness usually goes away on its own. If you tend to experience repeated episodes of dizziness, consider these tips: - Be aware of the possibility of losing your balance, which can lead to falling and serious injury. - Avoid moving suddenly and walk with a cane for stability, if needed. - Fall-proof your home by removing tripping hazards such as area rugs and exposed electrical cords. Use nonslip mats on your bath and shower floors. Use good lighting. - Sit or lie down immediately when you feel dizzy. Lie still with your eyes closed in a darkened room if you're experiencing a severe episode of vertigo. - Avoid driving a car or operating heavy machinery if you experience frequent dizziness without warning. - Avoid using caffeine, alcohol, salt and tobacco. Excessive use of these substances can worsen your signs and symptoms. - Drink enough fluids, eat a healthy diet, get enough sleep and avoid stress. - If your dizziness is caused by a medication, talk with your doctor about discontinuing it or lowering the dose. - If your dizziness comes with nausea, try an over-the-counter (nonprescription) antihistamine, such as meclizine (Antivert) or one containing dimenhydrinate (Dramamine). These may cause drowsiness. Nondrowsy antihistamines aren't as effective. - If your dizziness is caused by overheating or dehydration, rest in a cool place and drink water or a sports drink (Gatorade, Powerade, others).

subjective vertigo Can macular degeneration in only one eye cause dizziness?

Moderate dehydration causes dry mouth, thirst, headache, muscle cramps, and reduced urination and darker urine. As dehydration becomes severe, urination might stop, you might experience irritability, confusion, dizziness, rapid heartbeat, rapid breathing, lack of energy, shock, and unconsciousness or delirium.

Dehydration: Dehydration occurs when your body does not have as much water and fluids as it should. Dehydration can be mild, moderate, or severe, based on how much of your body's fluid is lost or not replaced. Severe dehydration is a life-threatening emergency. You can become dehydrated if you lose too much fluid, do not drink enough water or fluids, or both. Your body may lose a lot of fluid from: - Sweating too much, for example, from exercising in hot weather - Fever - Vomiting or diarrhea - Urinating too much (uncontrolled diabetes or some medications, like diuretics, can cause you to urinate a lot) You might not drink enough fluids because: - You do not feel like eating or drinking because you are sick - You are nauseated - You have a sore throat or mouth sores Older adults and people with certain diseases, such as diabetes, are also at higher risk for dehydration. Signs of mild to moderate dehydration: - Thirst - Dry or sticky mouth - Not urinating much - Darker yellow urine - Dry, cool skin - Headache - Muscle cramps Signs of severe dehydration: - Not urinating, or very dark yellow or amber-colored urine - Dry, shriveled skin - Irritability or confusion - Dizziness or light-headedness - Rapid heartbeat - Rapid breathing - Sunken eyes - Listlessness - Shock (not enough blood flow through the body) - Unconsciousness or delirium Your health care provider will look for these signs of dehydration: - Low blood pressure - Blood pressure that drops when you stand up after lying down - White finger tips that do not return to a pink color after your doctor presses the fingertip - Skin that is not as elastic as normal. When the provider pinches it into a fold, it may slowly sag back into place. Normally, skin springs back right away. - Rapid heart rate Your doctor may do lab tests: - Blood tests to check kidney function - Urine tests to see what may be causing dehydration - Other tests to see what may be causing dehydration (blood sugar test for diabetes) To treat dehydration: - Try sipping water or sucking on ice cubes. - Try drinking water or sports drinks that contain electrolytes. - Do not take salt tablets. They can cause serious complications. - Ask your provider what you should eat if you have diarrhea. For more severe dehydration or heat emergency, you may need to stay in a hospital and receive fluid through a vein (IV). The provider will also treat the cause of the dehydration. Dehydration caused by a stomach virus should get better on its own after a few days. If you notice signs of dehydration and treat it quickly, you should recover completely. Untreated severe dehydration may cause: - Death - Permanent brain damage - Seizures You should call 911 if: - The person loses consciousness at any time. - There is any other change in the person's alertness (for example, confusion or seizures). - The person has a fever over 102°F (38.8°C). - You notice symptoms of heatstroke (such as rapid pulse or rapid breathing). - The person's condition does not improve or gets worse despite treatment. To prevent dehydration: - Drink plenty of fluids every day, even when you are well. Drink more when the weather is hot or you are exercising. - If anyone in your family is ill, pay attention to how much they are able to drink. Pay close attention to children and older adults. - Anyone with a fever, vomiting, or diarrhea should drink plenty of fluids. DO NOT wait for signs of dehydration. - If you think you or someone in your family may become dehydrated, call your provider. Do this before the person becomes dehydrated. Updated by: Laura J. Martin, MD, MPH, ABIM Board Certified in Internal Medicine and Hospice and Palliative Medicine, Atlanta, GA. Also reviewed by David Zieve, MD, MHA, Isla Ogilvie, PhD, and the A.D.A.M. Editorial team.

symptoms of dehydration When a person is very dehydrated do they sometimes get a tight pain in their chest (right below the breasts) right before they faint/pass out?

Dehydration causes dry mouth, thirst, reduced urination, dark urine, irritability, lack of energy, fatigue, confusion, and dizziness.

Dehydration: Dehydration occurs when you use or lose more fluid than you take in, and your body doesn't have enough water and other fluids to carry out its normal functions. If you don't replace lost fluids, you will get dehydrated. Anyone may become dehydrated, but the condition is especially dangerous for young children and older adults. The most common cause of dehydration in young children is severe diarrhea and vomiting. Older adults naturally have a lower volume of water in their bodies, and may have conditions or take medications that increase the risk of dehydration. This means that even minor illnesses, such as infections affecting the lungs or bladder, can result in dehydration in older adults. Dehydration also can occur in any age group if you don't drink enough water during hot weather - especially if you are exercising vigorously. You can usually reverse mild to moderate dehydration by drinking more fluids, but severe dehydration needs immediate medical treatment. Thirst isn't always a reliable early indicator of the body's need for water. Many people, particularly older adults, don't feel thirsty until they're already dehydrated. That's why it's important to increase water intake during hot weather or when you're ill. The signs and symptoms of dehydration also may differ by age. - Dry mouth and tongue - No tears when crying - No wet diapers for three hours - Sunken eyes, cheeks - Sunken soft spot on top of skull - Listlessness or irritability - Extreme thirst - Less frequent urination - Dark-colored urine - Fatigue - Dizziness - Confusion Call your family doctor if you or a loved one: - Has had diarrhea for 24 hours or more - Is irritable or disoriented and much sleepier or less active than usual - Can't keep down fluids - Has bloody or black stool Sometimes dehydration occurs for simple reasons: You don't drink enough because you're sick or busy, or because you lack access to safe drinking water when you're traveling, hiking or camping. Other dehydration causes include: - Diarrhea, vomiting. Severe, acute diarrhea - that is, diarrhea that comes on suddenly and violently - can cause a tremendous loss of water and electrolytes in a short amount of time. If you have vomiting along with diarrhea, you lose even more fluids and minerals. - Fever. In general, the higher your fever, the more dehydrated you may become. The problem worsens if you have a fever in addition to diarrhea and vomiting. - Excessive sweating. You lose water when you sweat. If you do vigorous activity and don't replace fluids as you go along, you can become dehydrated. Hot, humid weather increases the amount you sweat and the amount of fluid you lose. - Increased urination. This may be due to undiagnosed or uncontrolled diabetes. Certain medications, such as diuretics and some blood pressure medications, also can lead to dehydration, generally because they cause you to urinate more. Anyone can become dehydrated, but certain people are at greater risk: - Infants and children. The most likely group to experience severe diarrhea and vomiting, infants and children are especially vulnerable to dehydration. Having a higher surface area to volume area, they also lose a higher proportion of their fluids from a high fever or burns. Young children often can't tell you that they're thirsty, nor can they get a drink for themselves. - Older adults. As you age, your body's fluid reserve becomes smaller, your ability to conserve water is reduced and your thirst sense becomes less acute. These problems are compounded by chronic illnesses such as diabetes and dementia, and by the use of certain medications. Older adults also may have mobility problems that limit their ability to obtain water for themselves. - People with chronic illnesses. Having uncontrolled or untreated diabetes puts you at high risk of dehydration. Kidney disease also increases your risk, as do medications that increase urination. Even having a cold or sore throat makes you more susceptible to dehydration because you're less likely to feel like eating or drinking when you're sick. - People who work or exercise outside. When it's hot and humid, your risk of dehydration and heat illness increases. That's because when the air is humid, sweat can't evaporate and cool you as quickly as it normally does, and this can lead to an increased body temperature and the need for more fluids. Dehydration can lead to serious complications, including: - Heat injury. If you don't drink enough fluids when you're exercising vigorously and perspiring heavily, you may end up with a heat injury, ranging in severity from mild heat cramps to heat exhaustion or potentially life-threatening heatstroke. - Urinary and kidney problems. Prolonged or repeated bouts of dehydration can cause urinary tract infections, kidney stones and even kidney failure. - Seizures. Electrolytes - such as potassium and sodium - help carry electrical signals from cell to cell. If your electrolytes are out of balance, the normal electrical messages can become mixed up, which can lead to involuntary muscle contractions and sometimes to a loss of consciousness. - Low blood volume shock (hypovolemic shock). This is one of the most serious, and sometimes life-threatening, complications of dehydration. It occurs when low blood volume causes a drop in blood pressure and a drop in the amount of oxygen in your body. Your doctor can often diagnose dehydration on the basis of physical signs and symptoms. If you're dehydrated, you're also likely to have low blood pressure, especially when moving from a lying to a standing position, a faster than normal heart rate and reduced blood flow to your extremities. To help confirm the diagnosis and pinpoint the degree of dehydration, you may have other tests, such as: - Blood tests. Blood samples may be used to check for a number of factors, such as the levels of your electrolytes - especially sodium and potassium - and how well your kidneys are working. - Urinalysis. Tests done on your urine can help show whether you're dehydrated and to what degree. They also can check for signs of a bladder infection. The only effective treatment for dehydration is to replace lost fluids and lost electrolytes. The best approach to dehydration treatment depends on age, the severity of dehydration and its cause. For infants and children who have become dehydrated from diarrhea, vomiting or fever, use an over-the-counter oral rehydration solution. These solutions contain water and salts in specific proportions to replenish both fluids and electrolytes. Start with about a teaspoon (5 milliliters) every one to five minutes and increase as tolerated. It may be easier to use a syringe for very young children. Older children can be given diluted sports drinks. Use 1 part sports drink to 1 part water. Most adults with mild to moderate dehydration from diarrhea, vomiting or fever can improve their condition by drinking more water or other liquids. Diarrhea may be worsened by full-strength fruit juice and soft drinks. If you work or exercise outdoors during hot or humid weather, cool water is your best bet. Sports drinks containing electrolytes and a carbohydrate solution also may be helpful. Children and adults who are severely dehydrated should be treated by emergency personnel arriving in an ambulance or in a hospital emergency room. Salts and fluids delivered through a vein (intravenously) are absorbed quickly and speed recovery.

symptoms of dehydration When a person is very dehydrated do they sometimes get a tight pain in their chest (right below the breasts) right before they faint/pass out?

Chronic obstructive pulmonary disease (COPD) is a chronic inflammatory lung disease that causes obstructed airflow from the lungs. Symptoms of COPD usually begin in people who are at least 40 years old and include breathing difficulty, cough, sputum production and wheezing. People with COPD are at increased risk of developing heart disease, lung cancer and other complications. Emphysema and chronic bronchitis are the two most common conditions that contribute to COPD.

COPD: Chronic obstructive pulmonary disease (COPD) is a chronic inflammatory lung disease that causes obstructed airflow from the lungs. Symptoms include breathing difficulty, cough, mucus (sputum) production and wheezing. It's caused by long-term exposure to irritating gases or particulate matter, most often from cigarette smoke. People with COPD are at increased risk of developing heart disease, lung cancer and a variety of other conditions. Emphysema and chronic bronchitis are the two most common conditions that contribute to COPD. Chronic bronchitis is inflammation of the lining of the bronchial tubes, which carry air to and from the air sacs (alveoli) of the lungs. It's characterized by daily cough and mucus (sputum) production. Emphysema is a condition in which the alveoli at the end of the smallest air passages (bronchioles) of the lungs are destroyed as a result of damaging exposure to cigarette smoke and other irritating gases and particulate matter. COPD is treatable. With proper management, most people with COPD can achieve good symptom control and quality of life, as well as reduced risk of other associated conditions. COPD care at Mayo Clinic COPD symptoms often don't appear until significant lung damage has occurred, and they usually worsen over time, particularly if smoking exposure continues. For chronic bronchitis, the main symptom is a daily cough and mucus (sputum) production at least three months a year for two consecutive years. Other signs and symptoms of COPD may include: - Shortness of breath, especially during physical activities - Wheezing - Chest tightness - Having to clear your throat first thing in the morning, due to excess mucus in your lungs - A chronic cough that may produce mucus (sputum) that may be clear, white, yellow or greenish - Blueness of the lips or fingernail beds (cyanosis) - Frequent respiratory infections - Lack of energy - Unintended weight loss (in later stages) - Swelling in ankles, feet or legs People with COPD are also likely to experience episodes called exacerbations, during which their symptoms become worse than usual day-to-day variation and persist for at least several days. The main cause of COPD in developed countries is tobacco smoking. In the developing world, COPD often occurs in people exposed to fumes from burning fuel for cooking and heating in poorly ventilated homes. Only about 20 to 30 percent of chronic smokers may develop clinically apparent COPD, although many smokers with long smoking histories may develop reduced lung function. Some smokers develop less common lung conditions. They may be misdiagnosed as having COPD until a more thorough evaluation is performed. Air travels down your windpipe (trachea) and into your lungs through two large tubes (bronchi). Inside your lungs, these tubes divide many times - like the branches of a tree - into many smaller tubes (bronchioles) that end in clusters of tiny air sacs (alveoli). The air sacs have very thin walls full of tiny blood vessels (capillaries). The oxygen in the air you inhale passes into these blood vessels and enters your bloodstream. At the same time, carbon dioxide - a gas that is a waste product of metabolism - is exhaled. Your lungs rely on the natural elasticity of the bronchial tubes and air sacs to force air out of your body. COPD causes them to lose their elasticity and overexpand, which leaves some air trapped in your lungs when you exhale. Causes of airway obstruction include: - Emphysema. This lung disease causes destruction of the fragile walls and elastic fibers of the alveoli. Small airways collapse when you exhale, impairing airflow out of your lungs. - Chronic bronchitis. In this condition, your bronchial tubes become inflamed and narrowed and your lungs produce more mucus, which can further block the narrowed tubes. You develop a chronic cough trying to clear your airways. In the vast majority of cases, the lung damage that leads to COPD is caused by long-term cigarette smoking. But there are likely other factors at play in the development of COPD, such as a genetic susceptibility to the disease, because only about 20 to 30 percent of smokers may develop COPD. Other irritants can cause COPD, including cigar smoke, secondhand smoke, pipe smoke, air pollution and workplace exposure to dust, smoke or fumes. In about 1 percent of people with COPD, the disease results from a genetic disorder that causes low levels of a protein called alpha-1-antitrypsin. Alpha-1-antitrypsin (AAt) is made in the liver and secreted into the bloodstream to help protect the lungs. Alpha-1-antitrypsin deficiency can affect the liver as well as the lungs. Damage to the lung can occur in infants and children, not only adults with long smoking histories. For adults with COPD related to AAt deficiency, treatment options include those used for people with more-common types of COPD. In addition, some people can be treated by replacing the missing AAt protein, which may prevent further damage to the lungs. Risk factors for COPD include: - Exposure to tobacco smoke. The most significant risk factor for COPD is long-term cigarette smoking. The more years you smoke and the more packs you smoke, the greater your risk. Pipe smokers, cigar smokers and marijuana smokers also may be at risk, as well as people exposed to large amounts of secondhand smoke. - People with asthma who smoke. The combination of asthma, a chronic inflammatory airway disease, and smoking increases the risk of COPD even more. - Occupational exposure to dusts and chemicals. Long-term exposure to chemical fumes, vapors and dusts in the workplace can irritate and inflame your lungs. - Exposure to fumes from burning fuel. In the developing world, people exposed to fumes from burning fuel for cooking and heating in poorly ventilated homes are at higher risk of developing COPD. - Age. COPD develops slowly over years, so most people are at least 40 years old when symptoms begin. - Genetics. The uncommon genetic disorder alpha-1-antitrypsin deficiency is the cause of some cases of COPD. Other genetic factors likely make certain smokers more susceptible to the disease. COPD can cause many complications, including: - Respiratory infections. People with COPD are more likely to catch colds, the flu and pneumonia. Any respiratory infection can make it much more difficult to breathe and could cause further damage to lung tissue. An annual flu vaccination and regular vaccination against pneumococcal pneumonia can prevent some infections. - Heart problems. For reasons that aren't fully understood, COPD can increase your risk of heart disease, including heart attack. Quitting smoking may reduce this risk. - Lung cancer. People with COPD have a higher risk of developing lung cancer. Quitting smoking may reduce this risk. - High blood pressure in lung arteries. COPD may cause high blood pressure in the arteries that bring blood to your lungs (pulmonary hypertension). - Depression. Difficulty breathing can keep you from doing activities that you enjoy. And dealing with serious illness can contribute to development of depression. Talk to your doctor if you feel sad or helpless or think that you may be experiencing depression. COPD is commonly misdiagnosed - former smokers may sometimes be told they have COPD, when in reality they may have simple deconditioning or another less common lung condition. Likewise, many people who have COPD may not be diagnosed until the disease is advanced and interventions are less effective. To diagnose your condition, your doctor will review your signs and symptoms, discuss your family and medical history, and discuss any exposure you've had to lung irritants - especially cigarette smoke. Your doctor may order several tests to diagnose your condition. Tests may include: - Lung (pulmonary) function tests. Pulmonary function tests measure the amount of air you can inhale and exhale, and if your lungs are delivering enough oxygen to your blood. Spirometry is the most common lung function test. During this test, you'll be asked to blow into a large tube connected to a small machine called a spirometer. This machine measures how much air your lungs can hold and how fast you can blow the air out of your lungs. Spirometry can detect COPD even before you have symptoms of the disease. It can also be used to track the progression of disease and to monitor how well treatment is working. Spirometry often includes measurement of the effect of bronchodilator administration. Other lung function tests include measurement of lung volumes, diffusing capacity and pulse oximetry. - Chest X-ray. A chest X-ray can show emphysema, one of the main causes of COPD. An X-ray can also rule out other lung problems or heart failure. - CT scan. A CT scan of your lungs can help detect emphysema and help determine if you might benefit from surgery for COPD. CT scans can also be used to screen for lung cancer. - Arterial blood gas analysis. This blood test measures how well your lungs are bringing oxygen into your blood and removing carbon dioxide. - Laboratory tests. Laboratory tests aren't used to diagnose COPD, but they may be used to determine the cause of your symptoms or rule out other conditions. For example, laboratory tests may be used to determine if you have the genetic disorder alpha-1-antitrypsin (AAt) deficiency, which may be the cause of some cases of COPD. This test may be done if you have a family history of COPD and develop COPD at a young age, such as under age 45. A diagnosis of COPD is not the end of the world. Most people have mild forms of the disease for which little therapy is needed other than smoking cessation. Even for more advanced stages of disease, effective therapy is available that can control symptoms, reduce your risk of complications and exacerbations, and improve your ability to lead an active life. Smoking cessation The most essential step in any treatment plan for COPD is to stop all smoking. It's the only way to keep COPD from getting worse - which can eventually reduce your ability to breathe. But quitting smoking isn't easy. And this task may seem particularly daunting if you've tried to quit and have been unsuccessful. Talk to your doctor about nicotine replacement products and medications that might help, as well as how to handle relapses. Your doctor may also recommend a support group for people who want to quit smoking. It's also a good idea to avoid secondhand smoke exposure whenever possible. Medications Doctors use several kinds of medications to treat the symptoms and complications of COPD. You may take some medications on a regular basis and others as needed. These medications - which usually come in an inhaler - relax the muscles around your airways. This can help relieve coughing and shortness of breath and make breathing easier. Depending on the severity of your disease, you may need a short-acting bronchodilator before activities, a long-acting bronchodilator that you use every day or both. Short-acting bronchodilators include albuterol (ProAir HFA, Ventolin HFA, others), levalbuterol (Xopenex HFA), and ipratropium (Atrovent). The long-acting bronchodilators include tiotropium (Spiriva), salmeterol (Serevent), formoterol (Foradil, Perforomist), arformoterol (Brovana), indacaterol (Arcapta) and aclidinium (Tudorza). Inhaled corticosteroid medications can reduce airway inflammation and help prevent exacerbations. Side effects may include bruising, oral infections and hoarseness. These medications are useful for people with frequent exacerbations of COPD. Fluticasone (Flovent HFA, Flonase, others) and budesonide (Pulmicort Flexhaler, Uceris, others) are examples of inhaled steroids. Some medications combine bronchodilators and inhaled steroids. Salmeterol and fluticasone (Advair) and formoterol and budesonide (Symbicort) are examples of combination inhalers. For people who have a moderate or severe acute exacerbation, short courses (for example, five days) of oral corticosteroids prevent further worsening of COPD. However, long-term use of these medications can have serious side effects, such as weight gain, diabetes, osteoporosis, cataracts and an increased risk of infection. A new type of medication approved for people with severe COPD and symptoms of chronic bronchitis is roflumilast (Daliresp), a phosphodiesterase-4 inhibitor. This drug decreases airway inflammation and relaxes the airways. Common side effects include diarrhea and weight loss. This very inexpensive medication may help improve breathing and prevent exacerbations. Side effects may include nausea, headache, fast heartbeat and tremor. Side effects are dose related, and low doses are recommended. Respiratory infections, such as acute bronchitis, pneumonia and influenza, can aggravate COPD symptoms. Antibiotics help treat acute exacerbations, but they aren't generally recommended for prevention. However, a recent study shows that the antibiotic azithromycin prevents exacerbations, but it isn't clear whether this is due to its antibiotic effect or its anti-inflammatory properties. Lung therapies Doctors often use these additional therapies for people with moderate or severe COPD: - Oxygen therapy. If there isn't enough oxygen in your blood, you may need supplemental oxygen. There are several devices to deliver oxygen to your lungs, including lightweight, portable units that you can take with you to run errands and get around town. Some people with COPD use oxygen only during activities or while sleeping. Others use oxygen all the time. Oxygen therapy can improve quality of life and is the only COPD therapy proven to extend life. Talk to your doctor about your needs and options. - Pulmonary rehabilitation program. These programs generally combine education, exercise training, nutrition advice and counseling. You'll work with a variety of specialists, who can tailor your rehabilitation program to meet your needs. Pulmonary rehabilitation may shorten hospitalizations, increase your ability to participate in everyday activities and improve your quality of life. Talk to your doctor about referral to a program. Managing exacerbations Even with ongoing treatment, you may experience times when symptoms become worse for days or weeks. This is called an acute exacerbation, and it may lead to lung failure if you don't receive prompt treatment. Exacerbations may be caused by a respiratory infection, air pollution or other triggers of inflammation. Whatever the cause, it's important to seek prompt medical help if you notice a sustained increase in coughing, a change in your mucus or if you have a harder time breathing. When exacerbations occur, you may need additional medications (such as antibiotics, steroids or both), supplemental oxygen or treatment in the hospital. Once symptoms improve, your doctor will talk with you about measures to prevent future exacerbations, such as quitting smoking, taking inhaled steroids, long-acting bronchodilators or other medications, getting your annual flu vaccine, and avoiding air pollution whenever possible. Surgery Surgery is an option for some people with some forms of severe emphysema who aren't helped sufficiently by medications alone. Surgical options include: - Lung volume reduction surgery. In this surgery, your surgeon removes small wedges of damaged lung tissue from the upper lungs. This creates extra space in your chest cavity so that the remaining healthier lung tissue can expand and the diaphragm can work more efficiently. In some people, this surgery can improve quality of life and prolong survival. - Lung transplant. Lung transplantation may be an option for certain people who meet specific criteria. Transplantation can improve your ability to breathe and to be active. However, it's a major operation that has significant risks, such as organ rejection, and it's necessary to take lifelong immune-suppressing medications. - Bullectomy. Large air spaces (bullae) form in the lungs when the walls of the air sacs are destroyed. These bullae can become very large and cause breathing problems. In a bullectomy, doctors remove bullae from the lungs to help improve air flow. If you have COPD, you can take steps to feel better and slow the damage to your lungs: - Control your breathing. Talk to your doctor or respiratory therapist about techniques for breathing more efficiently throughout the day. Also be sure to discuss breathing positions and relaxation techniques that you can use when you're short of breath. - Clear your airways. With COPD, mucus tends to collect in your air passages and can be difficult to clear. Controlled coughing, drinking plenty of water and using a humidifier may help. - Exercise regularly. It may seem difficult to exercise when you have trouble breathing, but regular exercise can improve your overall strength and endurance and strengthen your respiratory muscles. Discuss with your doctor which activities are appropriate for you. - Eat healthy foods. A healthy diet can help you maintain your strength. If you're underweight, your doctor may recommend nutritional supplements. If you're overweight, losing weight can significantly help your breathing, especially during times of exertion. - Avoid smoke and air pollution. In addition to quitting smoking, it's important to avoid places where others smoke. Secondhand smoke may contribute to further lung damage. Other types of air pollution also can irritate your lungs. - See your doctor regularly. Stick to your appointment schedule, even if you're feeling fine. It's important to steadily monitor your lung function. And be sure to get your annual flu vaccine in the fall to help prevent infections that can worsen your COPD. Ask your doctor when you need the pneumococcal vaccine. Let your doctor know if you have worsening symptoms or you notice signs of infection.

what is copd

Epilepsy is a central nervous system (neurological) disorder in which brain activity becomes abnormal, causing seizures or periods of unusual behavior, sensations, and sometimes loss of awareness. A

Epilepsy: Epilepsy is a central nervous system (neurological) disorder in which brain activity becomes abnormal, causing seizures or periods of unusual behavior, sensations, and sometimes loss of awareness. Anyone can develop epilepsy. Epilepsy affects both males and females of all races, ethnic backgrounds and ages. Seizure symptoms can vary widely. Some people with epilepsy simply stare blankly for a few seconds during a seizure, while others repeatedly twitch their arms or legs. Having a single seizure doesn't mean you have epilepsy. At least two unprovoked seizures are generally required for an epilepsy diagnosis. Treatment with medications or sometimes surgery can control seizures for the majority of people with epilepsy. Some people require lifelong treatment to control seizures, but for others, the seizures eventually go away. Some children with epilepsy may outgrow the condition with age. Epilepsy care at Mayo Clinic Because epilepsy is caused by abnormal activity in the brain, seizures can affect any process your brain coordinates. Seizure signs and symptoms may include: - Temporary confusion - A staring spell - Uncontrollable jerking movements of the arms and legs - Loss of consciousness or awareness - Psychic symptoms such as fear, anxiety or deja vu Symptoms vary depending on the type of seizure. In most cases, a person with epilepsy will tend to have the same type of seizure each time, so the symptoms will be similar from episode to episode. Doctors generally classify seizures as either focal or generalized, based on how the abnormal brain activity begins. Focal seizures When seizures appear to result from abnormal activity in just one area of your brain, they're called focal (partial) seizures. These seizures fall into two categories: - Focal seizures without loss of consciousness. Once called simple partial seizures, these seizures don't cause a loss of consciousness. They may alter emotions or change the way things look, smell, feel, taste or sound. They may also result in involuntary jerking of a body part, such as an arm or leg, and spontaneous sensory symptoms such as tingling, dizziness and flashing lights. - Focal seizures with impaired awareness. Once called complex partial seizures, these seizures involve a change or loss of consciousness or awareness. During a complex partial seizure, you may stare into space and not respond normally to your environment or perform repetitive movements, such as hand rubbing, chewing, swallowing or walking in circles. Symptoms of focal seizures may be confused with other neurological disorders, such as migraine, narcolepsy or mental illness. A thorough examination and testing are needed to distinguish epilepsy from other disorders. Generalized seizures Seizures that appear to involve all areas of the brain are called generalized seizures. Six types of generalized seizures exist. - Absence seizures. Absence seizures, previously known as petit mal seizures, often occur in children and are characterized by staring into space or subtle body movements such as eye blinking or lip smacking. These seizures may occur in clusters and cause a brief loss of awareness. - Tonic seizures. Tonic seizures cause stiffening of your muscles. These seizures usually affect muscles in your back, arms and legs and may cause you to fall to the ground. - Atonic seizures. Atonic seizures, also known as drop seizures, cause a loss of muscle control, which may cause you to suddenly collapse or fall down. - Clonic seizures. Clonic seizures are associated with repeated or rhythmic, jerking muscle movements. These seizures usually affect the neck, face and arms. - Myoclonic seizures. Myoclonic seizures usually appear as sudden brief jerks or twitches of your arms and legs. - Tonic-clonic seizures. Tonic-clonic seizures, previously known as grand mal seizures, are the most dramatic type of epileptic seizure and can cause an abrupt loss of consciousness, body stiffening and shaking, and sometimes loss of bladder control or biting your tongue. When to see a doctor Seek immediate medical help if any of the following occurs: - The seizure lasts more than five minutes. - Breathing or consciousness doesn't return after the seizure stops. - A second seizure follows immediately. - You have a high fever. - You're experiencing heat exhaustion. - You're pregnant. - You have diabetes. - You've injured yourself during the seizure. If you experience a seizure for the first time, seek medical advice. Epilepsy has no identifiable cause in about half the people with the condition. In the other half, the condition may be traced to various factors, including: - Genetic influence. Some types of epilepsy, which are categorized by the type of seizure you experience or the part of the brain that is affected, run in families. In these cases, it's likely that there's a genetic influence. Researchers have linked some types of epilepsy to specific genes, but for most people, genes are only part of the cause of epilepsy. Certain genes may make a person more sensitive to environmental conditions that trigger seizures. - Head trauma. Head trauma as a result of a car accident or other traumatic injury can cause epilepsy. - Brain conditions. Brain conditions that cause damage to the brain, such as brain tumors or strokes, can cause epilepsy. Stroke is a leading cause of epilepsy in adults older than age 35. - Infectious diseases. Infectious diseases, such as meningitis, AIDS and viral encephalitis, can cause epilepsy. - Prenatal injury. Before birth, babies are sensitive to brain damage that could be caused by several factors, such as an infection in the mother, poor nutrition or oxygen deficiencies. This brain damage can result in epilepsy or cerebral palsy. - Developmental disorders. Epilepsy can sometimes be associated with developmental disorders, such as autism and neurofibromatosis. Certain factors may increase your risk of epilepsy: - Age. The onset of epilepsy is most common in children and older adults, but the condition can occur at any age. - Family history. If you have a family history of epilepsy, you may be at an increased risk of developing a seizure disorder. - Head injuries. Head injuries are responsible for some cases of epilepsy. You can reduce your risk by wearing a seat belt while riding in a car and by wearing a helmet while bicycling, skiing, riding a motorcycle or engaging in other activities with a high risk of head injury. - Stroke and other vascular diseases. Stroke and other blood vessel (vascular) diseases can lead to brain damage that may trigger epilepsy. You can take a number of steps to reduce your risk of these diseases, including limiting your intake of alcohol and avoiding cigarettes, eating a healthy diet, and exercising regularly. - Dementia. Dementia can increase the risk of epilepsy in older adults. - Brain infections. Infections such as meningitis, which causes inflammation in your brain or spinal cord, can increase your risk. - Seizures in childhood. High fevers in childhood can sometimes be associated with seizures. Children who have seizures due to high fevers generally won't develop epilepsy. The risk of epilepsy increases if a child has a long seizure, another nervous system condition or a family history of epilepsy. To diagnose your condition, your doctor will review your symptoms and medical history. Your doctor may order several tests to diagnose epilepsy and determine the cause of seizures. Your evaluation may include: - A neurological exam. Your doctor may test your behavior, motor abilities, mental function and other areas to diagnose your condition and determine the type of epilepsy you may have. - Blood tests. Your doctor may take a blood sample to check for signs of infections, genetic conditions or other conditions that may be associated with seizures. Your doctor may also suggest tests to detect brain abnormalities, such as: - Electroencephalogram (EEG). This is the most common test used to diagnose epilepsy. In this test, doctors attach electrodes to your scalp with a paste-like substance. The electrodes record the electrical activity of your brain. If you have epilepsy, it's common to have changes in your normal pattern of brain waves, even when you're not having a seizure. Your doctor may monitor you on video while conducting an EEG while you're awake or asleep, to record any seizures you experience. Recording the seizures may help the doctor determine what kind of seizures you're having or rule out other conditions. Your doctor may give you instructions to do something that will cause seizures, such as getting little sleep prior to the test. - High-density EEG. In a variation of an EEG test, your doctor may recommend high-density EEG, which spaces electrodes more closely than conventional EEG - about a half a centimeter apart. High-density EEG may help your doctor more precisely determine which areas of your brain are affected by seizures. - Computerized tomography (CT) scan. A CT scan uses X-rays to obtain cross-sectional images of your brain. CT scans can reveal abnormalities in your brain that might be causing your seizures, such as tumors, bleeding and cysts. - Magnetic resonance imaging (MRI). An MRI uses powerful magnets and radio waves to create a detailed view of your brain. Your doctor may be able to detect lesions or abnormalities in your brain that could be causing your seizures. - Functional MRI (fMRI). A functional MRI measures the changes in blood flow that occur when specific parts of your brain are working. Doctors may use an fMRI before surgery to identify the exact locations of critical functions, such as speech and movement, so that surgeons can avoid injuring those places while operating. - Positron emission tomography (PET). PET scans use a small amount of low-dose radioactive material that's injected into a vein to help visualize active areas of the brain and detect abnormalities. - Single-photon emission computerized tomography (SPECT). This type of test is used primarily if you've had an MRI and EEG that didn't pinpoint the location in your brain where the seizures are originating. A SPECT test uses a small amount of low-dose radioactive material that's injected into a vein to create a detailed, 3-D map of the blood flow activity in your brain during seizures. Doctors also may conduct a form of a SPECT test called subtraction ictal SPECT coregistered to MRI (SISCOM), which may provide even more-detailed results. - Neuropsychological tests. In these tests, doctors assess your thinking, memory and speech skills. The test results help doctors determine which areas of your brain are affected. Along with your test results, your doctor may use a combination of analysis techniques to help pinpoint where in the brain seizures start: - Statistical parametric mapping (SPM). SPM is a method of comparing areas of the brain that have increased metabolism during seizures to normal brains, which can give doctors an idea of where seizures begin. - Curry analysis. Curry analysis is a technique that takes EEG data and projects it onto an MRI of the brain to show doctors where seizures are occurring. - Magnetoencephalography (MEG). MEG measures the magnetic fields produced by brain activity to identify potential areas of seizure onset. Accurate diagnosis of your seizure type and where seizures begin gives you the best chance for finding an effective treatment. Doctors generally begin by treating epilepsy with medication. If medications don't treat the condition, doctors may propose surgery or another type of treatment. Medication Most people with epilepsy can become seizure-free by taking one anti-seizure medication, which is also called anti-epileptic medication. Others may be able to decrease the frequency and intensity of their seizures by taking a combination of medications. Many children with epilepsy who aren't experiencing epilepsy symptoms can eventually discontinue medications and live a seizure-free life. Many adults can discontinue medications after two or more years without seizures. Your doctor will advise you about the appropriate time to stop taking medications. Finding the right medication and dosage can be complex. Your doctor will consider your condition, frequency of seizures, your age and other factors when choosing which medication to prescribe. Your doctor will also review any other medications you may be taking, to ensure the anti-epileptic medications won't interact with them. Your doctor likely will first prescribe a single medication at a relatively low dosage and may increase the dosage gradually until your seizures are well-controlled. Anti-seizure medications may have some side effects. Mild side effects include: - Fatigue - Dizziness - Weight gain - Loss of bone density - Skin rashes - Loss of coordination - Speech problems - Memory and thinking problems More-severe but rare side effects include: - Depression - Suicidal thoughts and behaviors - Severe rash - Inflammation of certain organs, such as your liver To achieve the best seizure control possible with medication, follow these steps: - Take medications exactly as prescribed. - Always call your doctor before switching to a generic version of your medication or taking other prescription medications, over-the-counter drugs or herbal remedies. - Never stop taking your medication without talking to your doctor. - Notify your doctor immediately if you notice new or increased feelings of depression, suicidal thoughts, or unusual changes in your mood or behaviors. - Tell your doctor if you have migraines. Doctors may prescribe one of the anti-epileptic medications that can prevent your migraines and treat epilepsy. At least half the people newly diagnosed with epilepsy will become seizure-free with their first medication. If anti-epileptic medications don't provide satisfactory results, your doctor may suggest surgery or other therapies. You'll have regular follow-up appointments with your doctor to evaluate your condition and medications. Surgery When medications fail to provide adequate control over seizures, surgery may be an option. With epilepsy surgery, a surgeon removes the area of your brain that's causing seizures. Doctors usually perform surgery when tests show that: - Your seizures originate in a small, well-defined area of your brain - The area in your brain to be operated on doesn't interfere with vital functions such as speech, language, motor function, vision or hearing Although many people continue to need some medication to help prevent seizures after successful surgery, you may be able to take fewer drugs and reduce your dosages. In a small number of cases, surgery for epilepsy can cause complications such as permanently altering your thinking (cognitive) abilities. Talk to your surgeon about his or her experience, success rates, and complication rates with the procedure you're considering. Therapies Apart from medications and surgery, these potential therapies offer an alternative for treating epilepsy: - Vagus nerve stimulation. In vagus nerve stimulation, doctors implant a device called a vagus nerve stimulator underneath the skin of your chest, similar to a heart pacemaker. Wires from the stimulator are connected to the vagus nerve in your neck. The battery-powered device sends bursts of electrical energy through the vagus nerve and to your brain. It's not clear how this inhibits seizures, but the device can usually reduce seizures by 20 to 40 percent. Most people still need to take anti-epileptic medication, although some people may be able to lower their medication dose. You may experience side effects from vagus nerve stimulation, such as throat pain, hoarse voice, shortness of breath or coughing. - Ketogenic diet. Some children with epilepsy have been able to reduce their seizures by following a strict diet that's high in fats and low in carbohydrates. In this diet, called a ketogenic diet, the body breaks down fats instead of carbohydrates for energy. After a few years, some children may be able to stop the ketogenic diet - under close supervision of their doctors - and remain seizure-free. Consult a doctor if you or your child is considering a ketogenic diet. It's important to make sure that your child doesn't become malnourished when following the diet. Side effects of a ketogenic diet may include dehydration, constipation, slowed growth because of nutritional deficiencies and a buildup of uric acid in the blood, which can cause kidney stones. These side effects are uncommon if the diet is properly and medically supervised. Following a ketogenic diet can be a challenge. Low-glycemic index and modified Atkins diets offer less restrictive alternatives that may still provide some benefit for seizure control. Potential future treatments Researchers are studying many potential new treatments for epilepsy, including: - Deep brain stimulation. In deep brain stimulation, surgeons implant electrodes into a specific part of your brain, typically your thalamus. The electrodes are connected to a generator implanted in your chest or the skull that sends electrical pulses to your brain and may reduce your seizures. - Responsive neurostimulation. Implantable, pacemaker-like devices that help prevent seizures are also under investigation. These responsive stimulation or closed loop devices analyze brain activity patterns to detect seizures before they happen and deliver an electrical charge or drug to stop the seizure. - Continuous stimulation of the seizure onset zone (subthreshold stimulation). Subthreshold stimulation - continuous stimulation to an area of your brain below a level that's physically noticeable - appears to improve seizure outcomes and quality of life for some people with seizures. This treatment approach may work in people who have seizures that start in an area of the brain that can't be removed because it would affect speech and motor functions (eloquent area). Or it might benefit people whose seizure characteristics mean their chances of successful treatment with responsive neurostimulation are low. - Minimally invasive surgery. New minimally invasive surgical techniques, such as MRI-guided laser ablation, show promise at reducing seizures with fewer risks than traditional open brain surgery for epilepsy. - Stereotactic laser ablation or radiosurgery. For some types of epilepsy, stereotactic laser ablation or stereotactic radiosurgery may provide effective treatment for people in which an open procedure may be too risky. In these procedures, doctors direct radiation at the specific area in the brain causing seizures, to destroy that tissue in an effort to better control the seizures. - External nerve stimulation device. Similar to vagus nerve stimulation, this device would stimulate specific nerves to reduce frequency of seizures. But unlike vagus nerve stimulation, this device would be worn externally so that no surgery to implant the device is needed. Understanding your condition can help you take better control of it: - Take your medication correctly. Don't adjust your dosage before talking to your doctor. If you feel your medication should be changed, discuss it with your doctor. - Get enough sleep. Lack of sleep can trigger seizures. Be sure to get adequate rest every night. - Wear a medical alert bracelet. This will help emergency personnel know how to treat you correctly. - Exercise. Exercising may help keep you physically healthy and reduce depression. Make sure to drink enough water, and rest if you get tired during exercise. In addition, make healthy life choices, such as managing stress, limiting alcoholic beverages and avoiding cigarettes.

what is epilepsy

Causes of congenital heart defects are unknown. The risk factors for these problems that occur early in the baby's heart development include: having rubella during pregnancy; uncontrolled diabetes; taking medications known to increase the risk of congenital heart defects, such as thalidomide (Thalomid), angiotensin-converting enzyme (ACE) inhibitors, statins, the acne medication isotretinoin (Absorica, Amnesteem, Claravis) and lithium. Other factors are smoking, drinking alcohol during pregnancy, and genetic syndromes, such as Down syndrome. A genetic counselor can estimate the odds that a child will have a genetic disorder.

Congenital heart defects in children (Risk factors): Most congenital heart defects result from problems early in your child's heart development, the cause of which is unknown. However, certain environmental and genetic risk factors may play a role. They include: - Rubella (German measles). Having rubella during pregnancy can cause problems in your baby's heart development. Your doctor can test you for immunity to this viral disease before pregnancy and vaccinate you against it if you aren't immune. - Diabetes. You can reduce the risk of congenital heart defects by carefully controlling your diabetes before attempting to conceive and during pregnancy. Gestational diabetes generally doesn't increase your baby's risk of developing a heart defect. - Medications. Certain medications taken during pregnancy may cause birth defects, including congenital heart defects. Give your doctor a complete list of medications you take before attempting to become pregnant. Medications known to increase the risk of congenital heart defects include thalidomide (Thalomid), angiotensin-converting enzyme (ACE) inhibitors, statins, the acne medication isotretinoin (Absorica, Amnesteem, Claravis) and lithium. - Drinking alcohol during pregnancy. Avoid alcohol during pregnancy because it increases the risk of congenital heart defects. - Smoking. Smoking during pregnancy increases the likelihood of a congenital heart defect in the baby. - Heredity. Congenital heart defects sometimes run in families and may be associated with a genetic syndrome. Many children with Down syndrome - which is caused by an extra 21st chromosome (trisomy 21) - have heart defects. A missing piece (deletion) of genetic material on chromosome 22 also causes heart defects. Genetic testing can detect such disorders during fetal development. If you already have a child with a congenital heart defect, a genetic counselor can estimate the odds that your next child will have one.

what is the cause of congenital heart defects

Rheumatoid arthritis can be difficult to diagnose in its early stages the symptoms can be the same as in other kinds of joint disease. There is no one blood test or physical finding to confirm the diagnosis. To diagnose rheumatoid arthritis, doctors use medical history, a physical exam, x-rays and other imaging tests, such as MRI and ultrasound tests, and lab tests. During physical exams doctors may check your reflexes and muscle strength. Blood tests often show elevated erythrocyte sedimentation rate (ESR, or sed rate) or C-reactive protein (CRP), which may indicate the presence of an inflammatory process in the body. Other common blood tests look for rheumatoid factor and anti-cyclic citrullinated peptide (anti-CCP) antibodies.

Rheumatoid arthritis: Rheumatoid arthritis is a chronic inflammatory disorder that can affect more than just your joints. In some people, the condition also can damage a wide variety of body systems, including the skin, eyes, lungs, heart and blood vessels. An autoimmune disorder, rheumatoid arthritis occurs when your immune system mistakenly attacks your own body's tissues. Unlike the wear-and-tear damage of osteoarthritis, rheumatoid arthritis affects the lining of your joints, causing a painful swelling that can eventually result in bone erosion and joint deformity. The inflammation associated with rheumatoid arthritis is what can damage other parts of the body as well. While new types of medications have improved treatment options dramatically, severe rheumatoid arthritis can still cause physical disabilities. Signs and symptoms of rheumatoid arthritis may include: - Tender, warm, swollen joints - Joint stiffness that is usually worse in the mornings and after inactivity - Fatigue, fever and weight loss Early rheumatoid arthritis tends to affect your smaller joints first - particularly the joints that attach your fingers to your hands and your toes to your feet. As the disease progresses, symptoms often spread to the wrists, knees, ankles, elbows, hips and shoulders. In most cases, symptoms occur in the same joints on both sides of your body. About 40 percent of the people who have rheumatoid arthritis also experience signs and symptoms that don't involve the joints. Rheumatoid arthritis can affect many nonjoint structures, including: - Skin - Eyes - Lungs - Heart - Kidneys - Salivary glands - Nerve tissue - Bone marrow - Blood vessels Rheumatoid arthritis signs and symptoms may vary in severity and may even come and go. Periods of increased disease activity, called flares, alternate with periods of relative remission - when the swelling and pain fade or disappear. Over time, rheumatoid arthritis can cause joints to deform and shift out of place. Make an appointment with your doctor if you have persistent discomfort and swelling in your joints. Rheumatoid arthritis occurs when your immune system attacks the synovium - the lining of the membranes that surround your joints. The resulting inflammation thickens the synovium, which can eventually destroy the cartilage and bone within the joint. The tendons and ligaments that hold the joint together weaken and stretch. Gradually, the joint loses its shape and alignment. Doctors don't know what starts this process, although a genetic component appears likely. While your genes don't actually cause rheumatoid arthritis, they can make you more susceptible to environmental factors - such as infection with certain viruses and bacteria - that may trigger the disease. Factors that may increase your risk of rheumatoid arthritis include: - Your sex. Women are more likely than men to develop rheumatoid arthritis. - Age. Rheumatoid arthritis can occur at any age, but it most commonly begins between the ages of 40 and 60. - Family history. If a member of your family has rheumatoid arthritis, you may have an increased risk of the disease. - Smoking. Cigarette smoking increases your risk of developing rheumatoid arthritis, particularly if you have a genetic predisposition for developing the disease. Smoking also appears to be associated with greater disease severity. - Environmental exposures. Although uncertain and poorly understood, some exposures such as asbestos or silica may increase the risk for developing rheumatoid arthritis. Emergency workers exposed to dust from the collapse of the World Trade Center are at higher risk of autoimmune diseases such as rheumatoid arthritis. - Obesity. People who are overweight or obese appear to be at somewhat higher risk of developing rheumatoid arthritis, especially in women diagnosed with the disease when they were 55 or younger. Rheumatoid arthritis can be difficult to diagnose in its early stages because the early signs and symptoms mimic those of many other diseases. There is no one blood test or physical finding to confirm the diagnosis. During the physical exam, your doctor will check your joints for swelling, redness and warmth. He or she may also check your reflexes and muscle strength. Blood tests People with rheumatoid arthritis often have an elevated erythrocyte sedimentation rate (ESR, or sed rate) or C-reactive protein (CRP), which may indicate the presence of an inflammatory process in the body. Other common blood tests look for rheumatoid factor and anti-cyclic citrullinated peptide (anti-CCP) antibodies. Imaging tests Your doctor may recommend X-rays to help track the progression of rheumatoid arthritis in your joints over time. MRI and ultrasound tests can help your doctor judge the severity of the disease in your body. There is no cure for rheumatoid arthritis. But recent discoveries indicate that remission of symptoms is more likely when treatment begins early with strong medications known as disease-modifying antirheumatic drugs (DMARDs). Medications The types of medications recommended by your doctor will depend on the severity of your symptoms and how long you've had rheumatoid arthritis. - NSAIDs. Nonsteroidal anti-inflammatory drugs (NSAIDs) can relieve pain and reduce inflammation. Over-the-counter NSAIDs include ibuprofen (Advil, Motrin IB) and naproxen sodium (Aleve). Stronger NSAIDs are available by prescription. Side effects may include ringing in your ears, stomach irritation, heart problems, and liver and kidney damage. - Steroids. Corticosteroid medications, such as prednisone, reduce inflammation and pain and slow joint damage. Side effects may include thinning of bones, weight gain and diabetes. Doctors often prescribe a corticosteroid to relieve acute symptoms, with the goal of gradually tapering off the medication. - Disease-modifying antirheumatic drugs (DMARDs). These drugs can slow the progression of rheumatoid arthritis and save the joints and other tissues from permanent damage. Common DMARDs include methotrexate (Trexall, Otrexup, Rasuvo), leflunomide (Arava), hydroxychloroquine (Plaquenil) and sulfasalazine (Azulfidine). Side effects vary but may include liver damage, bone marrow suppression and severe lung infections. - Biologic agents. Also known as biologic response modifiers, this newer class of DMARDs includes abatacept (Orencia), adalimumab (Humira), anakinra (Kineret), certolizumab (Cimzia), etanercept (Enbrel), golimumab (Simponi), infliximab (Remicade), rituximab (Rituxan), tocilizumab (Actemra) and tofacitinib (Xeljanz). These drugs can target parts of the immune system that trigger inflammation that causes joint and tissue damage. These types of drugs also increase the risk of infections. Biologic DMARDs are usually most effective when paired with a nonbiologic DMARD, such as methotrexate. Therapy Your doctor may send you to a physical or occupational therapist who can teach you exercises to help keep your joints flexible. The therapist may also suggest new ways to do daily tasks, which will be easier on your joints. For example, if your fingers are sore, you may want to pick up an object using your forearms. Assistive devices can make it easier to avoid stressing your painful joints. For instance, a kitchen knife equipped with a saw handle helps protect your finger and wrist joints. Certain tools, such as buttonhooks, can make it easier to get dressed. Catalogs and medical supply stores are good places to look for ideas. Surgery If medications fail to prevent or slow joint damage, you and your doctor may consider surgery to repair damaged joints. Surgery may help restore your ability to use your joint. It can also reduce pain and correct deformities. Rheumatoid arthritis surgery may involve one or more of the following procedures: - Synovectomy. Surgery to remove the inflamed synovium (lining of the joint). Synovectomy can be performed on knees, elbows, wrists, fingers and hips. - Tendon repair. Inflammation and joint damage may cause tendons around your joint to loosen or rupture. Your surgeon may be able to repair the tendons around your joint. - Joint fusion. Surgically fusing a joint may be recommended to stabilize or realign a joint and for pain relief when a joint replacement isn't an option. - Total joint replacement. During joint replacement surgery, your surgeon removes the damaged parts of your joint and inserts a prosthesis made of metal and plastic. Surgery carries a risk of bleeding, infection and pain. Discuss the benefits and risks with your doctor. You can take steps to care for your body if you have rheumatoid arthritis. These self-care measures, when used along with your rheumatoid arthritis medications, can help you manage your signs and symptoms: - Exercise regularly. Gentle exercise can help strengthen the muscles around your joints, and it can help fight fatigue you might feel. Check with your doctor before you start exercising. If you're just getting started, begin by taking a walk. Try swimming or gentle water aerobics. Avoid exercising tender, injured or severely inflamed joints. - Apply heat or cold. Heat can help ease your pain and relax tense, painful muscles. Cold may dull the sensation of pain. Cold also has a numbing effect and decreases muscle spasms. - Relax. Find ways to cope with pain by reducing stress in your life. Techniques such as guided imagery, distraction and muscle relaxation can all be used to control pain. Some common complementary and alternative treatments that have shown promise for rheumatoid arthritis include: - Fish oil. Some preliminary studies have found that fish oil supplements may reduce rheumatoid arthritis pain and stiffness. Side effects can include nausea, belching and a fishy taste in the mouth. Fish oil can interfere with medications, so check with your doctor first. - Plant oils. The seeds of evening primrose, borage and black currant contain a type of fatty acid that may help with rheumatoid arthritis pain and morning stiffness. Side effects may include nausea, diarrhea and gas. Some plant oils can cause liver damage or interfere with medications, so check with your doctor first. - Tai chi. This movement therapy involves gentle exercises and stretches combined with deep breathing. Many people use tai chi to relieve stress in their lives. Small studies have found that tai chi may reduce rheumatoid arthritis pain. When led by a knowledgeable instructor, tai chi is safe. But don't do any moves that cause pain.

what test do you do for rheumatoid "arthritis?"

40% of the global population are at risk of dengue fever, which is found in the tropics worldwide, especially in Southeast Asia, the Pacific region, and the Americas, Of the 50 to 100 million cases of dengue fever that occur yearly, 500,000 lead to hospitalizations, and 20,000 to death worldwide. Dengue hemorrhagic fever and dengue shock syndrome occur most often in children under the age of 15 years.

Dengue fever (Summary): The following summary is from Orphanet, a European reference portal for information on rare diseases and orphan drugs. Orpha Number: 99828 Disease definition Dengue fever (DF), caused by dengue virus , is an arboviral disease characterized by an initial non-specific febrile illness that can sometimes progress to more severe forms manifesting capillary leakage and hemorrhage (dengue hemorrhagic fever, or DHF) and shock (dengue shock syndrome , or DSS). Epidemiology DF is found in the tropics worldwide, especially in Southeast Asia, the Pacific region, and the Americas, with 40% of the global population at risk. An estimated 50 to 100 million cases of DF, 500,000 hospitalizations, and 20,000 deaths occur yearly worldwide. Clinical description The vast majority of dengue virus infections result in DF, which is characterized by sudden onset of fever, malaise, headache (classically retro-orbital), and myalgia/arthralgia, often followed soon after by a petechial rash, which may be pruritic. In most cases, symptoms will resolve within 7 days without further complications. However, in a small minority of patients, a brief period of deffervescence is followed by worsening abdominal symptoms (pain, nausea, vomiting, diarrhea), thrombocytopenia , hemorrhage (DHF: epistaxis, bleeding gums, gastrointestinal bleeding) and a capillary leak syndrome (DSS: hemoconcentration, hypoalbuminemia, pleural effusion, shock). DHF/DSS are seen most often in children under the age of 15 years. Risk is greater with secondary heterologous infection by one of the four dengue virus serotypes, but severe disease may be seen with first infections. Etiology Over 25 different viruses cause viral hemorrhagic fever. Dengue virus belongs to the Flaviviridae family, genus Flavivirus. Four distinct serotypes, with significant strain variation, are recognized. Dengue viruses are maintained in humans and transmitted between them by the bite of infected mosquitoes, most commonly Aedes aegypti but also Aedes albopictus). Person-to-person transmission has not been reported. Diagnostic methods Common diagnostic modalities include serologic testing by enzyme linked immunosorbent assay (ELISA) and reverse transcription polymerase chain reaction (RT-PCR). Virus isolation may also be performed in specialized laboratories. The viremic phase of DF/DHF is usually brief (first 3-5 days of illness), after which time detection of anti-dengue IgM antibodies , which appear as early as 2-4 days after disease onset, is the mainstay. Numerous commercial ELISA assays are available with varying degrees of sensitivity and specificity. Differential diagnosis DF is difficult to distinguish from a host of other febrile illnesses such as malaria and typhoid fever (see these terms), especially early in the course of disease before the rash appears. For DHF/DSS, other viral hemorrhagic fevers, leptospirosis, rickettsial infection (see these terms) and meningococcemia need to be excluded. Management and treatment As there is presently no antiviral drug available for DF/DHF, treatment is supportive, following the guidelines for treatment of severe septicemia. Insecticide-treated bed nets, room screens and elimination of larval development sites should be used in open-air settings to prevent further transmission. Prognosis Case-fatality rates for DF are less than 1% but may rise to as high as 40% in DHF/DSS, largely dependent upon whether access to advanced medical care exists. Children and persons with underlying chronic diseases such as diabetes, heart disease, and asthma are at increased risk. The most severe phase of disease usually lasts only a few days and survivors generally have no lasting sequelae. Visit the Orphanet disease page for more resources.

who is at risk for contracting dengue fever? is there a certain age group or race that contracts dengue fever?

Antibiotics commonly prescribed to treat staph infections include certain cephalosporins, nafcillin or related antibiotics, sulfa drugs, or vancomycin given intravenously.

Staph infections: Staph infections are caused by staphylococcus bacteria, types of germs commonly found on the skin or in the nose of even healthy individuals. Most of the time, these bacteria cause no problems or result in relatively minor skin infections. But staph infections can turn deadly if the bacteria invade deeper into your body, entering your bloodstream, joints, bones, lungs or heart. A growing number of otherwise healthy people are developing life-threatening staph infections. Treatment usually involves antibiotics and drainage of the infected area. However, some staph infections no longer respond to common antibiotics. Staph infections can range from minor skin problems to endocarditis, a life-threatening infection of the inner lining of your heart (endocardium). As a result, signs and symptoms of staph infections vary widely, depending on the location and severity of the infection. Skin infections caused by staph bacteria include: - Boils. The most common type of staph infection is the boil, a pocket of pus that develops in a hair follicle or oil gland. The skin over the infected area usually becomes red and swollen. If a boil breaks open, it will probably drain pus. Boils occur most often under the arms or around the groin or buttocks. - Impetigo. This contagious, often painful rash can be caused by staph bacteria. Impetigo usually features large blisters that may ooze fluid and develop a honey-colored crust. - Cellulitis. Cellulitis - an infection of the deeper layers of skin - causes skin redness and swelling on the surface of your skin. Sores (ulcers) or areas of oozing discharge may develop, too. - Staphylococcal scalded skin syndrome. Toxins produced as a result of a staph infection may lead to staphylococcal scalded skin syndrome. Affecting mostly babies and children, this condition features fever, a rash and sometimes blisters. When the blisters break, the top layer of skin comes off - leaving a red, raw surface that looks like a burn. Staph bacteria are one of the most common causes of food poisoning. Symptoms come on quickly, usually within hours of eating a contaminated food. Symptoms usually disappear quickly, too, often lasting just half a day. A staph infection in food usually doesn't cause a fever. Signs and symptoms you can expect with this type of staph infection include: - Nausea and vomiting - Diarrhea - Dehydration - Low blood pressure Also known as blood poisoning, septicemia occurs when staph bacteria enter a person's bloodstream. A fever and low blood pressure are signs of septicemia. The bacteria can travel to locations deep within your body, to produce infections affecting: - Internal organs, such as your brain, heart or lungs - Bones and muscles - Surgically implanted devices, such as artificial joints or cardiac pacemakers This life-threatening condition results from toxins produced by some strains of staph bacteria and has been linked to certain types of tampons, skin wounds and surgery. It usually develops suddenly with: - A high fever - Nausea and vomiting - A rash on your palms and soles that resembles sunburn - Confusion - Muscle aches - Diarrhea - Abdominal pain Septic arthritis is often caused by a staph infection. The bacteria often target the knees, shoulders, hips, and fingers or toes. Signs and symptoms may include: - Joint swelling - Severe pain in the affected joint - Fever Go to the doctor if you or your child has: - An area of red, irritated or painful skin - Pus-filled blisters - Fever You may also want to consult your doctor if: - Skin infections are being passed from one family member to another - Two or more family members have skin infections at the same time Many people carry staph bacteria and never develop staph infections. However, if you develop a staph infection, there's a good chance that it's from bacteria you've been carrying around for some time. These bacteria can also be transmitted from person to person. Because staph bacteria are so hardy, they can live on inanimate objects such as pillowcases or towels long enough to transfer to the next person who touches them. Staph bacteria are able to survive: - Drying - Extremes of temperature - Stomach acid - High levels of salt A variety of factors - including the status of your immune system to the types of sports you play - can increase your risk of developing staph infections. Certain disorders or the medications used to treat them can make you more susceptible to staph infections. People who may be more likely to get a staph infection include those with: - Diabetes who use insulin - HIV/AIDS - Kidney failure requiring dialysis - Weakened immune systems - either from a disease or medications that suppress the immune system - Cancer, especially those who are undergoing chemotherapy or radiation - Skin damage from conditions such as eczema, insect bites or minor trauma that opens the skin - Respiratory illness, such as cystic fibrosis or emphysema Despite vigorous attempts to eradicate them, staph bacteria remain present in hospitals, where they attack the most vulnerable, including people with: - Weakened immune systems - Burns - Surgical wounds Staph bacteria can travel along the medical tubing that connects the outside world with your internal organs. Examples include: - Dialysis tubing - Urinary catheters - Feeding tubes - Breathing tubes - Intravascular catheters Staph bacteria can spread easily through cuts, abrasions and skin-to-skin contact. Staph infections may also spread in the locker room through shared razors, towels, uniforms or equipment. Food handlers who don't properly wash their hands can transfer staph from their skin to the food they're preparing. Foods that are contaminated with staph look and taste normal. If staph bacteria invade your bloodstream, you may develop a type of infection that affects your entire body. Called sepsis, this infection can lead to septic shock - a life-threatening episode with extremely low blood pressure. To diagnose a staph infection, your doctor will: - Perform a physical exam. During the exam, your doctor will closely examine any skin lesions you may have. - Collect a sample for testing. Most often, doctors diagnose staph infections by checking a tissue sample or nasal secretions for signs of the bacteria. Treatment of a staph infection may include: - Antibiotics. Your doctor may perform tests to identify of the staph bacteria behind your infection, and to help choose the antibiotic that will work best. Antibiotics commonly prescribed to treat staph infections include certain cephalosporins, nafcillin or related antibiotics, sulfa drugs, or vancomycin. Vancomycin increasingly is required to treat serious staph infections because so many strains of staph bacteria have become resistant to other traditional medicines. But vancomycin and some other antibiotics have to be given intravenously. If you're given an oral antibiotic, be sure to take it as directed, and to finish all of the medication prescribed by your doctor. Ask your doctor what signs and symptoms you should watch for that might indicate your infection is worsening. - Wound drainage. If you have a skin infection, your doctor will likely make an incision into the sore to drain fluid that has collected there. - Device removal. If your infection involves a device or prosthetic, prompt removal of the device is needed. For some devices, removal might require surgery. Antibiotic resistance Staph bacteria are very adaptable, and many varieties have become resistant to one or more antibiotics. For example, only about 10 percent of today's staph infections can be cured with penicillin. The emergence of antibiotic-resistant strains of staph bacteria - often described as methicillin-resistant Staphylococcus aureus (MRSA) strains - has led to the use of IV antibiotics, such as vancomycin, with the potential for more side effects, such as vancomycin.

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Cystic Fibrosis affects males and females of all racial and ethnic groups. However, it is most prevalent among Latinos and American Indians, especially the Pueblo and Zuni. Cystic Fibrosis is less common among African Americans and Asian Americans. In all, more than 10 million Americans are carriers of a faulty CF gene.

Cystic Fibrosis: Cystic fibrosis (SIS-tik fi-BRO-sis), or CF, is an inherited disease of the secretory (see-KREH-tor-ee) glands. Secretory glands include glands that make mucus and sweat. "Inherited" means the disease is passed from parents to children through genes. People who have CF inherit two faulty genes for the disease—one from each parent. The parents likely don't have the disease themselves. CF mainly affects the lungs, pancreas, liver, intestines, sinuses, and sex organs. Overview Mucus is a substance made by tissues that line some organs and body cavities, such as the lungs and nose. Normally, mucus is a slippery, watery substance. It keeps the linings of certain organs moist and prevents them from drying out or getting infected. If you have CF, your mucus becomes thick and sticky. It builds up in your lungs and blocks your airways. (Airways are tubes that carry air in and out of your lungs.) The buildup of mucus makes it easy for bacteria to grow. This leads to repeated, serious lung infections. Over time, these infections can severely damage your lungs. The thick, sticky mucus also can block tubes, or ducts, in your pancreas (an organ in your abdomen). As a result, the digestive enzymes that your pancreas makes can't reach your small intestine. These enzymes help break down food. Without them, your intestines can't fully absorb fats and proteins. This can cause vitamin deficiency and malnutrition because nutrients pass through your body without being used. You also may have bulky stools, intestinal gas, a swollen belly from severe constipation, and pain or discomfort. CF also causes your sweat to become very salty. Thus, when you sweat, you lose large amounts of salt. This can upset the balance of minerals in your blood and cause many health problems. Examples of these problems include dehydration (a lack of fluid in your body), increased heart rate, fatigue (tiredness), weakness, decreased blood pressure, heat stroke, and, rarely, death. If you or your child has CF, you're also at higher risk for diabetes or two bone-thinning conditions called osteoporosis (OS-te-o-po-RO-sis) and osteopenia (OS-te-o-PEE-nee-uh). CF also causes infertility in men, and the disease can make it harder for women to get pregnant. (The term "infertility" refers to the inability to have children.) Outlook The symptoms and severity of CF vary. If you or your child has the disease, you may have serious lung and digestive problems. If the disease is mild, symptoms may not show up until the teen or adult years. The symptoms and severity of CF also vary over time. Sometimes you'll have few symptoms. Other times, your symptoms may become more severe. As the disease gets worse, you'll have more severe symptoms more often. Lung function often starts to decline in early childhood in people who have CF. Over time, damage to the lungs can cause severe breathing problems. Respiratory failure is the most common cause of death in people who have CF. As treatments for CF continue to improve, so does life expectancy for those who have the disease. Today, some people who have CF are living into their forties or fifties, or longer. Early treatment for CF can improve your quality of life and increase your lifespan. Treatments may include nutritional and respiratory therapies, medicines, exercise, and other treatments. Your doctor also may recommend pulmonary rehabilitation (PR). PR is a broad program that helps improve the well-being of people who have chronic (ongoing) breathing problems. Cystic fibrosis of the pancreas Fibrocystic disease of the pancreas Mucoviscidosis (MU-ko-vis-ih-DO-sis) Mucoviscidosis of the pancreas Pancreas fibrocystic disease Pancreatic cystic fibrosis A defect in the CFTR gene causes cystic fibrosis (CF). This gene makes a protein that controls the movement of salt and water in and out of your body's cells. In people who have CF, the gene makes a protein that doesn't work well. This causes thick, sticky mucus and very salty sweat. Research suggests that the CFTR protein also affects the body in other ways. This may help explain other symptoms and complications of CF. More than a thousand known defects can affect the CFTR gene. The type of defect you or your child has may affect the severity of CF. Other genes also may play a role in the severity of the disease. How Is Cystic Fibrosis Inherited? Every person inherits two CFTR genes—one from each parent. Children who inherit a faulty CFTR gene from each parent will have CF. Children who inherit one faulty CFTR gene and one normal CFTR gene are "CF carriers." CF carriers usually have no symptoms of CF and live normal lives. However, they can pass the faulty CFTR gene to their children. The image below shows how two parents who are both CF carriers can pass the faulty CFTR gene to their children. Example of an Inheritance Pattern for Cystic Fibrosis Cystic fibrosis (CF) affects both males and females and people from all racial and ethnic groups. However, the disease is most common among Caucasians of Northern European descent. CF also is common among Latinos and American Indians, especially the Pueblo and Zuni. The disease is less common among African Americans and Asian Americans. More than 10 million Americans are carriers of a faulty CF gene. Many of them don't know that they're CF carriers. The signs and symptoms of cystic fibrosis (CF) vary from person to person and over time. Sometimes you'll have few symptoms. Other times, your symptoms may become more severe. One of the first signs of CF that parents may notice is that their baby's skin tastes salty when kissed, or the baby doesn't pass stool when first born. Most of the other signs and symptoms of CF happen later. They're related to how CF affects the respiratory, digestive, or reproductive systems of the body. Cystic Fibrosis Respiratory System Signs and Symptoms People who have CF have thick, sticky mucus that builds up in their airways. This buildup of mucus makes it easier for bacteria to grow and cause infections. Infections can block the airways and cause frequent coughing that brings up thick sputum (spit) or mucus that's sometimes bloody. People who have CF tend to have lung infections caused by unusual germs that don't respond to standard antibiotics. For example, lung infections caused by bacteria called mucoid Pseudomonas are much more common in people who have CF than in those who don't. An infection caused by these bacteria may be a sign of CF. People who have CF have frequent bouts of sinusitis (si-nu-SI-tis), an infection of the sinuses. The sinuses are hollow air spaces around the eyes, nose, and forehead. Frequent bouts of bronchitis (bron-KI-tis) and pneumonia (nu-MO-ne-ah) also can occur. These infections can cause long-term lung damage. As CF gets worse, you may have more serious problems, such as pneumothorax (noo-mo-THOR-aks) or bronchiectasis (brong-ke-EK-ta-sis). Some people who have CF also develop nasal polyps (growths in the nose) that may require surgery. Digestive System Signs and Symptoms In CF, mucus can block tubes, or ducts, in your pancreas (an organ in your abdomen). These blockages prevent enzymes from reaching your intestines. As a result, your intestines can't fully absorb fats and proteins. This can cause ongoing diarrhea or bulky, foul-smelling, greasy stools. Intestinal blockages also may occur, especially in newborns. Too much gas or severe constipation in the intestines may cause stomach pain and discomfort. A hallmark of CF in children is poor weight gain and growth. These children are unable to get enough nutrients from their food because of the lack of enzymes to help absorb fats and proteins. As CF gets worse, other problems may occur, such as: Pancreatitis (PAN-kre-ah-TI-tis). This is a condition in which the pancreas become inflamed, which causes pain. Rectal prolapse. Frequent coughing or problems passing stools may cause rectal tissue from inside you to move out of your rectum. Liver disease due to inflamed or blocked bile ducts. Diabetes. Gallstones. Reproductive System Signs and Symptoms Men who have CF are infertile because they're born without a vas deferens. The vas deferens is a tube that delivers sperm from the testes to the penis. Women who have CF may have a hard time getting pregnant because of mucus blocking the cervix or other CF complications. Other Signs, Symptoms, and Complications Other signs and symptoms of CF are related to an upset of the balance of minerals in your blood. CF causes your sweat to become very salty. As a result, your body loses large amounts of salt when you sweat. This can cause dehydration (a lack of fluid in your body), increased heart rate, fatigue (tiredness), weakness, decreased blood pressure, heat stroke, and, rarely, death. CF also can cause clubbing and low bone density. Clubbing is the widening and rounding of the tips of your fingers and toes. This sign develops late in CF because your lungs aren't moving enough oxygen into your bloodstream. Low bone density also tends to occur late in CF. It can lead to bone-thinning disorders called osteoporosis and osteopenia. Doctors diagnose cystic fibrosis (CF) based on the results from various tests. Newborn Screening All States screen newborns for CF using a genetic test or a blood test. The genetic test shows whether a newborn has faulty CFTR genes. The blood test shows whether a newborn's pancreas is working properly. Sweat Test If a genetic test or blood test suggests CF, a doctor will confirm the diagnosis using a sweat test. This test is the most useful test for diagnosing CF. A sweat test measures the amount of salt in sweat. For this test, the doctor triggers sweating on a small patch of skin on an arm or leg. He or she rubs the skin with a sweat-producing chemical and then uses an electrode to provide a mild electrical current. This may cause a tingling or warm feeling. Sweat is collected on a pad or paper and then analyzed. The sweat test usually is done twice. High salt levels confirm a diagnosis of CF. Other Tests If you or your child has CF, your doctor may recommend other tests, such as: Genetic tests to find out what type of CFTR defect is causing your CF. A chest x ray. This test creates pictures of the structures in your chest, such as your heart, lungs, and blood vessels. A chest x ray can show whether your lungs are inflamed or scarred, or whether they trap air. A sinus x ray. This test may show signs of sinusitis, a complication of CF. Lung function tests. These tests measure how much air you can breathe in and out, how fast you can breathe air out, and how well your lungs deliver oxygen to your blood. A sputum culture. For this test, your doctor will take a sample of your sputum (spit) to see whether bacteria are growing in it. If you have bacteria called mucoid Pseudomonas, you may have more advanced CF that needs aggressive treatment. Prenatal Screening If you're pregnant, prenatal genetic tests can show whether your fetus has CF. These tests include amniocentesis (AM-ne-o-sen-TE-sis) and chorionic villus (ko-re-ON-ik VIL-us) sampling (CVS). In amniocentesis, your doctor inserts a hollow needle through your abdominal wall into your uterus. He or she removes a small amount of fluid from the sac around the baby. The fluid is tested to see whether both of the baby's CFTR genes are normal. In CVS, your doctor threads a thin tube through the vagina and cervix to the placenta. The doctor removes a tissue sample from the placenta using gentle suction. The sample is tested to see whether the baby has CF. Cystic Fibrosis Carrier Testing People who have one normal CFTR gene and one faulty CFTR gene are CF carriers. CF carriers usually have no symptoms of CF and live normal lives. However, carriers can pass faulty CFTR genes on to their children. If you have a family history of CF or a partner who has CF (or a family history of it) and you're planning a pregnancy, you may want to find out whether you're a CF carrier. A genetics counselor can test a blood or saliva sample to find out whether you have a faulty CF gene. This type of testing can detect faulty CF genes in 9 out of 10 cases. Cystic fibrosis (CF) has no cure. However, treatments have greatly improved in recent years. The goals of CF treatment include: Preventing and controlling lung infections Loosening and removing thick, sticky mucus from the lungs Preventing or treating blockages in the intestines Providing enough nutrition Preventing dehydration (a lack of fluid in the body) Depending on the severity of CF, you or your child may be treated in a hospital. Specialists Involved If you or your child has CF, you may be treated by a CF specialist. This is a doctor who is familiar with the complex nature of CF. Often, a CF specialist works with a medical team of nurses, physical therapists, dietitians, and social workers. CF specialists often are located at major medical centers. The United States also has more than 100 CF Care Centers. These centers have teams of doctors, nurses, dietitians, respiratory therapists, physical therapists, and social workers who have special training related to CF care. Most CF Care Centers have pediatric and adult programs or clinics. For more information about CF Care Centers, go to the Cystic Fibrosis Foundation's Care Center Network Web page. Treatment for Lung Problems The main treatments for lung problems in people who have CF are chest physical therapy (CPT), exercise, and medicines. Your doctor also may recommend a pulmonary rehabilitation (PR) program. Chest Physical Therapy CPT also is called chest clapping or percussion. It involves pounding your chest and back over and over with your hands or a device to loosen the mucus from your lungs so that you can cough it up. You might sit down or lie on your stomach with your head down while you do CPT. Gravity and force help drain the mucus from your lungs. Some people find CPT hard or uncomfortable to do. Several devices have been developed that may help with CPT, such as: An electric chest clapper, known as a mechanical percussor. An inflatable therapy vest that uses high-frequency airwaves to force the mucus that's deep in your lungs toward your upper airways so you can cough it up. A small, handheld device that you exhale through. The device causes vibrations that dislodge the mucus. A mask that creates vibrations that help break the mucus loose from your airway walls. Breathing techniques also may help dislodge mucus so you can cough it up. These techniques include forcing out a couple of short breaths or deeper breaths and then doing relaxed breathing. This may help loosen the mucus in your lungs and open your airways. Exercise Aerobic exercise that makes you breathe harder can help loosen the mucus in your airways so you can cough it up. Exercise also helps improve your overall physical condition. However, CF causes your sweat to become very salty. As a result, your body loses large amounts of salt when you sweat. Thus, your doctor may recommend a high-salt diet or salt supplements to maintain the balance of minerals in your blood. If you exercise regularly, you may be able to cut back on your CPT. However, you should check with your doctor first. Medicines If you have CF, your doctor may prescribe antibiotics, anti-inflammatory medicines, bronchodilators, or medicines to help clear the mucus. These medicines help treat or prevent lung infections, reduce swelling and open up the airways, and thin mucus. If you have mutations in a gene called G551D, which occurs in about 5 percent of people who have CF, your doctor may prescribe the oral medicine ivacaftor (approved for people with CF who are 6 years of age and older). Antibiotics are the main treatment to prevent or treat lung infections. Your doctor may prescribe oral, inhaled, or intravenous (IV) antibiotics. Oral antibiotics often are used to treat mild lung infections. Inhaled antibiotics may be used to prevent or control infections caused by the bacteria mucoid Pseudomonas. For severe or hard-to-treat infections, you may be given antibiotics through an IV tube (a tube inserted into a vein). This type of treatment may require you to stay in a hospital. Anti-inflammatory medicines can help reduce swelling in your airways due to ongoing infections. These medicines may be inhaled or oral. Bronchodilators help open the airways by relaxing the muscles around them. These medicines are inhaled. They're often taken just before CPT to help clear mucus out of your airways. You also may take bronchodilators before inhaling other medicines into your lungs. Your doctor may prescribe medicines to reduce the stickiness of your mucus and loosen it up. These medicines can help clear out mucus, improve lung function, and prevent worsening lung symptoms. Treatments for Advanced Lung Disease If you have advanced lung disease, you may need oxygen therapy. Oxygen usually is given through nasal prongs or a mask. If other treatments haven't worked, a lung transplant may be an option if you have severe lung disease. A lung transplant is surgery to remove a person's diseased lung and replace it with a healthy lung from a deceased donor. Pulmonary Rehabilitation Your doctor may recommend PR as part of your treatment plan. PR is a broad program that helps improve the well-being of people who have chronic (ongoing) breathing problems. PR doesn't replace medical therapy. Instead, it's used with medical therapy and may include: Exercise training Nutritional counseling Education on your lung disease or condition and how to manage it Energy-conserving techniques Breathing strategies Psychological counseling and/or group support PR has many benefits. It can improve your ability to function and your quality of life. The program also may help relieve your breathing problems. Even if you have advanced lung disease, you can still benefit from PR. For more information, go to the Health Topics Pulmonary Rehabilitation article. Treatment for Digestive Problems CF can cause many digestive problems, such as bulky stools, intestinal gas, a swollen belly, severe constipation, and pain or discomfort. Digestive problems also can lead to poor growth and development in children. Nutritional therapy can improve your strength and ability to stay active. It also can improve growth and development in children. Nutritional therapy also may make you strong enough to resist some lung infections. A nutritionist can help you create a nutritional plan that meets your needs. In addition to having a well-balanced diet that's rich in calories, fat, and protein, your nutritional therapy may include: Oral pancreatic enzymes to help you digest fats and proteins and absorb more vitamins. Supplements of vitamins A, D, E, and K to replace the fat-soluble vitamins that your intestines can't absorb. High-calorie shakes to provide you with extra nutrients. A high-salt diet or salt supplements that you take before exercising. A feeding tube to give you more calories at night while you're sleeping. The tube may be threaded through your nose and throat and into your stomach. Or, the tube may be placed directly into your stomach through a surgically made hole. Before you go to bed each night, you'll attach a bag with a nutritional solution to the entrance of the tube. It will feed you while you sleep. Other treatments for digestive problems may include enemas and mucus-thinning medicines to treat intestinal blockages. Sometimes surgery is needed to remove an intestinal blockage. Your doctor also may prescribe medicines to reduce your stomach acid and help oral pancreatic enzymes work better. Treatments for Cystic Fibrosis Complications A common complication of CF is diabetes. The type of diabetes associated with CF often requires different treatment than other types of diabetes. Another common CF complication is the bone-thinning disorder osteoporosis. Your doctor may prescribe medicines that prevent your bones from losing their density. If you or your child has cystic fibrosis (CF), you should learn as much as you can about the disease. Work closely with your doctors to learn how to manage CF. Ongoing Care Having ongoing medical care by a team of doctors, nurses, and respiratory therapists who specialize in CF is important. These specialists often are located at major medical centers or CF Care Centers. The United States has more than 100 CF Care Centers. Most of these centers have pediatric and adult programs or clinics. For more information about CF Care Centers, go to the Cystic Fibrosis Foundation's Care Center Network Web page. It's standard to have CF checkups every 3 months. Talk with your doctor about whether you should get an annual flu shot and other vaccines. Take all of your medicines as your doctor prescribes. In between checkups, be sure to contact your doctor if you have: Blood in your mucus, increased amounts of mucus, or a change in the color or consistency of your mucus. Decreased energy or appetite. Severe constipation or diarrhea, severe abdominal pain, or vomit that's dark green. A fever, which is a sign of infection. (However, you may still have a serious infection that needs treatment even if you don't have a fever.) Transition of Care Better treatments for CF allow people who have the disease to live longer now than in the past. Thus, the move from pediatric care to adult care is an important step in treatment. If your child has CF, encourage him or her to learn about the disease and take an active role in treatment. This will help prepare your child for the transition to adult care. CF Care Centers can help provide age-appropriate treatment throughout the transition period and into adulthood. They also will support the transition to adult care by balancing medical needs with other developmental factors, such as increased independence, relationships, and employment. Talk with your child's health care team for more information about how to help your child move from pediatric care to adult care. Lifestyle Changes In between medical checkups, you can practice good self-care and follow a healthy lifestyle. For example, follow a healthy diet. A healthy diet includes a variety of fruits, vegetables, and whole grains. Talk with your doctor about what types and amounts of foods you should include in your diet. Other lifestyle changes include: Not smoking and avoiding tobacco smoke Washing your hands often to lower your risk of infection Exercising regularly and drinking lots of fluids Doing chest physical therapy (as your doctor recommends) Other Concerns Although CF requires daily care, most people who have the disease are able to attend school and work. Adults who have CF can expect to have normal sex lives. Most men who have the disease are infertile (unable to have children). However, modern fertility treatments may help them. Women who have CF may find it hard to get pregnant, but they usually can have children. If you have CF, you should talk with your doctor if you're planning a pregnancy. Although CF can cause fertility problems, men and women who have the disease should still have protected sex to avoid sexually transmitted diseases. Emotional Issues Living with CF may cause fear, anxiety, depression, and stress. Talk about how you feel with your health care team. Talking to a professional counselor also can help. If you're very depressed, your doctor may recommend medicines or other treatments that can improve your quality of life. Joining a patient support group may help you adjust to living with CF. You can see how other people who have the same symptoms have coped with them. Talk with your doctor about local support groups or check with an area medical center. Support from family and friends also can help relieve stress and anxiety. Let your loved ones know how you feel and what they can do to help you.

how common is cystic fibrosis

Cystic Fibrosis occurs in all races. However, it is most common in white people of Northern European ancestry.

Cystic fibrosis: Cystic fibrosis is an inherited disorder that causes severe damage to the lungs, digestive system and other organs in the body. Cystic fibrosis affects the cells that produce mucus, sweat and digestive juices. These secreted fluids are normally thin and slippery. But in people with cystic fibrosis, a defective gene causes the secretions to become sticky and thick. Instead of acting as a lubricant, the secretions plug up tubes, ducts and passageways, especially in the lungs and pancreas. Although cystic fibrosis requires daily care, people with the condition are usually able to attend school and work, and often have a better quality of life than people with cystic fibrosis had in previous decades. Improvements in screening and treatments mean people with cystic fibrosis now may live into their mid- to late 30s, on average, and some are living into their 40s and 50s. Cystic fibrosis care at Mayo Clinic Screening of newborns for cystic fibrosis is now performed in every state in the United States. As a result, the condition can be diagnosed within the first month of life, before symptoms develop. For people born before newborn screening was performed, it's important to be aware of the signs and symptoms of cystic fibrosis. Cystic fibrosis signs and symptoms vary, depending on the severity of the disease. Even in the same person, symptoms may worsen or improve as time passes. Some people may not experience symptoms until adolescence or adulthood. People with cystic fibrosis have a higher than normal level of salt in their sweat. Parents often can taste the salt when they kiss their children. Most of the other signs and symptoms of cystic fibrosis affect the respiratory system and digestive system. However, adults diagnosed with cystic fibrosis are more likely to have atypical symptoms, such as recurring bouts of inflamed pancreas (pancreatitis), infertility and recurring pneumonia. The thick and sticky mucus associated with cystic fibrosis clogs the tubes that carry air in and out of your lungs. This can cause signs and symptoms such as: - A persistent cough that produces thick mucus (sputum) - Wheezing - Breathlessness - Exercise intolerance - Repeated lung infections - Inflamed nasal passages or a stuffy nose The thick mucus can also block tubes that carry digestive enzymes from your pancreas to your small intestine. Without these digestive enzymes, your intestines aren't able to completely absorb the nutrients in the food you eat. The result is often: - Foul-smelling, greasy stools - Poor weight gain and growth - Intestinal blockage, particularly in newborns (meconium ileus) - Severe constipation Frequent straining while passing stool can cause part of the rectum - the end of the large intestine - to protrude outside the anus (rectal prolapse). When this occurs in children, it may be a sign of cystic fibrosis. Parents should consult a physician knowledgeable about cystic fibrosis. Rectal prolapse in children may sometimes require surgery. Rectal prolapse in children with cystic fibrosis is less common than it was in the past, which may be due to earlier testing, diagnosis and treatment of cystic fibrosis. If you or your child has symptoms of cystic fibrosis - or if someone in your family has cystic fibrosis - talk with your doctor about testing for the disease. Seek immediate medical care if you or your child has difficulty breathing. In cystic fibrosis, a defect (mutation) in a gene changes a protein that regulates the movement of salt in and out of cells. The result is thick, sticky mucus in the respiratory, digestive and reproductive systems, as well as increased salt in sweat. Many different defects can occur in the gene. The type of gene mutation is associated with the severity of the condition. Children need to inherit one copy of the gene from each parent in order to have the disease. If children inherit only one copy, they won't develop cystic fibrosis. However, they will be carriers and possibly pass the gene to their own children. - Family history. Because cystic fibrosis is an inherited disorder, it runs in families. - Race. Although cystic fibrosis occurs in all races, it is most common in white people of Northern European ancestry. - Damaged airways (bronchiectasis). Cystic fibrosis is one of the leading causes of bronchiectasis, a condition that damages the airways. This makes it harder to move air in and out of the lungs and clear mucus from the airways (bronchial tubes). - Chronic infections. Thick mucus in the lungs and sinuses provides an ideal breeding ground for bacteria and fungi. People with cystic fibrosis may often have sinus infections, bronchitis or pneumonia. - Growths in the nose (nasal polyps). Because the lining inside the nose is inflamed and swollen, it can develop soft, fleshy growths (polyps). - Coughing up blood (hemoptysis). Over time, cystic fibrosis can cause thinning of the airway walls. As a result, teenagers and adults with cystic fibrosis may cough up blood. - Pneumothorax. This condition, in which air collects in the space that separates the lungs from the chest wall, also is more common in older people with cystic fibrosis. Pneumothorax can cause chest pain and breathlessness. - Respiratory failure. Over time, cystic fibrosis can damage lung tissue so badly that it no longer works. Lung function usually worsens gradually, and it eventually can become life-threatening. - Acute exacerbations. People with cystic fibrosis may experience worsening of their respiratory symptoms, such as coughing and shortness of breath, for several days to weeks. This is called an acute exacerbation and requires treatment in the hospital. - Nutritional deficiencies. Thick mucus can block the tubes that carry digestive enzymes from your pancreas to your intestines. Without these enzymes, your body can't absorb protein, fats or fat-soluble vitamins. - Diabetes. The pancreas produces insulin, which your body needs to use sugar. Cystic fibrosis increases the risk of diabetes. Around 30 percent of people with cystic fibrosis develop diabetes by age 30. - Blocked bile duct. The tube that carries bile from your liver and gallbladder to your small intestine may become blocked and inflamed, leading to liver problems and sometimes gallstones. - Intestinal obstruction. Intestinal obstruction can happen to people with cystic fibrosis at all ages. Children and adults with cystic fibrosis are more likely than are infants to develop intussusception, a condition in which a section of the intestines folds in on itself like an accordion. - Distal intestinal obstruction syndrome (DIOS). DIOS is partial or complete obstruction where the small intestine meets the large intestine. Almost all men with cystic fibrosis are infertile because the tube that connects the testes and prostate gland (vas deferens) is either blocked with mucus or missing entirely. Certain fertility treatments and surgical procedures sometimes make it possible for men with cystic fibrosis to become biological fathers. Although women with cystic fibrosis may be less fertile than other women, it's possible for them to conceive and to have successful pregnancies. Still, pregnancy can worsen the signs and symptoms of cystic fibrosis, so be sure to discuss the possible risks with your doctor. - Thinning of the bones (osteoporosis). People with cystic fibrosis are at higher risk of developing a dangerous thinning of bones. - Electrolyte imbalances and dehydration. Because people with cystic fibrosis have saltier sweat, the balance of minerals in their blood may be upset. Signs and symptoms include increased heart rate, fatigue, weakness and low blood pressure. To diagnose cystic fibrosis, doctors may conduct several tests. Newborn screening and diagnosis Every state in the U.S. now routinely screens newborns for cystic fibrosis. Early diagnosis means treatment can begin immediately. In one screening test, a blood sample is checked for higher than normal levels of a chemical (immunoreactive trypsinogen, or IRT) released by the pancreas. A newborn's IRT levels may be high because of premature birth or a stressful delivery. For that reason other tests may be needed to confirm a diagnosis of cystic fibrosis. Genetic tests may be used in addition to checking the IRT levels to confirm the diagnosis. Doctors may also conduct genetic tests to test for specific defects on the gene responsible for cystic fibrosis. To evaluate if an infant has cystic fibrosis, doctors may also conduct a sweat test when the infant is at least 2 weeks old. In a sweat test, doctors apply a sweat-producing chemical to a small area of skin. They then collect the sweat to test it and see if it's saltier than normal. Testing may be done at a center specializing in cystic fibrosis. Testing of older children and adults Cystic fibrosis tests may be recommended for older children and adults who weren't screened at birth. Your doctor may suggest genetic and sweat tests for cystic fibrosis if you have recurring bouts of inflamed pancreas (pancreatitis), nasal polyps, chronic sinus or lung infections, bronchiectasis, or male infertility. There is no cure for cystic fibrosis, but treatment can ease symptoms and reduce complications. Close monitoring and early, aggressive intervention is recommended. Managing cystic fibrosis is complex, so consider obtaining treatment at a center staffed by doctors and other staff trained in cystic fibrosis. Doctors may work with a multidisciplinary team of doctors and medical professionals trained in cystic fibrosis to evaluate and treat your condition. The goals of treatment include: - Preventing and controlling infections that occur in the lungs - Removing and loosening mucus from the lungs - Treating and preventing intestinal blockage - Providing adequate nutrition Medications The options may include: - Antibiotics to treat and prevent lung infections - Anti-inflammatory medications to lessen swelling in the airways in your lungs - Mucus-thinning drugs to help you cough up the mucus, which can improve lung function - Inhaled medications called bronchodilators that can help keep your airways open by relaxing the muscles around your bronchial tubes - Oral pancreatic enzymes to help your digestive tract absorb nutrients For those with cystic fibrosis who have certain gene mutations, doctors may recommend a newer medication called ivacaftor (Kalydeco). This medication may improve lung function and weight, and reduce the amount of salt in sweat. It has been approved by the Food and Drug Administration for people with cystic fibrosis who are age 6 and older. The dose depends on your weight and age. Doctors may conduct liver function tests and eye examinations before prescribing ivacaftor and on a regular basis while you're taking it to check for side effects such as liver function abnormalities and cataracts. For people with a certain gene mutation who are age 12 and older, another drug (Orkambi) is available that combines ivacaftor with a medication called lumacaftor. The combination of these medications may improve lung function and reduce the risk of exacerbations. However, some people may experience side effects such as chest discomfort and shortness of breath soon after starting the medication. Some people may also have high blood pressure while taking the medication. Doctors may monitor you for any side effects. Chest physical therapy Loosening the thick mucus in the lungs makes it easier to cough up. Chest physical therapy helps loosen mucus. It is usually done from one to four times a day. A common technique is clapping with cupped hands on the front and back of the chest. Certain breathing techniques also may be used to help loosen the mucus. Your doctor will instruct you about the type of chest physical therapy he or she recommends for you. Mechanical devices also can help loosen lung mucus. These include a vibrating vest or a tube or mask you breathe into. Pulmonary rehabilitation Your doctor may recommend a long-term program that may improve your lung function and overall well-being. Pulmonary rehabilitation is usually done on an outpatient basis and may include: - Physical exercise that may improve your condition - Breathing techniques that may help loosen mucus and improve breathing - Nutritional counseling - Counseling and support - Education about your condition Surgical and other procedures - Nasal polyp removal. Your doctor may recommend surgery to remove nasal polyps that obstruct breathing. - Oxygen therapy. If your blood oxygen level declines, your doctor may recommend that you breathe pure oxygen to prevent high blood pressure in the lungs (pulmonary hypertension). - Endoscopy and lavage. Mucus may be suctioned from obstructed airways through an endoscope. - Feeding tube. Cystic fibrosis interferes with digestion, so you can't absorb nutrients from food very well. Your doctor may suggest temporarily using a feeding tube to deliver extra nutrition while you sleep. This tube may be inserted in your nose and guided to your stomach, or it may be surgically implanted into the abdomen. - Bowel surgery. If a blockage develops in your bowel, you may need surgery to remove it. Intussusception, where a section of bowel has folded in on itself, also may require surgical repair. - Lung transplant. If you have severe breathing problems, life-threatening lung complications or increasing resistance to antibiotics used to treat lung infections, lung transplantation may be an option. Because bacteria line the airways in diseases that cause permanent widening of the large airways (bronchiectasis), such as cystic fibrosis, both lungs need to be replaced. Cystic fibrosis does not recur in transplanted lungs. However, other complications associated with cystic fibrosis - such as sinus infections, diabetes, pancreas problems and osteoporosis - can still occur after a lung transplant. You can manage your condition and minimize complications in several ways. Always talk to your doctor before starting home remedies. Cystic fibrosis can cause malnourishment because the enzymes needed for digestion can't reach your small intestine, preventing food from being absorbed. People with cystic fibrosis may need a significantly higher number of calories daily than do people without the condition. A healthy diet is important to maintain good lung function. It's also important to drink lots of fluids, which can help thin the mucus in your lungs. You may work with a dietitian to develop a nutrition plan. Most people with cystic fibrosis need to take pancreatic enzyme capsules with every meal and snack. In addition, your doctor may recommend: - Antacids - Supplemental high-calorie nutrition - Special fat-soluble vitamins - Extra fiber to prevent intestinal blockage - Extra salt, especially during hot weather or before exercising - Adequate water during hot weather In addition to other usual childhood vaccines, people with cystic fibrosis should have the annual flu vaccine and any other vaccines their doctor recommends. Cystic fibrosis doesn't affect the immune system, but children with cystic fibrosis are more likely to develop complications when they become sick. Regular exercise helps loosen mucus in your airways, and strengthens your heart. For many people with cystic fibrosis, participating in sports can improve confidence and self-esteem. Anything that gets you moving, including walking and biking, can help. Don't smoke in your home or car, and don't allow other people to smoke around you or your child. Secondhand smoke is harmful for everyone, but especially for people with cystic fibrosis. Teach all the members of your family to wash their hands thoroughly before eating, after using the bathroom, when coming home from work or school, and after being around a person who is sick. Hand-washing is the best way to protect against infection. You'll have ongoing care from your doctor and other medical professionals. Make sure to attend your regular follow-up appointments. Take your medications as prescribed and follow therapies as instructed. Contact your doctor if you experience any signs or symptoms such as severe constipation, more mucus than usual, blood in your mucus or reduced energy.

how common is cystic fibrosis

Cystic Fibrosis is a disease that causes the build up of mucus, mainly in the lungs and digestive tract. It is one of the most common chronic lung diseases in children and young adults.

Cystic fibrosis: Cystic fibrosis is a disease that causes thick, sticky mucus to build up in the lungs, digestive tract, and other areas of the body. It is one of the most common chronic lung diseases in children and young adults. It is a life-threatening disorder. Cystic fibrosis (CF) is a disease that is passed down through families. It is caused by a defective gene that makes the body produce abnormally thick and sticky fluid, called mucus. This mucus builds up in the breathing passages of the lungs and in the pancreas. The buildup of mucus results in life-threatening lung infections and serious digestion problems. The disease may also affect the sweat glands and a man's reproductive system. Many people carry a CF gene, but do not have symptoms. This is because a person with CF must inherit 2 defective genes, 1 from each parent. Some white Americans have the CF gene. It is more common among those of northern or central European descent. Most children with CF are diagnosed by age 2. For a small number, the disease is not detected until age 18 or older. These children often have a milder form of the disease. Symptoms in newborns may include: - Delayed growth - Failure to gain weight normally during childhood - No bowel movements in first 24 to 48 hours of life - Salty-tasting skin Symptoms related to bowel function may include: - Belly pain from severe constipation - Increased gas, bloating, or a belly that appears swollen (distended) - Nausea and loss of appetite - Stools that are pale or clay-colored, foul smelling, have mucus, or that float - Weight loss Symptoms related to the lungs and sinuses may include: - Coughing or increased mucus in the sinuses or lungs - Fatigue - Nasal congestion caused by nasal polyps - Repeated episodes of pneumonia (symptoms of pneumonia in someone with cystic fibrosis include fever, increased coughing and shortness of breath, increased mucus, and loss of appetite) - Sinus pain or pressure caused by infection or polyps Symptoms that may be noticed later in life: - Infertility (in men) - Repeated inflammation of the pancreas (pancreatitis) - Respiratory symptoms - Clubbed fingers A blood test is done to help detect CF. The test looks for changes in the CF gene. Other tests used to diagnose CF include: - Immunoreactive trypsinogen (IRT) test is a standard newborn screening test for CF. A high level of IRT suggests possible CF and requires further testing. - Sweat chloride test is the standard diagnostic test for CF. A high salt level in the person's sweat is a sign of the disease. Other tests that identify problems that can be related to CF include: - Chest x-ray or CT scan - Fecal fat test - Lung function tests - Measurement of pancreatic function - Secretin stimulation test - Trypsin and chymotrypsin in stool - Upper GI and small bowel series An early diagnosis of CF and treatment plan can improve both survival and quality of life. Follow-up and monitoring are very important. When possible, care should be received at a cystic fibrosis specialty clinic. When children reach adulthood, they should transfer to a cystic fibrosis specialty center for adults. Treatment for lung problems includes: - Antibiotics to prevent and treat lung and sinus infections. They may be taken by mouth, or given in the veins or by breathing treatments. People with CF may take antibiotics only when needed, or all the time. Doses are often higher than normal. - Inhaled medicines to help open the airways. - Other medicines that are given by a breathing treatment to thin mucus and make it easier to cough up are DNAse enzyme. therapy and highly concentrated salt solutions (hypertonic saline). - Flu vaccine and pneumococcal polysaccharide vaccine (PPV) yearly (ask your health care provider). - Lung transplant is an option in some cases. - Oxygen therapy may be needed as lung disease gets worse. Lung problems are also treated with therapies to thin the mucus. This makes it easier to cough the mucus out of the lungs. These methods include: - Activity or exercise that causes you to breathe deeply - Devices that are used during the day to help clear the airways of too much mucus - Manual chest percussion (or chest physiotherapy), in which a family member or a therapist lightly claps the person's chest, back, and area under the arms Treatment for bowel and nutritional problems may include: - A special diet high in protein and calories for older children and adults - Pancreatic enzymes to help absorb fats and protein, which are taken with every meal - Vitamin supplements, especially vitamins A, D, E, and K - Your provider can advise other treatments if you have very hard stools Ivacaftor is a medicine that treats certain types of CF. It improves the function of one of the defective genes that causes CF. As a result, there is less buildup of thick mucus in the lungs. Other CF symptoms are improved as well. Care and monitoring at home should include: - Avoiding smoke, dust, dirt, fumes, household chemicals, fireplace smoke, and mold or mildew. - Giving plenty of fluids, especially to infants and children in hot weather, when there is diarrhea or loose stools, or during extra physical activity. - Exercising 2 or 3 times each week. Swimming, jogging, and cycling are good options. - Clearing or bringing up mucus or secretions from the airways. This must be done 1 to 4 times each day. Patients, families, and caregivers must learn about doing chest percussion and postural drainage to help keep the airways clear. You can ease the stress of illness by joining a cystic fibrosis support group. Sharing with others who have common experiences and problems can help your family to not feel alone. Most children with CF stay in good health until they reach adulthood. They are able to take part in most activities and attend school. Many young adults with CF finish college or find jobs. Lung disease eventually worsens to the point where the person is disabled. Today, the average life span for people with CF who live to adulthood is about 37 years. Death is most often caused by lung complications. The most common complication is chronic respiratory infection. Other complications include: - Bowel problems, such as gallstones, intestinal blockage, and rectal prolapse - Coughing up blood - Chronic respiratory failure - Diabetes - Infertility - Liver disease or liver failure, pancreatitis, biliary cirrhosis - Malnutrition - Nasal polyps and sinusitis - Osteoporosis and arthritis - Pneumonia that keeps coming back - Pneumothorax - Right-sided heart failure (cor pulmonale) Call your provider if an infant or child has symptoms of CF, and experiences: - Fever, increased coughing, changes in sputum or blood in sputum, loss of appetite, or other signs of pneumonia - Increased weight loss - More frequent bowel movements or stools that are foul-smelling or have more mucus - Swollen belly or increased bloating Call your provider if a person with CF develops new symptoms or if symptoms get worse, particularly severe breathing difficulty or coughing up blood. CF cannot be prevented. Screening those with a family history of the disease may detect the CF gene in many carriers. Updated by: Neil K. Kaneshiro, MD, MHA, Clinical Assistant Professor of Pediatrics, University of Washington School of Medicine, Seattle, WA. Also reviewed by David Zieve, MD, MHA, Isla Ogilvie, PhD, and the A.D.A.M. Editorial team.

how common is cystic fibrosis

Most causes of dementia are not preventable. The risk of vascular dementia may be reduced by lowering the risk of having a stroke. It is possible to do so by eating healthy foods, exercising, quitting smoking, controlling high blood pressure, and managing diabetes.

Dementia (Prevention): Most causes of dementia are not preventable. The risk of vascular dementia may be reduced by preventing strokes through: - Eating healthy foods - Exercising - Quitting smoking - Controlling high blood pressure - Managing diabetes

how do i prevent myself from having dementia

Symptoms of vascular dementia can begin suddenly and worsen or improve over one's lifetime. For this type of dementia, drugs that prevent strokes can be prescribed. These do not prevent the progression of the dementia, but do reduce the risk of brain damage caused by strokes.

Dementia (WHAT IS VASCULAR DEMENTIA?): Vascular dementia, considered the second most common form of dementia after Alzheimer's disease, and vascular cognitive impairment (VCI) result from injuries to the vessels supplying blood to the brain, often after a stroke or series of strokes. Vascular dementia and VCI arise as a result of risk factors that similarly increase the risk for cerebrovascular disease (such as stroke), including atrial fibrillation, hypertension (high blood pressure), diabetes, and high cholesterol. The symptoms of vascular dementia can be similar to those of Alzheimer's, and both conditions can occur at the same time. Symptoms of vascular dementia can begin suddenly and worsen or improve during one's lifetime.This type of dementia is often managed with drugs to prevent strokes. The aim is to reduce the risk of additional brain damage. Some studies suggest that drugs that improve memory in Alzheimer's disease might benefit people with early vascular dementia. Interventions that address risk factors may be incorporated into the management of vascular dementia.Some types of vascular dementia include:Multi-infarct dementia. This type of dementia occurs when a person has had many small strokes that damage brain cells. One side of the body may be disproportionally affected, and multi-infarct dementia may impair language or other functions, depending on the region of the brain that is affected. When the strokes occur on both sides of the brain, dementia is more likely than when stroke occurs on one side of the brain. In some cases, a single stroke can damage the brain enough to cause dementia. This so-called single-infarct dementia is more common when stroke affects the left side of the brain-where speech centers are located-and/or when it involves the hippocampus, the part of the brain that is vital for memory.Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL). This inherited form of cardiovascular disease results in a thickening of the walls of small- and medium-sized blood vessels, eventually stemming the flow of blood to the brain. It is associated with mutations of a gene called Notch3. CADASIL is associated with multi-infarct dementia, stroke, migraine with aura (migraine preceded by visual symptoms), and mood disorders. The first symptoms can appear in people between ages 20 and 40. Many people with CADASIL are undiagnosed. People with first-degree relatives who have CADASIL can be tested for genetic mutations to the Notch3 gene to determine their own risk of developing CADASIL.Subcortical vascular dementia, also called Binswanger's disease. This rare form of dementia involves extensive damage to the small blood vessels and nerve fibers that make up white matter, the "network" part of the brain believed to be critical for relaying messages between regions. The symptoms of Binswanger's are related to the disruption of subcortical neural circuits involving short-term memory, organization, mood, attention, decision making, and appropriate behavior. A characteristic feature of this disease is psychomotor slowness, such as an increase in the time it takes for a person to think of a letter and then write it on a piece of paper.For more information about vascular dementia and VCI, see NIA's list of resources.

how do i prevent myself from having dementia

There are two major types of diabetes, type 1 and type 2, as well as others that cannot be classified into type 1 and 2. Each has different causes and risk factors. In type 1, the body makes little or no insulin. This is because that the cells in the pancreas that make insulin stop working. The exact cause of this is unknown. In type 2 diabetes, the body is resistant to insulin, and doesn't use it efficiently as it should. The causes of other types of diabetes vary.

Diabetes (Causes): Insulin is a hormone produced by the pancreas to control blood sugar. Diabetes can be caused by too little insulin, resistance to insulin, or both. To understand diabetes, it is important to first understand the normal process by which food is broken down and used by the body for energy. Several things happen when food is digested: - A sugar called glucose enters the bloodstream. Glucose is a source of fuel for the body. - An organ called the pancreas makes insulin. The role of insulin is to move glucose from the bloodstream into muscle, fat, and liver cells, where it can be stored or used as fuel. People with diabetes have high blood sugar because their body cannot move sugar from the blood into muscle and fat cells to be burned or stored for energy, and/or because their liver makes too much glucose and releases it into the blood. This is because either: - Their pancreas does not make enough insulin - Their cells do not respond to insulin normally - Both of the above There are two major types of diabetes. The causes and risk factors are different for each type: - Type 1 diabetes can occur at any age, but it is most often diagnosed in children, teens, or young adults. In this disease, the body makes little or no insulin. This is because the pancreas cells that make insulin stop working. Daily injections of insulin are needed. The exact cause is unknown. - Type 2 diabetes is much more common. It most often occurs in adulthood, but because of high obesity rates, children and teens are now being diagnosed with this disease. Some people with type 2 diabetes do not know they have it. With type 2 diabetes, the body is resistant to insulin and doesn't use insulin as well as it should. - There are other causes of diabetes, and some people cannot be classified as type 1 or type 2. Gestational diabetes is high blood sugar that develops at any time during pregnancy in a woman who does not have diabetes. If your parent, brother, or sister has diabetes, you may be more likely to develop the disease.

how do people get diabetes

Lanreotide may be administered under the skin (subcutaneously), into the upper area of the buttock. A nurse or doctor will be able to do this for you.

Lanreotide Injection: Lanreotide injection is used to treat people with acromegaly (condition in which the body produces too much growth hormone, causing enlargement of the hands, feet, and facial features; joint pain; and other symptoms) who have not successfully, or cannot be treated with surgery or radiation. Lanreotide injection is also used to treat people with neuroendocrine tumors in the gastrointestinal (GI) tract or the pancreas (GEP-NETs) that have spread or cannot be removed by surgery. Lanreotide injection is in a class of medications called somatostatin agonists. It works by decreasing the amounts of certain natural substances produced by the body. Lanreotide comes as a long-acting solution (liquid) to be injected subcutaneously (under the skin) into the upper outer area of your buttock by a doctor or nurse. Lanreotide long-acting injection is usually injected once every 4 weeks. Ask your doctor or pharmacist to explain any part you do not understand. Your doctor will probably adjust your dose or the length of time between doses depending on your lab results. Ask your pharmacist or doctor for a copy of the manufacturer's information for the patient. This medication may be prescribed for other uses; ask your doctor or pharmacist for more information. Before receiving lanreotide injection, - tell your doctor and pharmacist if you are allergic to lanreotide injection, any other medications, or any of the ingredients in lanreotide injection. Ask your pharmacist for a list of the ingredients. - tell your doctor and pharmacist what other prescription and nonprescription medications, vitamins, nutritional supplements, and herbal products you are taking or plan to take. Be sure to mention any of the following: beta blockers such as atenolol (Tenormin, in Tenoretic), labetalol (Trandate), metoprolol (Lopressor, Toprol XL, in Dutoprol), nadolol (Corgard, in Corzide), and propranolol (Hemangeol, Inderal, InnoPran); bromocriptine (Cycloset, Parlodel); cyclosporine (Gengraf, Neoral, Sandimmune); insulin and oral medications for diabetes; quinidine (in Nuedexta), or terfenadine (no longer available in the U.S.). Your doctor may need to change the doses of your medications or monitor you carefully for side effects. - tell your doctor if you have or have ever had diabetes, or gallbladder, heart, kidney, thyroid, or liver disease. - tell your doctor if you are pregnant, plan to become pregnant, or are breastfeeding. If you become pregnant while receiving lanreotide injection, call your doctor. - you should know that lanreotide injection may make you drowsy or dizzy. Do not drive a car or operate machinery until you know how this medication affects you. Unless your doctor tells you otherwise, continue your normal diet. This medication may cause changes in your blood sugar. You should know the symptoms of high and low blood sugar and what to do if you have these symptoms. Lanreotide injection may cause side effects. Tell your doctor if any of these symptoms are severe or do not go away: - diarrhea - loose stools - constipation - gas - vomiting - weight loss - headache - redness, pain, itching, or a lump at the injection site - depression Some side effects can be serious. If you experience any of these symptoms, call your doctor immediately or get emergency medical treatment: - pain in the upper right part of the stomach, center of the stomach, back, or shoulder - muscle pain or discomfort - yellowing of the skin and eyes - fever with chills - nausea - swelling of the face, throat, tongue, lips, or eyes - tightness in the throat - difficulty breathing and swallowing - wheezing - hoarseness - rash - itching - hives - shortness of breath - slowed or irregular heartbeat Lanreotide injection may cause other side effects. Call your doctor if you have any unusual problems while receiving this medication. If you experience a serious side effect, you or your doctor may send a report to the Food and Drug Administration's (FDA) MedWatch Adverse Event Reporting program online (http://www.fda.gov/Safety/MedWatch) or by phone (1-800-332-1088). If you are storing the prefilled syringes in your home until it is time for it to be injected by your doctor or nurse, you should always store it in original carton in the refrigerator and protect it from light. Throw away any medication that is outdated or no longer needed. Talk to your healthcare provider about the proper disposal of your medication. In case of overdose, call your local poison control center at 1-800-222-1222. If the victim has collapsed or is not breathing, call local emergency services at 911. Keep all appointments with your doctor and the laboratory. Your doctor will order certain lab tests to check your body's response to lanreotide injection. Do not let anyone else use your medication. Ask your pharmacist any questions you have about refilling your prescription. It is important for you to keep a written list of all of the prescription and nonprescription (over-the-counter) medicines you are taking, as well as any products such as vitamins, minerals, or other dietary supplements. You should bring this list with you each time you visit a doctor or if you are admitted to a hospital. It is also important information to carry with you in case of emergencies. - Somatuline Depot®

how do you administer lanreotide

Hepatitis C can be spread through contact with blood already infected by the virus. It can be spread through sex sex with an affected individual, or from the mother to her child during birth.

What is Hepatitis C?: Your liver is the largest organ inside your body. It helps your body digest food, store energy, and remove poisons. Hepatitis is an inflammation of the liver. One type, hepatitis C, is caused by the hepatitis C virus (HCV). It usually spreads through contact with infected blood. It can also spread through sex with an infected person and from mother to baby during childbirth. Most people who are infected with hepatitis C don't have any symptoms for years. If you do get symptoms, you may feel as if you have the flu. You may also have jaundice, a yellowing of skin and eyes, dark-colored urine, and pale bowel movements. A blood test can tell if you have it. Usually, hepatitis C does not get better by itself. The infection can last a lifetime and may lead to scarring of the liver or liver cancer. Medicines sometimes help, but side effects can be a problem. Serious cases may need a liver transplant. There is no vaccine for HCV. NIH: National Institute of Diabetes and Digestive and Kidney Diseases

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There is no one test that can diagnose lupus. However, doctos can use a combination of tools to make a diagnosis. These include blood and urine tests, physical examinations, imaging tests, skin biopsy, and other observations of signs and symptoms. For example, an examination of a sample of your urine may show increased protein or red blood cell levels, which may have occurred if lupus has affected your kidneys. A chest X-ray may be used to check for fluid or inflammation in your lungs, which can occur if lupus has affected your lungs.

Lupus: Lupus is a systemic autoimmune disease that occurs when your body's immune system attacks your own tissues and organs. Inflammation caused by lupus can affect many different body systems - including your joints, skin, kidneys, blood cells, brain, heart and lungs. Lupus can be difficult to diagnose because its signs and symptoms often mimic those of other ailments. The most distinctive sign of lupus - a facial rash that resembles the wings of a butterfly unfolding across both cheeks - occurs in many but not all cases of lupus. Some people are born with a tendency toward developing lupus, which may be triggered by infections, certain drugs or even sunlight. While there's no cure for lupus, treatments can help control symptoms. No two cases of lupus are exactly alike. Signs and symptoms may come on suddenly or develop slowly, may be mild or severe, and may be temporary or permanent. Most people with lupus have mild disease characterized by episodes - called flares - when signs and symptoms get worse for a while, then improve or even disappear completely for a time. The signs and symptoms of lupus that you experience will depend on which body systems are affected by the disease. The most common signs and symptoms include: - Fatigue - Fever - Joint pain, stiffness and swelling - Butterfly-shaped rash on the face that covers the cheeks and bridge of the nose or rashes elsewhere on the body - Skin lesions that appear or worsen with sun exposure (photosensitivity) - Fingers and toes that turn white or blue when exposed to cold or during stressful periods (Raynaud's phenomenon) - Shortness of breath - Chest pain - Dry eyes - Headaches, confusion and memory loss When to see a doctor See your doctor if you develop an unexplained rash, ongoing fever, persistent aching or fatigue. Lupus occurs when your immune system attacks healthy tissue in your body (autoimmune disease). It's likely that lupus results from a combination of your genetics and your environment. It appears that people with an inherited predisposition for lupus may develop the disease when they come into contact with something in the environment that can trigger lupus. The cause of lupus in most cases, however, is unknown. Some potential triggers include: - Sunlight. Exposure to the sun may bring on lupus skin lesions or trigger an internal response in susceptible people. - Infections. Having an infection can initiate lupus or cause a relapse in some people. - Medications. Lupus can be triggered by certain types of blood pressure medications, anti-seizure medications and antibiotics. People who have drug-induced lupus usually get better when they stop taking the medication. Rarely, symptoms may persist even after the drug is stopped. Factors that may increase your risk of lupus include: - Your sex. Lupus is more common in women. - Age. Although lupus affects people of all ages, it's most often diagnosed between the ages of 15 and 45. - Race. Lupus is more common in African-Americans, Hispanics and Asian-Americans. Diagnosing lupus is difficult because signs and symptoms vary considerably from person to person. Signs and symptoms of lupus may vary over time and overlap with those of many other disorders. No one test can diagnose lupus. The combination of blood and urine tests, signs and symptoms, and physical examination findings leads to the diagnosis. Laboratory tests Blood and urine tests may include: - Complete blood count. This test measures the number of red blood cells, white blood cells and platelets as well as the amount of hemoglobin, a protein in red blood cells. Results may indicate you have anemia, which commonly occurs in lupus. A low white blood cell or platelet count may occur in lupus as well. - Erythrocyte sedimentation rate. This blood test determines the rate at which red blood cells settle to the bottom of a tube in an hour. A faster than normal rate may indicate a systemic disease, such as lupus. The sedimentation rate isn't specific for any one disease. It may be elevated if you have lupus, an infection, another inflammatory condition or cancer. - Kidney and liver assessment. Blood tests can assess how well your kidneys and liver are functioning. Lupus can affect these organs. - Urinalysis. An examination of a sample of your urine may show an increased protein level or red blood cells in the urine, which may occur if lupus has affected your kidneys. - Antinuclear antibody (ANA) test. A positive test for the presence of these antibodies - produced by your immune system - indicates a stimulated immune system. While most people with lupus have a positive ANA test, most people with a positive ANA do not have lupus. If you test positive for ANA, your doctor may advise more-specific antibody testing. Imaging tests If your doctor suspects that lupus is affecting your lungs or heart, he or she may suggest: - Chest X-ray. An image of your chest may reveal abnormal shadows that suggest fluid or inflammation in your lungs. - Echocardiogram. This test uses sound waves to produce real-time images of your beating heart. It can check for problems with your valves and other portions of your heart. Biopsy Lupus can harm your kidneys in many different ways, and treatments can vary, depending on the type of damage that occurs. In some cases, it's necessary to test a small sample of kidney tissue to determine what the best treatment might be. The sample can be obtained with a needle or through a small incision. Skin biopsy is sometimes performed to confirm a diagnosis of lupus affecting the skin. Treatment for lupus depends on your signs and symptoms. Determining whether your signs and symptoms should be treated and what medications to use requires a careful discussion of the benefits and risks with your doctor. As your signs and symptoms flare and subside, you and your doctor may find that you'll need to change medications or dosages. The medications most commonly used to control lupus include: - Nonsteroidal anti-inflammatory drugs (NSAIDs). Over-the-counter NSAIDs, such as naproxen sodium (Aleve) and ibuprofen (Advil, Motrin IB, others), may be used to treat pain, swelling and fever associated with lupus. Stronger NSAIDs are available by prescription. Side effects of NSAIDs include stomach bleeding, kidney problems and an increased risk of heart problems. - Antimalarial drugs. Medications commonly used to treat malaria, such as hydroxychloroquine (Plaquenil), affect the immune system and can help decrease the risk of lupus flares. Side effects can include stomach upset and, very rarely, damage to the retina of the eye. Regular eye exams are recommended when taking these medications. - Corticosteroids. Prednisone and other types of corticosteroids can counter the inflammation of lupus. High doses of steroids such as methylprednisolone (A-Methapred, Medrol) are often used to control serious disease that involves the kidneys and brain. Side effects include weight gain, easy bruising, thinning bones (osteoporosis), high blood pressure, diabetes and increased risk of infection. The risk of side effects increases with higher doses and longer term therapy. - Immunosuppressants. Drugs that suppress the immune system may be helpful in serious cases of lupus. Examples include azathioprine (Imuran, Azasan), mycophenolate mofetil (CellCept) and methotrexate (Trexall). Potential side effects may include an increased risk of infection, liver damage, decreased fertility and an increased risk of cancer. - Biologics. A different type of medication, belimumab (Benlysta) administered intravenously, also reduces lupus symptoms in some people. Side effects include nausea, diarrhea and infections. Rarely, worsening of depression can occur. - Rituximab (Rituxan) can be beneficial in cases of resistant lupus. Side effects include allergic reaction to the intravenous infusion and infections. Take steps to care for your body if you have lupus. Simple measures can help you prevent lupus flares and, should they occur, better cope with the signs and symptoms you experience. Try to: - See your doctor regularly. Having regular checkups instead of only seeing your doctor when your symptoms worsen may help your doctor prevent flare-ups, and can be useful in addressing routine health concerns, such as stress, diet and exercise that can be helpful in preventing lupus complications. - Be sun smart. Because ultraviolet light can trigger a flare, wear protective clothing - such as a hat, long-sleeved shirt and long pants - and use sunscreens with a sun protection factor (SPF) of at least 55 every time you go outside. - Get regular exercise. Exercise can help keep your bones strong, reduce your risk of heart attack and promote general well-being. - Don't smoke. Smoking increases your risk of cardiovascular disease and can worsen the effects of lupus on your heart and blood vessels. - Eat a healthy diet. A healthy diet emphasizes fruits, vegetables and whole grains. Sometimes you may have dietary restrictions, especially if you have high blood pressure, kidney damage or gastrointestinal problems. - Ask your doctor if you need vitamin D and calcium supplements. There is some evidence to suggest that people with lupus may benefit from supplemental vitamin D. A 1,200- to 1,500-milligram calcium supplement taken daily may help keep your bones healthy. Sometimes people with lupus seek alternative or complementary medicine. However, there aren't any alternative therapies that have been shown to alter the course of lupus, although some may help ease symptoms of the disease. Discuss these treatments with your doctor before initiating them on your own. He or she can help you weigh the benefits and risks and tell you if the treatments will interfere adversely with your current lupus medications. Complementary and alternative treatments for lupus include: - Dehydroepiandrosterone (DHEA). Supplements containing this hormone may help fatigue and muscle pain. It may lead to acne in women. - Fish oil. Fish oil supplements contain omega-3 fatty acids that may be beneficial for people with lupus. Preliminary studies have found some promise, though more study is needed. Side effects of fish oil supplements can include nausea, belching and a fishy taste in the mouth. - Acupuncture. This therapy uses tiny needles inserted just under the skin. It may help ease the muscle pain associated with lupus.

how do you check for lupus?

Talk to your primary care doctor to find out if your anxiety could be related to your physical health. However, if you have severe anxiety, you may need to see a mental health specialist such as a psychiatrist, psychologist, or other mental health professional. To help diagnose an anxiety disorder, your provider may give you a psychological evaluation. This includes describing your thoughts, feelings and behavior to help pinpoint a diagnosis and check for related complications. Many doctors use the criteria in the Diagnostic and Statistical Manual of Mental Disorders (DSM-5), published by the American Psychiatric Association, to diagnose an anxiety disorder.

Anxiety: Experiencing occasional anxiety is a normal part of life. However, people with anxiety disorders frequently have intense, excessive and persistent worry and fear about everyday situations. Often, anxiety disorders involve repeated episodes of sudden feelings of intense anxiety and fear or terror that reach a peak within minutes (panic attacks). These feelings of anxiety and panic interfere with daily activities, are difficult to control, are out of proportion to the actual danger and can last a long time. You may avoid places or situations to prevent these feelings. Symptoms may start during childhood or the teen years and continue into adulthood. Examples of anxiety disorders include generalized anxiety disorder, social anxiety disorder (social phobia), specific phobias and separation anxiety disorder. You can have more than one anxiety disorder. Sometimes anxiety results from a medical condition that needs treatment. Whatever form of anxiety you have, treatment can help. Anxiety care at Mayo Clinic Common anxiety signs and symptoms include: - Feeling nervous, restless or tense - Having a sense of impending danger, panic or doom - Having an increased heart rate - Breathing rapidly (hyperventilation) - Sweating - Trembling - Feeling weak or tired - Trouble concentrating or thinking about anything other than the present worry - Having trouble sleeping - Experiencing gastrointestinal (GI) problems - Having difficulty controlling worry - Having the urge to avoid things that trigger anxiety Several types of anxiety disorders exist: - Agoraphobia (ag-uh-ruh-FOE-be-uh) is a type of anxiety disorder in which you fear and often avoid places or situations that might cause you to panic and make you feel trapped, helpless or embarrassed. - Anxiety disorder due to a medical condition includes symptoms of intense anxiety or panic that are directly caused by a physical health problem. - Generalized anxiety disorder includes persistent and excessive anxiety and worry about activities or events - even ordinary, routine issues. The worry is out of proportion to the actual circumstance, is difficult to control and affects how you feel physically. It often occurs along with other anxiety disorders or depression. - Panic disorder involves repeated episodes of sudden feelings of intense anxiety and fear or terror that reach a peak within minutes (panic attacks). You may have feelings of impending doom, shortness of breath, chest pain, or a rapid, fluttering or pounding heart (heart palpitations). These panic attacks may lead to worrying about them happening again or avoiding situations in which they've occurred. - Selective mutism is a consistent failure of children to speak in certain situations, such as school, even when they can speak in other situations, such as at home with close family members. This can interfere with school, work and social functioning. - Separation anxiety disorder is a childhood disorder characterized by anxiety that's excessive for the child's developmental level and related to separation from parents or others who have parental roles. - Social anxiety disorder (social phobia) involves high levels of anxiety, fear and avoidance of social situations due to feelings of embarrassment, self-consciousness and concern about being judged or viewed negatively by others. - Specific phobias are characterized by major anxiety when you're exposed to a specific object or situation and a desire to avoid it. Phobias provoke panic attacks in some people. - Substance-induced anxiety disorder is characterized by symptoms of intense anxiety or panic that are a direct result of abusing drugs, taking medications, being exposed to a toxic substance or withdrawal from drugs. - Other specified anxiety disorder and unspecified anxiety disorder are terms for anxiety or phobias that don't meet the exact criteria for any other anxiety disorders but are significant enough to be distressing and disruptive. When to see a doctor See your doctor if: - You feel like you're worrying too much and it's interfering with your work, relationships or other parts of your life - Your fear, worry or anxiety is upsetting to you and difficult to control - You feel depressed, have trouble with alcohol or drug use, or have other mental health concerns along with anxiety - You think your anxiety could be linked to a physical health problem - You have suicidal thoughts or behaviors - if this is the case, seek emergency treatment immediately Your worries may not go away on their own, and they may get worse over time if you don't seek help. See your doctor or a mental health provider before your anxiety gets worse. It's easier to treat if you get help early. The causes of anxiety disorders aren't fully understood. Life experiences such as traumatic events appear to trigger anxiety disorders in people who are already prone to anxiety. Inherited traits also can be a factor. Medical causes For some people, anxiety may be linked to an underlying health issue. In some cases, anxiety signs and symptoms are the first indicators of a medical illness. If your doctor suspects your anxiety may have a medical cause, he or she may order tests to look for signs of a problem. Examples of medical problems that can be linked to anxiety include: - Heart disease - Diabetes - Thyroid problems, such as hyperthyroidism - Respiratory disorders, such as chronic obstructive pulmonary disease (COPD) and asthma - Drug abuse or withdrawal - Withdrawal from alcohol, anti-anxiety medications (benzodiazepines) or other medications - Chronic pain or irritable bowel syndrome - Rare tumors that produce certain "fight-or-flight" hormones Sometimes anxiety can be a side effect of certain medications. It's possible that your anxiety may be due to an underlying medical condition if: - You don't have any blood relatives (such as a parent or sibling) with an anxiety disorder - You didn't have an anxiety disorder as a child - You don't avoid certain things or situations because of anxiety - You have a sudden occurrence of anxiety that seems unrelated to life events and you didn't have a previous history of anxiety These factors may increase your risk of developing an anxiety disorder: - Trauma. Children who endured abuse or trauma or witnessed traumatic events are at higher risk of developing an anxiety disorder at some point in life. Adults who experience a traumatic event also can develop anxiety disorders. - Stress due to an illness. Having a health condition or serious illness can cause significant worry about issues such as your treatment and your future. - Stress buildup. A big event or a buildup of smaller stressful life situations may trigger excessive anxiety - for example, a death in the family, work stress or ongoing worry about finances. - Personality. People with certain personality types are more prone to anxiety disorders than others are. - Other mental health disorders. People with other mental health disorders, such as depression, often also have an anxiety disorder. - Having blood relatives with an anxiety disorder. Anxiety disorders can run in families. - Drugs or alcohol. Drug or alcohol use or abuse or withdrawal can cause or worsen anxiety. Having an anxiety disorder does more than make you worry. It can also lead to, or worsen, other mental and physical conditions, such as: - Depression (which often occurs with an anxiety disorder) or other mental health disorders - Substance abuse - Trouble sleeping (insomnia) - Digestive or bowel problems - Headaches and chronic pain - Social isolation - Problems functioning at school or work - Poor quality of life - Suicide You may start by seeing your primary care doctor to find out if your anxiety could be related to your physical health. Your doctor can check for signs of an underlying medical condition that may need treatment. However, you may need to see a mental health specialist if you have severe anxiety. A psychiatrist is a medical doctor who specializes in diagnosing and treating mental health conditions. A psychologist and certain other mental health professionals can diagnose anxiety and provide counseling (psychotherapy). To help diagnose an anxiety disorder and rule out other conditions, your provider may: - Give you a psychological evaluation. This involves describing your thoughts, feelings and behavior to help pinpoint a diagnosis and check for related complications. Anxiety disorders often occur along with other mental health problems - such as depression or substance abuse - which can make diagnosis more challenging. - Compare your symptoms to the criteria in the DSM-5. Many doctors use the criteria in the Diagnostic and Statistical Manual of Mental Disorders (DSM-5), published by the American Psychiatric Association, to diagnose an anxiety disorder. The two main treatments for anxiety disorders are psychotherapy and medications. You may benefit most from a combination of the two. It may take some trial and error to discover which treatments work best for you. Psychotherapy Also known as talk therapy or psychological counseling, psychotherapy involves working with a therapist to reduce your anxiety symptoms. It can be an effective treatment for anxiety. Cognitive behavioral therapy (CBT) is the most effective form of psychotherapy for anxiety disorders. Generally a short-term treatment, CBT focuses on teaching you specific skills to improve your symptoms and gradually return to the activities you've avoided because of anxiety. CBT includes exposure therapy, in which you gradually encounter the object or situation that triggers your anxiety so you build confidence that you can manage the situation and anxiety symptoms. Medications Several types of medications are used to help relieve symptoms, depending on the type of anxiety disorder you have and whether you also have other mental or physical health issues. For example: - Certain antidepressants are also used to treat anxiety disorders. - An anti-anxiety medication called buspirone may be prescribed. - In limited circumstances, your doctor may prescribe a certain type of sedative called a benzodiazepine for short-term relief of anxiety symptoms. Talk with your doctor about benefits, risks and possible side effects of medications. While most people with anxiety disorders need psychotherapy or medications to get anxiety under control, lifestyle changes also can make a difference. Here's what you can do: - Keep physically active. Develop a routine so that you're physically active most days of the week. Exercise is a powerful stress reducer. It may improve your mood and help you stay healthy. Start out slowly and gradually increase the amount and intensity of your activities. - Avoid alcohol and recreational drugs. These substances can cause or worsen anxiety. If you can't quit on your own, see your doctor or find a support group to help you. - Quit smoking and cut back or quit drinking caffeinated beverages. Both nicotine and caffeine can worsen anxiety. - Use stress management and relaxation techniques. Visualization techniques, meditation and yoga are examples of relaxation techniques that can ease anxiety. - Make sleep a priority. Do what you can to make sure you're getting enough sleep to feel rested. If you aren't sleeping well, see your doctor. - Eat healthy. Healthy eating - such as focusing on vegetables, fruits, whole grains and fish - may be linked to reduced anxiety, but more research is needed. Several herbal remedies have been studied as a treatment for anxiety, but more research is needed to understand the risks and benefits. Herbal and dietary supplements aren't monitored by the FDA the same way medications are. You can't always be certain of what you're getting and whether it's safe. Some of these supplements can interfere with prescription medications or cause dangerous interactions. Before taking herbal remedies or dietary supplements, talk to your doctor to make sure they're safe for you and won't interact with any medications you take.

how do you diagnose anxiety

A blood test for cholesterol levels typically reports total cholesterol level, LDL cholesterol, HDL cholesterol, and triglycerides. For the best measurements, don't drink or eat anything other than water for nine to twelve hours before the blood sample is taken.

High cholesterol (Diagnosis): A blood test to check cholesterol levels - called a lipid panel or lipid profile - typically reports: - Total cholesterol - LDL cholesterol - HDL cholesterol - Triglycerides - a type of fat in the blood For the most accurate measurements, don't eat or drink anything (other than water) for nine to 12 hours before the blood sample is taken. Interpreting the numbers In the United States, cholesterol levels are measured in milligrams (mg) of cholesterol per deciliter (dL) of blood. In Canada and many European countries, cholesterol levels are measured in millimoles per liter (mmol/L). To interpret your test results, use these general guidelines. Children and cholesterol testing For most children, the National Heart, Lung, and Blood Institute recommends one cholesterol screening test between the ages of 9 and 11, and another cholesterol screening test between the ages of 17 and 21. Cholesterol testing is usually avoided between the ages of 12 and 16 because false-negative results are more likely within this age group. If your child has a family history of early-onset heart disease or a personal history of obesity or diabetes, your doctor may recommend earlier or more frequent cholesterol testing.

how do you test for cholesterol level in your body

A cholesterol test to done to diagnose high blood cholesterol levels. Different experts recommend different starting ages. Some guidelines recommend having your first cholesterol test at age 20, but everyone should have their first screening by age 35 (men) and age 45 (women).

How to diagnose High blood cholesterol levels?: A cholesterol test is done to diagnose a lipid disorder. Some guidelines recommend having your first screening cholesterol test at age 20. Everyone should have their first screening test by age 35 in men, and age 45 in women. (Note: Different experts recommend different starting ages.) It is important to work with your health care provider to set your cholesterol goals. Newer guidelines steer doctors away from targeting specific levels of cholesterol. Instead, it recommends different medicines and doses depending on a person's history and risk factor profile. General targets are: - LDL: 70 to 130 mg/dL (lower numbers are better) - HDL: more than 50 mg/dL (high numbers are better) - Total cholesterol: less than 200 mg/dL (lower numbers are better) - Triglycerides: 10 to 150 mg/dL (lower numbers are better) If your cholesterol results are abnormal, you may also have other tests such as: - Blood sugar (glucose) test to look for diabetes - Kidney function tests - Thyroid function tests to look for an underactive thyroid gland

how do you test for cholesterol level in your body

To help prevent a heart attack, you can avoid smoking and secondhand smoke, control your blood pressure and cholesterol levels, and get regular medical checkups. It is also beneficial to exercise regularly, eat a heart-healthy diet, maintain a healthy weight, and reduce stress in your daily life.

Heart attack (Lifestyle and home remedies): Your lifestyle affects your heart health. The following steps can help you not only prevent but also recover from a heart attack: - Avoid smoke. The most important thing you can do to improve your heart's health is to not smoke. Also, avoid being around secondhand smoke. If you need to quit, ask your doctor for help. - Control your blood pressure and cholesterol levels. If one or both of these is high, your doctor can prescribe changes to your diet and medications. Ask your doctor how often you need to have your blood pressure and cholesterol levels monitored. - Get regular medical checkups. Some of the major risk factors for heart attack - high blood cholesterol, high blood pressure and diabetes - cause no symptoms early on. Your doctor can perform tests to check for these conditions and help you manage them, if necessary. - Exercise regularly. Regular exercise helps improve heart muscle function after a heart attack and helps prevent a heart attack by helping you to control your weight, diabetes, cholesterol and blood pressure. Exercise needn't be vigorous. Walking 30 minutes a day, five days a week can improve your health. - Maintain a healthy weight. Excess weight strains your heart and can contribute to high cholesterol, high blood pressure and diabetes. - Eat a heart-healthy diet. Saturated fat, trans fats and cholesterol in your diet can narrow arteries to your heart, and too much salt can raise blood pressure. Eat a heart-healthy diet that includes lean proteins, such as fish and beans, plenty of fruits and vegetables and whole grains. - Manage diabetes. High blood sugar is damaging to your heart. Regular exercise, eating well and losing weight all help to keep blood sugar levels at more-desirable levels. Many people also need medication to manage their diabetes. - Control stress. Reduce stress in your day-to-day activities. Rethink workaholic habits and find healthy ways to minimize or deal with stressful events in your life. - If you drink alcohol, do so in moderation. For healthy adults, that means up to one drink a day for women and men older than age 65, and up to two drinks a day for men age 65 and younger.

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Heart defects may be part of genetic and chromosomal syndromes which are passed down through families. These syndromes include DiGeorge syndrome, Down syndrome, Marfan syndrome, Noonan syndrome,Trisomy 13, and Turner syndrome

Congenital heart disease (Causes): Congenital heart disease can describe a number of different problems affecting the heart. It is the most common type of birth defect. CHD causes more deaths in the first year of life than any other birth defects. Congenital heart disease is often divided into 2 types: cyanotic (blue skin color caused by a lack of oxygen) and non-cyanotic. The following lists cover the most common congenital heart diseases: Cyanotic: - Ebstein's anomaly - Hypoplastic left heart - Pulmonary atresia - Tetralogy of Fallot - Total anomalous pulmonary venous return - Transposition of the great vessels - Tricuspid atresia - Truncus arteriosus Non-cyanotic: - Aortic stenosis - Atrial septal defect (ASD) - Atrioventricular canal (endocardial cushion defect) - Coarctation of the aorta - Patent ductus arteriosus (PDA) - Pulmonic stenosis - Ventricular septal defect (VSD) These problems may occur alone or together. Most children with CHD do not have other types of birth defects. However, heart defects may be part of genetic and chromosomal syndromes. Some of these syndromes may be passed down through families. Examples include: - DiGeorge syndrome - Down syndrome - Marfan syndrome - Noonan syndrome - Trisomy 13 - Turner syndrome Often, no cause for the heart disease can be found. Congenital heart diseases continue to be investigated and researched. Drugs such as retinoic acid for acne, chemicals, alcohol, and infections (such as rubella) during pregnancy can contribute to some congenital heart problems. Poorly controlled blood sugar in women who have diabetes during pregnancy has also been linked to a high rate of congenital heart defects.

how is congenital heart disease passed down

A variety of genetic and environmental factors likely contribute to critical congenital heart disease (CCHD). Mutations in individual genes have been associated with CCHD. These mutations reduce the amount of protein produced which in turn impairs the formation of the heart. Potential risk factors include exposure to certain chemicals or drugs, viral infections during pregnancy, or other maternal diseases.

critical congenital heart disease (Genetic Changes): In most cases, the cause of CCHD is unknown. A variety of genetic and environmental factors likely contribute to this complex condition. Changes in single genes have been associated with CCHD. Studies suggest that these genes are involved in normal heart development before birth. Most of the identified mutations reduce the amount or function of the protein that is produced from a specific gene, which likely impairs the normal formation of structures in the heart. Studies have also suggested that having more or fewer copies of particular genes compared with other people, a phenomenon known as copy number variation, may play a role in CCHD. However, it is unclear whether genes affected by copy number variation are involved in heart development and how having missing or extra copies of those genes could lead to heart defects. Researchers believe that single-gene mutations and copy number variation account for a relatively small percentage of all CCHD. CCHD is usually isolated, which means it occurs alone (without signs and symptoms affecting other parts of the body). However, the heart defects associated with CCHD can also occur as part of genetic syndromes that have additional features. Some of these genetic conditions, such as Down syndrome, Turner syndrome, and 22q11.2 deletion syndrome, result from changes in the number or structure of particular chromosomes. Other conditions, including Noonan syndrome and Alagille syndrome, result from mutations in single genes. Environmental factors may also contribute to the development of CCHD. Potential risk factors that have been studied include exposure to certain chemicals or drugs before birth, viral infections (such as rubella and influenza) that occur during pregnancy, and other maternal illnesses including diabetes and phenylketonuria. Although researchers are examining risk factors that may be associated with this complex condition, many of these factors remain unknown.

how is congenital heart disease passed down

To diagnose epilepsy, your doctor will review your symptoms and medical history. Your doctor may also order several tests. This may include a neurological exam, blood tests, an electroencephalogram, a computerized tomography scan, or magnetic resonance imaging. The electroencephalogram is the most common way to diagnose epilepsy. The more accurate your doctor knows about your seizure type and where the seizures begin in your brain, the better your chance for finding an effective treatment.

Epilepsy: Epilepsy is a central nervous system (neurological) disorder in which brain activity becomes abnormal, causing seizures or periods of unusual behavior, sensations, and sometimes loss of awareness. Anyone can develop epilepsy. Epilepsy affects both males and females of all races, ethnic backgrounds and ages. Seizure symptoms can vary widely. Some people with epilepsy simply stare blankly for a few seconds during a seizure, while others repeatedly twitch their arms or legs. Having a single seizure doesn't mean you have epilepsy. At least two unprovoked seizures are generally required for an epilepsy diagnosis. Treatment with medications or sometimes surgery can control seizures for the majority of people with epilepsy. Some people require lifelong treatment to control seizures, but for others, the seizures eventually go away. Some children with epilepsy may outgrow the condition with age. Epilepsy care at Mayo Clinic Because epilepsy is caused by abnormal activity in the brain, seizures can affect any process your brain coordinates. Seizure signs and symptoms may include: - Temporary confusion - A staring spell - Uncontrollable jerking movements of the arms and legs - Loss of consciousness or awareness - Psychic symptoms such as fear, anxiety or deja vu Symptoms vary depending on the type of seizure. In most cases, a person with epilepsy will tend to have the same type of seizure each time, so the symptoms will be similar from episode to episode. Doctors generally classify seizures as either focal or generalized, based on how the abnormal brain activity begins. Focal seizures When seizures appear to result from abnormal activity in just one area of your brain, they're called focal (partial) seizures. These seizures fall into two categories: - Focal seizures without loss of consciousness. Once called simple partial seizures, these seizures don't cause a loss of consciousness. They may alter emotions or change the way things look, smell, feel, taste or sound. They may also result in involuntary jerking of a body part, such as an arm or leg, and spontaneous sensory symptoms such as tingling, dizziness and flashing lights. - Focal seizures with impaired awareness. Once called complex partial seizures, these seizures involve a change or loss of consciousness or awareness. During a complex partial seizure, you may stare into space and not respond normally to your environment or perform repetitive movements, such as hand rubbing, chewing, swallowing or walking in circles. Symptoms of focal seizures may be confused with other neurological disorders, such as migraine, narcolepsy or mental illness. A thorough examination and testing are needed to distinguish epilepsy from other disorders. Generalized seizures Seizures that appear to involve all areas of the brain are called generalized seizures. Six types of generalized seizures exist. - Absence seizures. Absence seizures, previously known as petit mal seizures, often occur in children and are characterized by staring into space or subtle body movements such as eye blinking or lip smacking. These seizures may occur in clusters and cause a brief loss of awareness. - Tonic seizures. Tonic seizures cause stiffening of your muscles. These seizures usually affect muscles in your back, arms and legs and may cause you to fall to the ground. - Atonic seizures. Atonic seizures, also known as drop seizures, cause a loss of muscle control, which may cause you to suddenly collapse or fall down. - Clonic seizures. Clonic seizures are associated with repeated or rhythmic, jerking muscle movements. These seizures usually affect the neck, face and arms. - Myoclonic seizures. Myoclonic seizures usually appear as sudden brief jerks or twitches of your arms and legs. - Tonic-clonic seizures. Tonic-clonic seizures, previously known as grand mal seizures, are the most dramatic type of epileptic seizure and can cause an abrupt loss of consciousness, body stiffening and shaking, and sometimes loss of bladder control or biting your tongue. When to see a doctor Seek immediate medical help if any of the following occurs: - The seizure lasts more than five minutes. - Breathing or consciousness doesn't return after the seizure stops. - A second seizure follows immediately. - You have a high fever. - You're experiencing heat exhaustion. - You're pregnant. - You have diabetes. - You've injured yourself during the seizure. If you experience a seizure for the first time, seek medical advice. Epilepsy has no identifiable cause in about half the people with the condition. In the other half, the condition may be traced to various factors, including: - Genetic influence. Some types of epilepsy, which are categorized by the type of seizure you experience or the part of the brain that is affected, run in families. In these cases, it's likely that there's a genetic influence. Researchers have linked some types of epilepsy to specific genes, but for most people, genes are only part of the cause of epilepsy. Certain genes may make a person more sensitive to environmental conditions that trigger seizures. - Head trauma. Head trauma as a result of a car accident or other traumatic injury can cause epilepsy. - Brain conditions. Brain conditions that cause damage to the brain, such as brain tumors or strokes, can cause epilepsy. Stroke is a leading cause of epilepsy in adults older than age 35. - Infectious diseases. Infectious diseases, such as meningitis, AIDS and viral encephalitis, can cause epilepsy. - Prenatal injury. Before birth, babies are sensitive to brain damage that could be caused by several factors, such as an infection in the mother, poor nutrition or oxygen deficiencies. This brain damage can result in epilepsy or cerebral palsy. - Developmental disorders. Epilepsy can sometimes be associated with developmental disorders, such as autism and neurofibromatosis. Certain factors may increase your risk of epilepsy: - Age. The onset of epilepsy is most common in children and older adults, but the condition can occur at any age. - Family history. If you have a family history of epilepsy, you may be at an increased risk of developing a seizure disorder. - Head injuries. Head injuries are responsible for some cases of epilepsy. You can reduce your risk by wearing a seat belt while riding in a car and by wearing a helmet while bicycling, skiing, riding a motorcycle or engaging in other activities with a high risk of head injury. - Stroke and other vascular diseases. Stroke and other blood vessel (vascular) diseases can lead to brain damage that may trigger epilepsy. You can take a number of steps to reduce your risk of these diseases, including limiting your intake of alcohol and avoiding cigarettes, eating a healthy diet, and exercising regularly. - Dementia. Dementia can increase the risk of epilepsy in older adults. - Brain infections. Infections such as meningitis, which causes inflammation in your brain or spinal cord, can increase your risk. - Seizures in childhood. High fevers in childhood can sometimes be associated with seizures. Children who have seizures due to high fevers generally won't develop epilepsy. The risk of epilepsy increases if a child has a long seizure, another nervous system condition or a family history of epilepsy. To diagnose your condition, your doctor will review your symptoms and medical history. Your doctor may order several tests to diagnose epilepsy and determine the cause of seizures. Your evaluation may include: - A neurological exam. Your doctor may test your behavior, motor abilities, mental function and other areas to diagnose your condition and determine the type of epilepsy you may have. - Blood tests. Your doctor may take a blood sample to check for signs of infections, genetic conditions or other conditions that may be associated with seizures. Your doctor may also suggest tests to detect brain abnormalities, such as: - Electroencephalogram (EEG). This is the most common test used to diagnose epilepsy. In this test, doctors attach electrodes to your scalp with a paste-like substance. The electrodes record the electrical activity of your brain. If you have epilepsy, it's common to have changes in your normal pattern of brain waves, even when you're not having a seizure. Your doctor may monitor you on video while conducting an EEG while you're awake or asleep, to record any seizures you experience. Recording the seizures may help the doctor determine what kind of seizures you're having or rule out other conditions. Your doctor may give you instructions to do something that will cause seizures, such as getting little sleep prior to the test. - High-density EEG. In a variation of an EEG test, your doctor may recommend high-density EEG, which spaces electrodes more closely than conventional EEG - about a half a centimeter apart. High-density EEG may help your doctor more precisely determine which areas of your brain are affected by seizures. - Computerized tomography (CT) scan. A CT scan uses X-rays to obtain cross-sectional images of your brain. CT scans can reveal abnormalities in your brain that might be causing your seizures, such as tumors, bleeding and cysts. - Magnetic resonance imaging (MRI). An MRI uses powerful magnets and radio waves to create a detailed view of your brain. Your doctor may be able to detect lesions or abnormalities in your brain that could be causing your seizures. - Functional MRI (fMRI). A functional MRI measures the changes in blood flow that occur when specific parts of your brain are working. Doctors may use an fMRI before surgery to identify the exact locations of critical functions, such as speech and movement, so that surgeons can avoid injuring those places while operating. - Positron emission tomography (PET). PET scans use a small amount of low-dose radioactive material that's injected into a vein to help visualize active areas of the brain and detect abnormalities. - Single-photon emission computerized tomography (SPECT). This type of test is used primarily if you've had an MRI and EEG that didn't pinpoint the location in your brain where the seizures are originating. A SPECT test uses a small amount of low-dose radioactive material that's injected into a vein to create a detailed, 3-D map of the blood flow activity in your brain during seizures. Doctors also may conduct a form of a SPECT test called subtraction ictal SPECT coregistered to MRI (SISCOM), which may provide even more-detailed results. - Neuropsychological tests. In these tests, doctors assess your thinking, memory and speech skills. The test results help doctors determine which areas of your brain are affected. Along with your test results, your doctor may use a combination of analysis techniques to help pinpoint where in the brain seizures start: - Statistical parametric mapping (SPM). SPM is a method of comparing areas of the brain that have increased metabolism during seizures to normal brains, which can give doctors an idea of where seizures begin. - Curry analysis. Curry analysis is a technique that takes EEG data and projects it onto an MRI of the brain to show doctors where seizures are occurring. - Magnetoencephalography (MEG). MEG measures the magnetic fields produced by brain activity to identify potential areas of seizure onset. Accurate diagnosis of your seizure type and where seizures begin gives you the best chance for finding an effective treatment. Doctors generally begin by treating epilepsy with medication. If medications don't treat the condition, doctors may propose surgery or another type of treatment. Medication Most people with epilepsy can become seizure-free by taking one anti-seizure medication, which is also called anti-epileptic medication. Others may be able to decrease the frequency and intensity of their seizures by taking a combination of medications. Many children with epilepsy who aren't experiencing epilepsy symptoms can eventually discontinue medications and live a seizure-free life. Many adults can discontinue medications after two or more years without seizures. Your doctor will advise you about the appropriate time to stop taking medications. Finding the right medication and dosage can be complex. Your doctor will consider your condition, frequency of seizures, your age and other factors when choosing which medication to prescribe. Your doctor will also review any other medications you may be taking, to ensure the anti-epileptic medications won't interact with them. Your doctor likely will first prescribe a single medication at a relatively low dosage and may increase the dosage gradually until your seizures are well-controlled. Anti-seizure medications may have some side effects. Mild side effects include: - Fatigue - Dizziness - Weight gain - Loss of bone density - Skin rashes - Loss of coordination - Speech problems - Memory and thinking problems More-severe but rare side effects include: - Depression - Suicidal thoughts and behaviors - Severe rash - Inflammation of certain organs, such as your liver To achieve the best seizure control possible with medication, follow these steps: - Take medications exactly as prescribed. - Always call your doctor before switching to a generic version of your medication or taking other prescription medications, over-the-counter drugs or herbal remedies. - Never stop taking your medication without talking to your doctor. - Notify your doctor immediately if you notice new or increased feelings of depression, suicidal thoughts, or unusual changes in your mood or behaviors. - Tell your doctor if you have migraines. Doctors may prescribe one of the anti-epileptic medications that can prevent your migraines and treat epilepsy. At least half the people newly diagnosed with epilepsy will become seizure-free with their first medication. If anti-epileptic medications don't provide satisfactory results, your doctor may suggest surgery or other therapies. You'll have regular follow-up appointments with your doctor to evaluate your condition and medications. Surgery When medications fail to provide adequate control over seizures, surgery may be an option. With epilepsy surgery, a surgeon removes the area of your brain that's causing seizures. Doctors usually perform surgery when tests show that: - Your seizures originate in a small, well-defined area of your brain - The area in your brain to be operated on doesn't interfere with vital functions such as speech, language, motor function, vision or hearing Although many people continue to need some medication to help prevent seizures after successful surgery, you may be able to take fewer drugs and reduce your dosages. In a small number of cases, surgery for epilepsy can cause complications such as permanently altering your thinking (cognitive) abilities. Talk to your surgeon about his or her experience, success rates, and complication rates with the procedure you're considering. Therapies Apart from medications and surgery, these potential therapies offer an alternative for treating epilepsy: - Vagus nerve stimulation. In vagus nerve stimulation, doctors implant a device called a vagus nerve stimulator underneath the skin of your chest, similar to a heart pacemaker. Wires from the stimulator are connected to the vagus nerve in your neck. The battery-powered device sends bursts of electrical energy through the vagus nerve and to your brain. It's not clear how this inhibits seizures, but the device can usually reduce seizures by 20 to 40 percent. Most people still need to take anti-epileptic medication, although some people may be able to lower their medication dose. You may experience side effects from vagus nerve stimulation, such as throat pain, hoarse voice, shortness of breath or coughing. - Ketogenic diet. Some children with epilepsy have been able to reduce their seizures by following a strict diet that's high in fats and low in carbohydrates. In this diet, called a ketogenic diet, the body breaks down fats instead of carbohydrates for energy. After a few years, some children may be able to stop the ketogenic diet - under close supervision of their doctors - and remain seizure-free. Consult a doctor if you or your child is considering a ketogenic diet. It's important to make sure that your child doesn't become malnourished when following the diet. Side effects of a ketogenic diet may include dehydration, constipation, slowed growth because of nutritional deficiencies and a buildup of uric acid in the blood, which can cause kidney stones. These side effects are uncommon if the diet is properly and medically supervised. Following a ketogenic diet can be a challenge. Low-glycemic index and modified Atkins diets offer less restrictive alternatives that may still provide some benefit for seizure control. Potential future treatments Researchers are studying many potential new treatments for epilepsy, including: - Deep brain stimulation. In deep brain stimulation, surgeons implant electrodes into a specific part of your brain, typically your thalamus. The electrodes are connected to a generator implanted in your chest or the skull that sends electrical pulses to your brain and may reduce your seizures. - Responsive neurostimulation. Implantable, pacemaker-like devices that help prevent seizures are also under investigation. These responsive stimulation or closed loop devices analyze brain activity patterns to detect seizures before they happen and deliver an electrical charge or drug to stop the seizure. - Continuous stimulation of the seizure onset zone (subthreshold stimulation). Subthreshold stimulation - continuous stimulation to an area of your brain below a level that's physically noticeable - appears to improve seizure outcomes and quality of life for some people with seizures. This treatment approach may work in people who have seizures that start in an area of the brain that can't be removed because it would affect speech and motor functions (eloquent area). Or it might benefit people whose seizure characteristics mean their chances of successful treatment with responsive neurostimulation are low. - Minimally invasive surgery. New minimally invasive surgical techniques, such as MRI-guided laser ablation, show promise at reducing seizures with fewer risks than traditional open brain surgery for epilepsy. - Stereotactic laser ablation or radiosurgery. For some types of epilepsy, stereotactic laser ablation or stereotactic radiosurgery may provide effective treatment for people in which an open procedure may be too risky. In these procedures, doctors direct radiation at the specific area in the brain causing seizures, to destroy that tissue in an effort to better control the seizures. - External nerve stimulation device. Similar to vagus nerve stimulation, this device would stimulate specific nerves to reduce frequency of seizures. But unlike vagus nerve stimulation, this device would be worn externally so that no surgery to implant the device is needed. Understanding your condition can help you take better control of it: - Take your medication correctly. Don't adjust your dosage before talking to your doctor. If you feel your medication should be changed, discuss it with your doctor. - Get enough sleep. Lack of sleep can trigger seizures. Be sure to get adequate rest every night. - Wear a medical alert bracelet. This will help emergency personnel know how to treat you correctly. - Exercise. Exercising may help keep you physically healthy and reduce depression. Make sure to drink enough water, and rest if you get tired during exercise. In addition, make healthy life choices, such as managing stress, limiting alcoholic beverages and avoiding cigarettes.

how is epilepsy diagnosed

Prescription ibuprofen that comes as a tablet should be taken three or four times per day for arthritis, or every 4 to 6 hours as needed for pain relief. Nonprescription ibuprofen may come in a tablet, liquid, or drops. Adults and children over 12 may take nonprescription ibuprofen every 4 to 6 hours as needed for pain or fever. Children less than 12, as well as infants, may usually be given nonprescription ibuprofen every 6 to 8 hours and should not be given more than 4 doses in 24 hours.

Ibuprofen: People who take nonsteroidal anti-inflammatory drugs (NSAIDs) (other than aspirin) such as ibuprofen may have a higher risk of having a heart attack or a stroke than people who do not take these medications. These events may happen without warning and may cause death. This risk may be higher for people who take NSAIDs for a long time. Do not take an NSAID such as ibuprofen if you have recently had a heart attack, unless directed to do so by your doctor. Tell your doctor if you or anyone in your family has or has ever had heart disease, a heart attack, or a stroke; if you smoke; and if you have or have ever had high cholesterol, high blood pressure, or diabetes. Get emergency medical help right away if you experience any of the following symptoms: chest pain, shortness of breath, weakness in one part or side of the body, or slurred speech. If you will be undergoing a coronary artery bypass graft (CABG; a type of heart surgery), you should not take ibuprofen right before or right after the surgery. NSAIDs such as ibuprofen may cause ulcers, bleeding, or holes in the stomach or intestine. These problems may develop at any time during treatment, may happen without warning symptoms, and may cause death. The risk may be higher for people who take NSAIDs for a long time, are older in age, have poor health, or who drink three or more alcoholic drinks per day while taking ibuprofen. Tell your doctor if you take any of the following medications: anticoagulants ('blood thinners') such as warfarin (Coumadin, Jantoven); aspirin; other NSAIDs such as ketoprofen and naproxen (Aleve, Naprosyn); oral steroids such as dexamethasone, methylprednisolone (Medrol), and prednisone (Rayos); selective serotonin reuptake inhibitors (SSRIs) such as citalopram (Celexa), fluoxetine (Prozac, Sarafem, Selfemra, in Symbyax), fluvoxamine (Luvox), paroxetine (Brisdelle, Paxil, Pexeva), and sertraline (Zoloft); or serotonin norepinephrine reuptake inhibitors (SNRIs) such as desvenlafaxine (Khedezla, Pristiq), duloxetine (Cymbalta), and venlafaxine (Effexor XR). Also tell your doctor if you have or have ever had ulcers, bleeding in your stomach or intestines, or other bleeding disorders. If you experience any of the following symptoms, stop taking ibuprofen and call your doctor: stomach pain, heartburn, vomit that is bloody or looks like coffee grounds, blood in the stool, or black and tarry stools. Keep all appointments with your doctor and the laboratory. Your doctor will monitor your symptoms carefully and will probably order certain tests to check your body's response to ibuprofen. Be sure to tell your doctor how you are feeling so that your doctor can prescribe the right amount of medication to treat your condition with the lowest risk of serious side effects. Your doctor or pharmacist will give you the manufacturer's patient information sheet (Medication Guide) when you begin treatment with prescription ibuprofen and each time you refill your prescription. Read the information carefully and ask your doctor or pharmacist if you have any questions. You can also visit the Food and Drug Administration (FDA) website (http://www.fda.gov/Drugs/DrugSafety/ucm085729.htm) or the manufacturer's website to obtain the Medication Guide. Prescription ibuprofen is used to relieve pain, tenderness, swelling, and stiffness caused by osteoarthritis (arthritis caused by a breakdown of the lining of the joints) and rheumatoid arthritis (arthritis caused by swelling of the lining of the joints). It is also used to relieve mild to moderate pain, including menstrual pain (pain that happens before or during a menstrual period). Nonprescription ibuprofen is used to reduce fever and to relieve minor aches and pain from headaches, muscle aches, arthritis, menstrual periods, the common cold, toothaches, and backaches. Ibuprofen is in a class of medications called NSAIDs. It works by stopping the body's production of a substance that causes pain, fever, and inflammation. Prescription ibuprofen comes as a tablet to take by mouth. It is usually taken three or four times a day for arthritis or every 4 to 6 hours as needed for pain. Nonprescription ibuprofen comes as a tablet, chewable tablet, suspension (liquid), and drops (concentrated liquid). Adults and children older than 12 years of age may usually take nonprescription ibuprofen every 4 to 6 hours as needed for pain or fever. Children and infants may usually be given nonprescription ibuprofen every 6 to 8 hours as needed for pain or fever, but should not be given more than 4 doses in 24 hours. Ibuprofen may be taken with food or milk to prevent stomach upset. If you are taking ibuprofen on a regular basis, you should take it at the same time(s) every day. Follow the directions on the package or prescription label carefully, and ask your doctor or pharmacist to explain any part you do not understand. Take ibuprofen exactly as directed. Do not take more or less of it or take it more often than directed by the package label or prescribed by your doctor. Ibuprofen comes alone and in combination with other medications. Some of these combination products are available by prescription only, and some of these combination products are available without a prescription and are used to treat cough and cold symptoms and other conditions. If your doctor has prescribed a medication that contains ibuprofen, you should be careful not to take any nonprescription medications that also contain ibuprofen. If you are selecting a product to treat cough or cold symptoms, ask your doctor or pharmacist for advice on which product is best for you. Check nonprescription product labels carefully before using two or more products at the same time. These products may contain the same active ingredient(s) and taking them together could cause you to receive an overdose. This is especially important if you will be giving cough and cold medications to a child. Nonprescription cough and cold combination products, including products that contain ibuprofen, can cause serious side effects or death in young children. Do not give these products to children younger than 4 years of age. If you give these products to children 4 to 11 years of age, use caution and follow the package directions carefully. If you are giving ibuprofen or a combination product that contains ibuprofen to a child, read the package label carefully to be sure that it is the right product for a child of that age. Do not give ibuprofen products that are made for adults to children. Before you give an ibuprofen product to a child, check the package label to find out how much medication the child should receive. Give the dose that matches the child's age on the chart. Ask the child's doctor if you don't know how much medication to give the child. Shake the suspension and drops well before each use to mix the medication evenly. Use the measuring cup provided to measure each dose of the suspension, and use the dosing device provided to measure each dose of the drops. The chewable tablets may cause a burning feeling in the mouth or throat. Take the chewable tablets with food or water. Stop taking nonprescription ibuprofen and call your doctor if your symptoms get worse, you develop new or unexpected symptoms, the part of your body that was painful becomes red or swollen, your pain lasts for more than 10 days, or your fever lasts more than 3 days. Stop giving nonprescription ibuprofen to your child and call your child's doctor if your child does not start to feel better during the first 24 hours of treatment. Also stop giving nonprescription ibuprofen to your child and call your child's doctor if your child develops new symptoms, including redness or swelling on the painful part of his body, or if your child's pain or fever get worse or lasts longer than 3 days. Do not give nonprescription ibuprofen to a child who has a sore throat that is severe or does not go away, or that comes along with fever, headache, nausea, or vomiting. Call the child's doctor right away, because these symptoms may be signs of a more serious condition. Ibuprofen is also sometimes used to treat ankylosing spondylitis (arthritis that mainly affects the spine), gouty arthritis (joint pain caused by a build-up of certain substances in the joints), and psoriatic arthritis (arthritis that occurs with a long-lasting skin disease that causes scaling and swelling). Talk to your doctor about the risks of using this drug for your condition. This medication is sometimes prescribed for other uses; ask your doctor or pharmacist for more information. Before taking ibuprofen, - tell your doctor and pharmacist if you are allergic to ibuprofen, aspirin or other NSAIDs such as ketoprofen and naproxen (Aleve, Naprosyn), any other medications, or any of the inactive ingredients in the type of ibuprofen you plan to take. Ask your pharmacist or check the label on the package for a list of the inactive ingredients. - tell your doctor and pharmacist what prescription and nonprescription medications, vitamins, nutritional supplements, and herbal products you are taking or plan to take. Be sure to mention the medications listed in the IMPORTANT WARNING section and any of the following: angiotensin-converting enzyme (ACE) inhibitors such as benazepril (Lotensin, in Lotrel), captopril, enalapril (Vasotec, in Vaseretic), fosinopril, lisinopril (in Zestoretic), moexipril (Univasc), perindopril (Aceon, in Prestalia), quinapril (Accupril, in Quinaretic), ramipril (Altace), and trandolapril (Mavik, in Tarka); angiotensin receptor blockers such as candesartan (Atacand, in Atacand HCT), eprosartan (Teveten), irbesartan (Avapro, in Avalide), losartan (Cozaar, in Hyzaar), olmesartan (Benicar, in Azor, in Benicar HCT, in Tribenzor), telmisartan (Micardis, in Micardis HCT, in Twynsta), and valsartan (in Exforge HCT); beta blockers such as atenolol (Tenormin, in Tenoretic), labetalol (Trandate), metoprolol (Lopressor, Toprol XL, in Dutoprol), nadolol (Corgard, in Corzide), and propranolol (Hemangeol, Inderal, Innopran); diuretics ('water pills'); lithium (Lithobid); and methotrexate (Otrexup, Rasuvo, Trexall). Your doctor may need to change the doses of your medications or monitor you more carefully for side effects. - do not take nonprescription ibuprofen with any other medication for pain unless your doctor tells you that you should. - tell your doctor if you have or have ever had any of the conditions mentioned in the IMPORTANT WARNING section or asthma, especially if you also have frequent stuffed or runny nose or nasal polyps (swelling of the inside of the nose); heart failure; swelling of the hands, arms, feet, ankles, or lower legs; lupus (a condition in which the body attacks many of its own tissues and organs, often including the skin, joints, blood, and kidneys); or liver or kidney disease. If you are giving ibuprofen to a child, tell the child's doctor if the child has not been drinking fluids or has lost a large amount of fluid from repeated vomiting or diarrhea. - tell your doctor if you are pregnant, especially if you are in the last few months of your pregnancy; you plan to become pregnant; or you are breast-feeding. If you become pregnant while taking ibuprofen, call your doctor. - if you are having surgery, including dental surgery, tell the doctor or dentist that you are taking ibuprofen. - if you have phenylketonuria (PKU, an inborn disease in which mental retardation develops if a specific diet is not followed), read the package label carefully before taking nonprescription ibuprofen. Some types of nonprescription ibuprofen may be sweetened with aspartame, a source of phenylalanine. Unless your doctor tells you otherwise, continue your normal diet. If you are taking ibuprofen on a regular basis, take the missed dose as soon as you remember it. However, if it is almost time for the next dose, skip the missed dose and continue your regular dosing schedule. Do not take a double dose to make up for a missed one. Ibuprofen may cause side effects. Tell your doctor if any of these symptoms are severe or do not go away: - constipation - diarrhea - gas or bloating - dizziness - nervousness - ringing in the ears Some side effects can be serious. If you experience any of the following symptoms, or those mentioned in the IMPORTANT WARNING section, call your doctor immediately. Do not take any more ibuprofen until you speak to your doctor. - unexplained weight gain - shortness of breath or difficulty breathing - swelling of the abdomen, feet, ankles, or lower legs - fever - blisters - rash - itching - hives - swelling of the eyes, face, throat, arms, or hands - difficulty breathing or swallowing - hoarseness - excessive tiredness - pain in the upper right part of the stomach - nausea - loss of appetite - yellowing of the skin or eyes - flu-like symptoms - pale skin - fast heartbeat - cloudy, discolored, or bloody urine - back pain - difficult or painful urination - blurred vision, changes in color vision, or other vision problems - red or painful eyes - stiff neck - headache - confusion - aggression Ibuprofen may cause other side effects. Call your doctor if you have any unusual problems while taking this medication. If you experience a serious side effect, you or your doctor may send a report to the Food and Drug Administration's (FDA) MedWatch Adverse Event Reporting program online (http://www.fda.gov/Safety/MedWatch) or by phone (1-800-332-1088). Keep this medication in the container it came in, tightly closed, and out of reach of children. Store it at room temperature and away from excess heat and moisture (not in the bathroom). Unneeded medications should be disposed of in special ways to ensure that pets, children, and other people cannot consume them. However, you should not flush this medication down the toilet. Instead, the best way to dispose of your medication is through a medicine take-back program. Talk to your pharmacist or contact your local garbage/recycling department to learn about take-back programs in your community. See the FDA's Safe Disposal of Medicines website (http://goo.gl/c4Rm4p) for more information if you do not have access to a take-back program. It is important to keep all medication out of sight and reach of children as many containers (such as weekly pill minders and those for eye drops, creams, patches, and inhalers) are not child-resistant and young children can open them easily. To protect young children from poisoning, always lock safety caps and immediately place the medication in a safe location – one that is up and away and out of their sight and reach. http://www.upandaway.org In case of overdose, call your local poison control center at 1-800-222-1222. If the victim has collapsed or is not breathing, call local emergency services at 911. Symptoms of overdosage may include: - dizziness - fast eye movements that you cannot control - slow breathing or short periods of time without breathing - blue color around the lips, mouth, and nose If you are taking prescription ibuprofen, do not let anyone else take your medication. Ask your pharmacist any questions you have about refilling your prescription. It is important for you to keep a written list of all of the prescription and nonprescription (over-the-counter) medicines you are taking, as well as any products such as vitamins, minerals, or other dietary supplements. You should bring this list with you each time you visit a doctor or if you are admitted to a hospital. It is also important information to carry with you in case of emergencies. - Addaprin® - Advil® - Cedaprin® - I-Prin® - Midol® - Motrin® - Motrin® IB - NeoProfen® - Profen IB® - Proprinal® - Ultraprin® - Advil® PM (containing Diphenhydramine, Ibuprofen) - Combunox® (containing Ibuprofen, Oxycodone)¶ - Duexis® (containing Famotidine, Ibuprofen) - Ibudone® (containing Hydrocodone, Ibuprofen) - Reprexain® (containing Hydrocodone, Ibuprofen) - Vicoprofen® (containing Hydrocodone, Ibuprofen)

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Nicotine produces physical and mood-altering effects in your brain that are temporarily pleasing. These effects make you want to use tobacco and lead to dependence. Nicotine is very addictive when inhaled into the lungs via tobacco smoke. This allows nicotine to get into the brain within seconds of taking a puff. Once in the brain, nicotine increases the release of chemicals which help to regulate mood and behavior. This include dopamine, which is released in the reward center of the brain, causing improvements in mood and behavior. Experiencing these effects is what makes nicotine so addictive.

Nicotine dependence: Nicotine dependence -- also called tobacco dependence -- is an addiction to tobacco products caused by the drug nicotine. Nicotine dependence means you can't stop using the substance, even though it's causing you harm. Nicotine produces physical and mood-altering effects in your brain that are temporarily pleasing. These effects make you want to use tobacco and lead to dependence. At the same time, stopping tobacco use causes withdrawal symptoms, including irritability and anxiety. While it's the nicotine in tobacco that causes nicotine dependence, the toxic effects of tobacco result from other substances in tobacco. Smokers have much higher rates of heart disease, stroke and cancer than nonsmokers do. Regardless of how long you've smoked, stopping smoking can improve your health. Many effective treatments for nicotine dependence are available to help you manage withdrawal and stop smoking for good. Ask your doctor for help. For some people, using any amount of tobacco can quickly lead to nicotine dependence. Signs that you may be addicted include: - You can't stop smoking. You've made one or more serious, but unsuccessful, attempts to stop. - You experience withdrawal symptoms when you try to stop. Your attempts at stopping have caused physical and mood-related symptoms, such as strong cravings, anxiety, irritability, restlessness, difficulty concentrating, depressed mood, frustration, anger, increased hunger, insomnia, constipation or diarrhea. - You keep smoking despite health problems. Even though you've developed health problems with your lungs or your heart, you haven't been able to stop. - You give up social or recreational activities in order to smoke. You may stop going to smoke-free restaurants or stop socializing with certain family members or friends because you can't smoke in these locations or situations. You're not alone if you've tried to stop smoking but haven't been able to stop for good. Most smokers make many attempts to stop smoking before they achieve stable, long-term abstinence from smoking. You're more likely to stop for good if you follow a treatment plan that addresses both the physical and the behavioral aspects of nicotine dependence. Using medications and working with a counselor specially trained to help people stop smoking (a tobacco treatment specialist) will significantly boost your chances of success. Ask your doctor, counselor or therapist to help you develop a treatment plan that works for you or to advise you on where to get help to stop smoking. Nicotine is the chemical in tobacco that keeps you smoking. Nicotine is very addictive when delivered by inhaling tobacco smoke into the lungs, which quickly releases nicotine into the blood allowing it to get into the brain within seconds of taking a puff. In the brain nicotine increases the release of brain chemicals called neurotransmitters, which help regulate mood and behavior. Dopamine, one of these neurotransmitters, is released in the "reward center" of the brain and causes improved mood and feelings of pleasure. Experiencing these effects from nicotine is what makes tobacco so addictive. Nicotine dependence involves behavioral (routines, habits, feelings) as well as physical factors. These behavioral associations with smoking may act as triggers - situations or feelings that activate a craving for tobacco, even if you have not smoked for some time. Behaviors and cues that you may associate with smoking include: - Certain times of the day, such as first thing in the morning, with morning coffee or during breaks at work - After a meal - Drinking alcohol - Certain places or friends - Talking on the phone - Stressful situations or when you're feeling down - Sight or smell of a burning cigarette - Driving your car To overcome your dependence on tobacco, you need to become aware of your triggers and develop a plan to deal with the behaviors and routines that you associate with smoking. Anyone who smokes or uses other forms of tobacco is at risk of becoming dependent. Factors that influence who will use tobacco include: - Genetics. The likelihood that you will start smoking and keep smoking may be partly inherited - genetic factors may influence how receptors on the surface of your brain's nerve cells respond to high doses of nicotine delivered by cigarettes. - Home and peer influence. Children who grow up with parents who smoke are more likely to become smokers. Children with friends who smoke also are more likely to try cigarettes. Evidence suggests that smoking shown in movies and on the Internet can encourage young people to smoke. - Age. Most people begin smoking during childhood or the teen years. The younger you are when you begin smoking, the greater the chance that you'll become a heavy smoker as an adult. - Depression or other mental illness. Many studies show an association between depression and smoking. People who have depression, schizophrenia, post-traumatic stress disorder (PTSD) or other forms of mental illness are more likely to be smokers. - Substance use. People who abuse alcohol and illegal drugs are more likely to be smokers. Tobacco smoke contains more than 60 known cancer-causing chemicals and thousands of other harmful substances. Even "all natural" or herbal cigarettes have chemicals that are harmful to your health. Smoking harms almost every organ of your body and impairs your body's immune system. About half of all regular smokers will die of a disease caused by tobacco. Women smokers are now at equal risk to men smokers of dying from lung cancer, COPD and cardiovascular disease caused by using tobacco. The negative health effects include: - Lung cancer and other lung diseases. Smoking causes nearly 9 out of 10 lung cancer cases. In addition, smoking causes other lung diseases, such as emphysema and chronic bronchitis. Smoking also makes asthma worse. - Other cancers. Smoking is a major cause of cancers of the esophagus, larynx, throat (pharynx) and mouth and is related to cancers of the bladder, pancreas, kidney and cervix, and some leukemias. Overall, smoking causes 30 percent of all cancer deaths. - Heart and circulatory system problems. Smoking increases your risk of dying of heart and blood vessel (cardiovascular) disease, including heart attack and stroke. Even smoking just one to four cigarettes daily increases your risk of heart disease. If you have heart or blood vessel disease, such as heart failure, smoking worsens your condition. However, stopping smoking reduces your risk of having a heart attack by 50 percent in the first year. - Diabetes. Smoking increases insulin resistance, which can set the stage for the development of type 2 diabetes. If you have diabetes, smoking can speed the progress of complications, such as kidney disease and eye problems. - Eye problems. Smoking can increase your risk of serious eye problems such as cataracts and loss of eyesight from macular degeneration. - Infertility and impotence. Smoking increases the risk of reduced fertility in women and the risk of impotence in men. - Pregnancy and newborn complications. Mothers who smoke while pregnant face a higher risk of miscarriage, preterm delivery, lower birth weight and sudden infant death syndrome (SIDS) in their newborns. - Cold, flu and other illnesses. Smokers are more prone to respiratory infections, such as colds, flu and bronchitis. - Weakened senses. Smoking deadens your senses of taste and smell, so food isn't as appetizing. - Teeth and gum disease. Smoking is associated with an increased risk of developing inflammation of the gum (gingivitis) and a serious gum infection that can destroy the support system for teeth (periodontitis). - Physical appearance. The chemicals in tobacco smoke can change the structure of your skin, causing premature aging and wrinkles. Smoking also yellows your teeth, fingers and fingernails. - Risks to your family. Nonsmoking spouses and partners of smokers have a higher risk of lung cancer and heart disease compared with people who don't live with a smoker. If you smoke, your children will be more prone to SIDS, worsening asthma, ear infections and colds. Your doctor may ask you questions or have you complete a questionnaire to get a sense of how dependent you are on nicotine. The more cigarettes you smoke each day and the sooner you smoke after awakening, the more dependent you are. Knowing your degree of dependence will help your doctor determine the best treatment plan for you. Like most smokers, you've probably made at least one serious attempt to stop. But it's rare to stop smoking on your first attempt - especially if you try to do it without help. You're much more likely to stop if you use medications and counseling, which have both been proved effective, especially in combination. Medications Many treatments, including nicotine replacement therapy and non-nicotine medications, have been approved as safe and effective in treating nicotine dependence. Using more than one medication may help you get better results. For example, combining a longer acting medication with a short-acting nicotine replacement product may be beneficial. Talk to your health care provider about the right treatment for you. If you're pregnant or breast-feeding, you smoke fewer than 10 cigarettes a day, or you're under age 18, talk to your doctor before taking any over-the-counter nicotine replacement products. Nicotine replacement therapy Nicotine replacement therapy gives you nicotine without tobacco and the harmful chemicals in tobacco smoke. Nicotine replacement products help relieve withdrawal symptoms and cravings. The best time to start using nicotine replacement medication is on the date you've set to stop smoking. Some smokers start earlier in order to reduce smoking on their way to stopping altogether. The following nicotine replacement products are available over-the-counter: - Nicotine patch (NicoDerm CQ, Habitrol, others). The patch delivers nicotine through your skin and into your bloodstream. You wear a new patch each day. You typically use the patch for eight weeks or longer. If you haven't been able to stop smoking completely after two weeks of wearing the patch, ask your doctor about adjusting the dose or adding another nicotine replacement product. Common side effects include skin irritation, insomnia and vivid dreams. - Nicotine gum (Nicorette, others). This gum delivers nicotine to your blood through the lining of your mouth. Nicotine gum is often recommended to curb cravings. Chew the gum for a few times until you feel a mild tingling or peppery taste, then park the gum between your cheek and gumline for several minutes. This chewing and parking allows nicotine to be gradually absorbed in your bloodstream. Mouth irritation is a common side effect. Other side effects are often a result of overly vigorous chewing that releases nicotine too quickly. These include heartburn, nausea and hiccups. - Nicotine lozenge (Commit, Nicorette mini lozenge, others). This lozenge dissolves in your mouth and, like nicotine gum, delivers nicotine through the lining of your mouth. Place the lozenge in your mouth between your gumline and cheek or under your tongue and allow it to dissolve. You'll start with one lozenge every one to two hours and gradually increase the time between lozenges. Avoid drinking anything right before, while using or right after the lozenge. Side effects include mouth irritation as well as nicotine-related effects such as heartburn, nausea and hiccups. These nicotine replacement products are available by prescription: - Nicotine nasal spray (Nicotrol NS). The nicotine in this product, sprayed directly into each nostril, is absorbed through your nasal membranes into your blood vessels. The nasal spray delivers nicotine a bit quicker than gum, lozenges or the patch, but not as rapidly as smoking a cigarette. It's usually prescribed for three-month periods for up to six months. Nasal and throat irritation, runny nose, sneezing and coughing are common side effects. - Nicotine inhaler (Nicotrol). This device is shaped something like a cigarette holder. You puff on it, and it delivers nicotine vapor into your mouth. You absorb the nicotine through the lining in your mouth, where it then enters your bloodstream. Common side effects are mouth and throat irritation and occasional coughing. Non-nicotine medications Medications that don't contain nicotine and are available by prescription include: - Bupropion (Zyban). The antidepressant drug bupropion increases levels of dopamine and norepinephrine, brain chemicals that are also boosted by nicotine. Typically your doctor will advise you to start bupropion one week before you stop smoking. Bupropion has the advantage of helping to minimize weight gain after you quit smoking. Common side effects include insomnia, agitation, headache and dry mouth. If you have a history of seizures or serious head trauma, such as a skull fracture, you shouldn't take this drug. - Varenicline (Chantix). This medication acts on the brain's nicotine receptors, decreasing withdrawal symptoms and reducing the feelings of pleasure you get from smoking. Typically your doctor will advise you to start varenicline one week before you stop smoking. Common side effects include nausea, headache, insomnia and vivid dreams. Rarely, varenicline has been associated with serious psychiatric symptoms, such as depressed mood and suicidal thoughts. - Nortriptyline (Pamelor). This medication may be prescribed if other medications haven't helped. This tricyclic antidepressant acts by increasing the levels of the brain neurotransmitter norepinephrine. Common side effects may include dry mouth, drowsiness, dizziness and constipation. Counseling, support groups and other programs Combining medications with behavioral counseling provides the best chance for establishing long-term smoking abstinence. Medications help you cope by reducing withdrawal symptoms including tobacco craving, while behavioral treatments help you develop the skills you need to avoid tobacco over the long run. The more time you spend with a counselor, the better your treatment results will be. Several types of counseling and support can help with stopping smoking: - Telephone counseling. No matter where you live, you can take advantage of phone counseling to help you give up tobacco. Every state in the U.S. has a telephone quit line, and some have more than one. To find the options in your state, call 800-QUIT-NOW (800-784-8669). - Individual or group counseling program. Your doctor may recommend local support groups or a treatment program where counseling is provided by a tobacco treatment specialist. Counseling helps you learn techniques for preparing to stop smoking and provides support for you during the process. Many hospitals, health care plans, health care providers and employers offer treatment programs or have tobacco treatment specialists who are certified to provide treatment for nicotine dependence. Nicotine Anonymous groups are available in many locations to provide support for smokers trying to quit. Some medical centers provide residential treatment programs - the most intensive treatment available. - Internet-based programs. Several websites offer support and strategies for people who want to stop smoking. BecomeAnEX is free and provides information and techniques as well as blogs, community forums, ask the expert and many other features. Text messaging services, including personalized reminders about a quit-smoking plan, also may prove helpful. Methods to avoid It's not a good idea to substitute another type of tobacco use for cigarette smoking. Tobacco in any form is not safe. Even products that deliver nicotine without tobacco are risky. Stick with proven stop-smoking aids and steer clear of the following products: - Dissolvable tobacco products. Tobacco pouches, lozenges, strips or other products contain small amounts of tobacco and nicotine you hold or dissolve in your mouth. There is no evidence they will help you stop smoking and little is known about their health effects. - E-cigarettes. Electronic cigarettes, or e-cigarettes, are battery-powered devices that heat liquid containing nicotine into a vapor to be inhaled. Because these products are new, there isn't much data about possible safety risks. Studies of e-cigarettes for smoking cessation have shown mixed results. For these reasons, e-cigarettes aren't recommended for people trying to quit smoking. - Flavored cigarettes. Clove cigarettes (kreteks) and flavored cigarettes (bidis) carry the same health risks as smoking regular cigarettes and can cause additional health problems. Although they're banned in the United States, flavored cigarettes are available in other countries. - Hookahs (narghiles). These are water pipes that burn tobacco, and the smoke is inhaled through a hose. They are not safer than cigarettes. The water does not filter out toxins in the smoke, and the water and pipe have a risk of transmitting infections. - Nicotine lollipops and balms. Products containing nicotine salicylate are not approved by the Food and Drug Administration, and they pose a risk for accidental use by children. - Pipes and cigars. These products have similar, though less frequent, health risks as cigarettes, and they are not a safe alternative. - Smokeless tobacco and snuff (snus). These products contain nicotine in amounts similar to cigarettes and increase your risk of mouth and throat cancer, tooth and gum diseases, and other health problems. It's important to have a plan for managing nicotine withdrawal symptoms. Withdrawal symptoms are usually the most intense during the first week after you stop smoking. They may continue for several weeks, with declining intensity. Although most nicotine withdrawal symptoms pass within a month, you may occasionally experience a strong urge or craving to smoke months after stopping. Triggers or cues that were associated with your smoking can provoke these urges or cravings. Here's what you can do to help manage nicotine withdrawal symptoms: - Exercise regularly. Regular physical activity has been found to reduce withdrawal symptoms and help people stop smoking. Exercise also helps avoid potential weight gain often associated with stopping. - Wait out cravings. Cravings or urges usually last less than five minutes. Wash the dishes, go for a walk or have a healthy snack, such as carrots, an apple or sunflower seeds, which will keep your mouth busy. Do something that keeps your hands busy, and before you know it, the urge will have passed. This is why you want to get rid of tobacco supplies when you decide to quit. You don't want to have any on hand when a craving hits. - Identify rationalizations. If you find yourself thinking, "I'll just smoke one to get through this tough time" or "Just one won't hurt," recognize it as a message that can derail your plan. Review your reasons for quitting, and replace that thought with something positive to support your stopping. - Talk to a support person. If you're feeling anxious or depressed or need encouragement, a support person can help you get through a difficult craving. - Avoid high-risk situations. Know your triggers, and stay away from people, places and situations that tempt you to smoke. - Eat regular, healthy meals. Include plenty of fruits and vegetables, and drink more water. Many products claim to be smoking-cessation aids. Many also claim to be "natural." Just remember that "natural" doesn't necessarily mean "safe." Talk with your doctor before trying any alternative medicine treatments. - Acupuncture. Acupuncture involves stimulating points on the body, typically with thin, solid, metallic needles. Several studies have been conducted on the effects of acupuncture or acupressure for smoking cessation, but there's no definitive evidence that it works. - Herbs and supplements. A few studies have been conducted on the dietary supplements SAMe, silver acetate and St. John's wort for the treatment of tobacco dependence, but there is no current evidence that any natural product improves smoking cessation rates. - Hypnosis. Although no evidence supports the use of hypnosis - also called hypnotherapy - in smoking cessation, some people find it helpful. If you choose to pursue hypnosis, talk to your doctor about finding a reputable therapist. - Meditation. Although no evidence supports the effectiveness of meditation in smoking cessation, some people find it helpful to reduce symptoms of anxiety.

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Cervical dsyplasia refers to abnormal changes in the cells on the surface of the cervix. For women of any age who have a slightly abnormal Pap test result, treatment depends on the degree of the dysplasia. Mild dysplasia (LSIL or CIN I) may go away without treatment. You may only need careful follow-up by your provider with repeat Pap smears every 6 to 12 months. If the changes do not go away or get worse, treatment is needed.

Cervical dysplasia: Cervical dysplasia refers to abnormal changes in the cells on the surface of the cervix. The cervix is the lower part of the uterus (womb) that opens at the top of the vagina. The changes are not cancer. But they are considered to be precancerous. This means they can lead to cancer of the cervix if not treated. Cervical dysplasia can develop at any age. However, follow up and treatment will depend on your age. Most often, cervical dysplasia is caused by the human papillomavirus (HPV). HPV is a common virus that is spread through sexual contact. There are many types of HPV. Some types lead to cervical dysplasia or cancer. Other types of HPV can cause genital warts. The following may increase your risk for cervical dysplasia: - Having sex before age 18 - Having a baby before age 16 - Having had multiple sexual partners - Having other illnesses, such as diabetes or HIV - Using medicines that suppress your immune system - Smoking Most of the time, there are no symptoms. You will have a pelvic exam. Cervical dysplasia that is seen on a Pap smear is called squamous intraepithelial lesion (SIL). On the Pap smear report, these changes will be described as: - Low-grade (LSIL) - High-grade (HSIL) - Possibly cancerous (malignant) - Atypical glandular cells (AGUS) - Atypical squamous cells You will need more tests if a Pap smear shows abnormal cells or cervical dysplasia. If the changes were mild, follow-up Pap smears may be all that is needed. A biopsy to confirm the condition is often needed, however. This may be done using colposcopy-directed biopsy. A colposcopy is a procedure performed in your health care provider's office. Any areas of concern will be biopsied. The biopsies are very small and most women feel only a small cramp. Dysplasia that is seen on a biopsy of the cervix is called cervical intraepithelial neoplasia (CIN). It is grouped into 3 categories: - CIN I -- mild dysplasia - CIN II -- moderate to marked dysplasia - CIN III -- severe dysplasia to carcinoma in situ Some strains of HPV are known to cause cervical cancer. An HPV DNA test can identify the high-risk types of HPV linked to this cancer. This test may be done: - As a screening test for women over age 30 - For women of any age who have a slightly abnormal Pap test result Treatment depends on the degree of dysplasia. Mild dysplasia (LSIL or CIN I) may go away without treatment. - You may only need careful follow-up by your provider with repeat Pap smears every 6 to 12 months. - If the changes do not go away or get worse, treatment is needed. Treatment for moderate-to-severe dysplasia or mild dysplasia that does not go away may include: - Cryosurgery to freeze abnormal cells - Laser therapy, which uses light to burn away abnormal tissue - LEEP (loop electrosurgical excision procedure), which uses electricity to remove abnormal tissue - Surgery to remove the abnormal tissue (cone biopsy) - Hysterectomy (in rare cases) If you have had dysplasia, you will need to have repeat exams every 12 months or as recommended by your provider. Make sure to get the HPV vaccine when it is offered to you. This vaccine prevents many cervical cancers. Early diagnosis and prompt treatment cures most cases of cervical dysplasia. However, the condition may return. Without treatment, severe cervical dysplasia may change into cervical cancer. Call your provider if your age is 21 or older and you have never had a pelvic exam and Pap smear. Ask your provider about the HPV vaccine. Girls who receive this vaccine before they become sexually active reduce their chance of getting cervical cancer. You can reduce your risk of developing cervical dysplasia by taking the following steps: - Do not smoke. Smoking increases your risk of developing more severe dysplasia and cancer. - Get vaccinated for HPV between ages 9 to 26. - Do not have sex until you are 18 or older. - Practice safe sex, and use a condom. - Practice monogamy. This means you have only one sexual partner at a time. Updated by: Irina Burd, MD, PhD, Associate Professor of Gynecology and Obstetrics at Johns Hopkins University School of Medicine, Baltimore, MD. Review provided by VeriMed Healthcare Network. Also reviewed by David Zieve, MD, MHA, Isla Ogilvie, PhD, and the A.D.A.M. Editorial team.

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Rapid weight loss diet is usually for people who have health problems because of obesity. People on these diets should be tracked closely by a health care provider. Raid weight loss is not safe for people to do on their own. These types of diets are only to be used for a short period of time, generally no more than several weeks. Some fad diets also severely limit calories to achieve rapid weight loss. In many cases, these diets are not safe.

Diet for rapid weight loss: Rapid weight loss diet is a type of diet in which you lose more than 2 pounds (1 kilogram, kg) a week over several weeks. To lose weight this quickly you eat very few calories. These diets are most often for obese people who need to lose weight quickly because of a health problem. People on these diets should be followed closely by a health care provider. Rapid weight loss is not safe for most people to do on their own. These diets are only to be used for a short time and are not recommended for more than several weeks. The types of rapid weight loss diets are described below. On a VLCD, you may have as few as 800 calories a day and may lose up to 3 to 5 pounds (1.5 to 2 kg) week. Most VLCDs use meal replacements, such as formulas, soups, shakes, and bars instead of regular meals. This helps ensure that you get all of the nutrients you need each day. A VLCD is only recommended for adults who are obese and need to lose weight for health reasons. These diets are often used before weight-loss surgery. You should only use a VLCD with the help of your health care provider. Most experts DO NOT recommend using a VLCD for more than 12 weeks. These diets usually allow about 1000 to 1200 calories a day for women and 1200 to 1600 calories a day for men. An LCD is a better choice than a VLCD for most people who want to lose weight quickly. But you should still be supervised by a provider. You will not lose weight as fast with an LCD, but you can lose just as much weight with a VLCD. An LCD may use a mix of meal replacements and regular food. This makes it easier to follow than a VLCD. Some fad diets also severely limit calories to achieve rapid weight loss. In many cases, these diets are not safe. Once you stop the diet, you are at risk for regaining the weight if you return to your old eating habits. For most people, it is safest to choose a diet in which you lose a 1/2 pound to 2 pounds (225 grams to 1 kg) a week. Rapid weight loss is more about cutting calories than exercising. Talk with your provider about what type of exercise you should do while you are on this type of diet. Your provider may suggest waiting until you are on a more long-term diet to start exercising. Rapid weight loss diet is usually for people who have health problems because of obesity. For these people, losing a lot of weight quickly can help improve: - Diabetes - High cholesterol - High blood pressure You should only follow one of these diets with the help of your provider. Losing more than one 1 or 2 pounds (0.5 to 1 kg) a week is not safe for most people. It can cause you to lose muscle, water, and bone density. Rapid weight loss can also cause some side effects including: - Gallstones - Gout - Fatigue - Constipation - Diarrhea - Nausea People who lose weight quickly are also more likely to gain back the weight quickly. This can lead to other health problems. In general, a rapid weight loss diet is not safe for children. It may also not be safe for teens, pregnant women or older adults unless a provider recommends it. If you have a health condition, it is a good idea to talk with your provider before starting this or any diet plan to lose weight. Updated by: Emily Wax, RD, The Brooklyn Hospital Center, Brooklyn, NY. Also reviewed by David Zieve, MD, MHA, Isla Ogilvie, PhD, and the A.D.A.M. Editorial team.

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Health care providers generally agree that people who are considered to be obese (have a BMI of 30 or greater) may improve their health by losing weight.If you are overweight (BMI between 25 and 29.9), experts recommend that you avoid gaining any extra weight. If you are overweight and have other risk factors, losing weight may you reduce these risks.

Understanding Adult Overweight and Obesity (Who should lose weight?): Health care providers generally agree that people who are considered to be obese (have a BMI of 30 or greater) may improve their health by losing weight.If you are overweight (BMI between 25 and 29.9), experts recommend that you avoid gaining any extra weight. If you are overweight and have other risk factors (see below), losing weight may reduce these risks. Experts recommend you try to lose weight if you have two or more of the following:Family history of certain chronic diseases. If you have close relatives who have had diseases such as heart disease or diabetes, you may be more likely to develop these problems. Pre-existing medical problems. High blood pressure, high LDL (bad) cholesterol levels, low HDL (good) cholesterol levels, high triglycerides, and high blood sugar (prediabetes or diabetes) are all warning signs of some diseases linked to obesity. Large waist size. Men who have waist sizes greater than 40 inches and women who have waist sizes greater than 35 inches are at higher risk of diabetes, unhealthy blood fats (high cholesterol and triglycerides), high blood pressure, and heart disease.Fortunately, losing even a small amount of weight can help improve your health. This weight loss may lower your blood pressure and improve other risk factors.For example, research shows that people at high risk for type 2 diabetes who lose a modest amount of weight and increase their physical activity may prevent or delay type 2 diabetes.

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Treatments for atherosclerosis may include heart-healthy lifestyle changes, medicines, and medical procedures or surgery. The goals of treatment are to lower your risk of blood clots, preventing atherosclerosis-related diseases, reducing risk factors for plaque buildup, and widening or bypassing plaque-clogged arteries.

Atherosclerosis (TREATMENTS): Treatments for atherosclerosis may include heart-healthy lifestyle changes, medicines, and medical procedures or surgery. The goals of treatment include: Lowering the risk of blood clots forming Preventing atherosclerosis-related diseases Reducing risk factors in an effort to slow or stop the buildup of plaque Relieving symptoms Widening or bypassing plaque-clogged arteries Heart-Healthy Lifestyle Changes Your doctor may recommend heart-healthy lifestyle changes if you have atherosclerosis. Heart-healthy lifestyle changes include heart-healthy eating, aiming for a healthy weight, managing stress, physical activity and quitting smoking. Medicines Sometimes lifestyle changes alone aren’t enough to control your cholesterol levels. For example, you also may need statin medications to control or lower your cholesterol. By lowering your blood cholesterol level, you can decrease your chance of having a heart attack or stroke. Doctors usually prescribe statins for people who have: Coronary heart disease, peripheral artery disease, or had a prior stroke Diabetes High LDL cholesterol levels Doctors may discuss beginning statin treatment with people who have an elevated risk for developing heart disease or having a stroke. Your doctor also may prescribe other medications to: Lower your blood pressure Lower your blood sugar levels Prevent blood clots, which can lead to heart attack and stroke Prevent inflammation Take all medicines regularly, as your doctor prescribes. Don’t change the amount of your medicine or skip a dose unless your doctor tells you to. You should still follow a heart healthy lifestyle, even if you take medicines to treat your atherosclerosis. Medical Procedures and Surgery If you have severe atherosclerosis, your doctor may recommend a medical procedure or surgery. Percutaneous coronary intervention (PCI), also known as coronary angioplasty, is a procedure that’s used to open blocked or narrowed coronary (heart) arteries. PCI can improve blood flow to the heart and relieve chest pain. Sometimes a small mesh tube called a stent is placed in the artery to keep it open after the procedure. Coronary artery bypass grafting (CABG) is a type of surgery. In CABG, arteries or veins from other areas in your body are used to bypass or go around your narrowed coronary arteries. CABG can improve blood flow to your heart, relieve chest pain, and possibly prevent a heart attack. Bypass grafting also can be used for leg arteries. For this surgery, a healthy blood vessel is used to bypass a narrowed or blocked artery in one of the legs. The healthy blood vessel redirects blood around the blocked artery, improving blood flow to the leg. Carotid endarterectomy is a type of surgery to remove plaque buildup from the carotid arteries in the neck. This procedure restores blood flow to the brain, which can help prevent a stroke.

how to prevent atherosclerosis

Arteriosclerosis occurs when the blood vessels that carry oxygen and nutrients from your heart to the rest of your body become thick and stiff - sometimes restricting blood flow to your organs and tissues. Early diagnosis and treatment can stop atherosclerosis from worsening and prevent a heart attack, stroke or another medical emergency. Lifestyle changes, such as eating a healthy diet and exercising, are often the most appropriate treatment for atherosclerosis. Sometimes, medication or surgical procedures may be recommended as well.

Arteriosclerosis / atherosclerosis: Arteriosclerosis occurs when the blood vessels that carry oxygen and nutrients from your heart to the rest of your body (arteries) become thick and stiff - sometimes restricting blood flow to your organs and tissues. Healthy arteries are flexible and elastic, but over time, the walls in your arteries can harden, a condition commonly called hardening of the arteries. Atherosclerosis is a specific type of arteriosclerosis, but the terms are sometimes used interchangeably. Atherosclerosis refers to the buildup of fats, cholesterol and other substances in and on your artery walls (plaques), which can restrict blood flow. These plaques can burst, triggering a blood clot. Although atherosclerosis is often considered a heart problem, it can affect arteries anywhere in your body. Atherosclerosis may be preventable and is treatable. Atherosclerosis develops gradually. Mild atherosclerosis usually doesn't have any symptoms. You usually won't have atherosclerosis symptoms until an artery is so narrowed or clogged that it can't supply adequate blood to your organs and tissues. Sometimes a blood clot completely blocks blood flow, or even breaks apart and can trigger a heart attack or stroke. Symptoms of moderate to severe atherosclerosis depend on which arteries are affected. For example: - If you have atherosclerosis in your heart arteries, you may have symptoms, such as chest pain or pressure (angina). - If you have atherosclerosis in the arteries leading to your brain, you may have signs and symptoms such as sudden numbness or weakness in your arms or legs, difficulty speaking or slurred speech, temporary loss of vision in one eye, or drooping muscles in your face. These signal a transient ischemic attack (TIA), which, if left untreated, may progress to a stroke. - If you have atherosclerosis in the arteries in your arms and legs, you may have symptoms of peripheral artery disease, such as leg pain when walking (claudication). - If you have atherosclerosis in the arteries leading to your kidneys, you develop high blood pressure or kidney failure. When to see a doctor If you think you have atherosclerosis, talk to your doctor. Also pay attention to early symptoms of inadequate blood flow, such as chest pain (angina), leg pain or numbness. Early diagnosis and treatment can stop atherosclerosis from worsening and prevent a heart attack, stroke or another medical emergency. Atherosclerosis is a slow, progressive disease that may begin as early as childhood. Although the exact cause is unknown, atherosclerosis may start with damage or injury to the inner layer of an artery. The damage may be caused by: - High blood pressure - High cholesterol - High triglycerides, a type of fat (lipid) in your blood - Smoking and other sources of tobacco - Insulin resistance, obesity or diabetes - Inflammation from diseases, such as arthritis, lupus or infections, or inflammation of unknown cause Once the inner wall of an artery is damaged, blood cells and other substances often clump at the injury site and build up in the inner lining of the artery. Over time, fatty deposits (plaques) made of cholesterol and other cellular products also build up at the injury site and harden, narrowing your arteries. The organs and tissues connected to the blocked arteries then don't receive enough blood to function properly. Eventually, pieces of the fatty deposits may break off and enter your bloodstream. In addition, the smooth lining of a plaque may rupture, spilling cholesterol and other substances into your bloodstream. This may cause a blood clot, which can block the blood flow to a specific part of your body, such as occurs when blocked blood flow to your heart causes a heart attack. A blood clot can also travel to other parts of your body, blocking flow to another organ. Hardening of the arteries occurs over time. Besides aging, factors that increase the risk of atherosclerosis include: - High blood pressure - High cholesterol - Diabetes - Obesity - Smoking and other tobacco use - A family history of early heart disease - Lack of exercise - An unhealthy diet The complications of atherosclerosis depend on which arteries are blocked. For example: - Coronary artery disease. When atherosclerosis narrows the arteries close to your heart, you may develop coronary artery disease, which can cause chest pain (angina), a heart attack or heart failure. - Carotid artery disease. When atherosclerosis narrows the arteries close to your brain, you may develop carotid artery disease, which can cause a transient ischemic attack (TIA) or stroke. - Peripheral artery disease. When atherosclerosis narrows the arteries in your arms or legs, you may develop circulation problems in your arms and legs called peripheral artery disease. This can make you less sensitive to heat and cold, increasing your risk of burns or frostbite. In rare cases, poor circulation in your arms or legs can cause tissue death (gangrene). - Aneurysms. Atherosclerosis can also cause aneurysms, a serious complication that can occur anywhere in your body. An aneurysm is a bulge in the wall of your artery. Most people with aneurysms have no symptoms. Pain and throbbing in the area of an aneurysm may occur and is a medical emergency. If an aneurysm bursts, you may face life-threatening internal bleeding. Although this is usually a sudden, catastrophic event, a slow leak is possible. If a blood clot within an aneurysm dislodges, it may block an artery at some distant point. - Chronic kidney disease. Atherosclerosis can cause the arteries leading to your kidneys to narrow, preventing oxygenated blood from reaching them. Over time, this can affect your kidney function, keeping waste from exiting your body. During a physical exam, your doctor may find signs of narrowed, enlarged or hardened arteries, including: - A weak or absent pulse below the narrowed area of your artery - Decreased blood pressure in an affected limb - Whooshing sounds (bruits) over your arteries, heard using a stethoscope Depending on the results of the physical exam, your doctor may suggest one or more diagnostic tests, including: - Blood tests. Lab tests can detect increased levels of cholesterol and blood sugar that may increase the risk of atherosclerosis. You'll need to go without eating or drinking anything but water for nine to 12 hours before your blood test. Your doctor should tell you ahead of time if this test will be performed during your visit. - Doppler ultrasound. Your doctor may use a special ultrasound device (Doppler ultrasound) to measure your blood pressure at various points along your arm or leg. These measurements can help your doctor gauge the degree of any blockages, as well as the speed of blood flow in your arteries. - Ankle-brachial index. This test can tell if you have atherosclerosis in the arteries in your legs and feet. Your doctor may compare the blood pressure in your ankle with the blood pressure in your arm. This is known as the ankle-brachial index. An abnormal difference may indicate peripheral vascular disease, which is usually caused by atherosclerosis. - Electrocardiogram (ECG). An electrocardiogram records electrical signals as they travel through your heart. An ECG can often reveal evidence of a previous heart attack. If your signs and symptoms occur most often during exercise, your doctor may ask you to walk on a treadmill or ride a stationary bike during an ECG. - Stress test. A stress test, also called an exercise stress test, is used to gather information about how well your heart works during physical activity. Because exercise makes your heart pump harder and faster than it does during most daily activities, an exercise stress test can reveal problems within your heart that might not be noticeable otherwise. An exercise stress test usually involves walking on a treadmill or riding a stationary bike while your heart rhythm, blood pressure and breathing are monitored. In some types of stress tests, pictures will be taken of your heart, such as during a stress echocardiogram (ultrasound) or nuclear stress test. If you're unable to exercise, you may receive a medication that mimics the effect of exercise on your heart. - Cardiac catheterization and angiogram. This test can show if your coronary arteries are narrowed or blocked. A liquid dye is injected into the arteries of your heart through a long, thin tube (catheter) that's fed through an artery, usually in your leg, to the arteries in your heart. As the dye fills your arteries, the arteries become visible on X-ray, revealing areas of blockage. - Other imaging tests. Your doctor may use ultrasound, a computerized tomography (CT) scan or magnetic resonance angiography (MRA) to study your arteries. These tests can often show hardening and narrowing of large arteries, as well as aneurysms and calcium deposits in the artery walls. Lifestyle changes, such as eating a healthy diet and exercising, are often the most appropriate treatment for atherosclerosis. Sometimes, medication or surgical procedures may be recommended as well. Medications Various drugs can slow - or even reverse - the effects of atherosclerosis. Here are some common choices: - Cholesterol medications. Aggressively lowering your low-density lipoprotein (LDL) cholesterol, the "bad" cholesterol, can slow, stop or even reverse the buildup of fatty deposits in your arteries. Boosting your high-density lipoprotein (HDL) cholesterol, the "good" cholesterol, may help, too. Your doctor can choose from a range of cholesterol medications, including drugs known as statins and fibrates. In addition to lowering cholesterol, statins have additional effects that help stabilize the lining of your heart arteries and prevent atherosclerosis. - Anti-platelet medications. Your doctor may prescribe anti-platelet medications, such as aspirin, to reduce the likelihood that platelets will clump in narrowed arteries, form a blood clot and cause further blockage. - Beta blocker medications. These medications are commonly used for coronary artery disease. They lower your heart rate and blood pressure, reducing the demand on your heart and often relieve symptoms of chest pain. Beta blockers reduce the risk of heart attacks and some heart rhythm problems. - Angiotensin-converting enzyme (ACE) inhibitors. These medications may help slow the progression of atherosclerosis by lowering blood pressure and producing other beneficial effects on the heart arteries. ACE inhibitors can also reduce the risk of recurrent heart attacks. - Calcium channel blockers. These medications lower blood pressure and are sometimes used to treat angina. - Water pills (diuretics). High blood pressure is a major risk factor for atherosclerosis. Diuretics lower blood pressure. - Other medications. Your doctor may suggest certain medications to control specific risk factors for atherosclerosis, such as diabetes. Sometimes specific medications to treat symptoms of atherosclerosis, such as leg pain during exercise, are prescribed. Surgical procedures Sometimes more aggressive treatment is needed to treat atherosclerosis. If you have severe symptoms or a blockage that threatens muscle or skin tissue survival, you may be a candidate for one of the following surgical procedures: - Angioplasty and stent placement. In this procedure, your doctor inserts a long, thin tube (catheter) into the blocked or narrowed part of your artery. A second catheter with a deflated balloon on its tip is then passed through the catheter to the narrowed area. The balloon is then inflated, compressing the deposits against your artery walls. A mesh tube (stent) is usually left in the artery to help keep the artery open. - Endarterectomy. In some cases, fatty deposits must be surgically removed from the walls of a narrowed artery. When the procedure is done on arteries in the neck (the carotid arteries), it's called a carotid endarterectomy. - Fibrinolytic therapy. If you have an artery that's blocked by a blood clot, your doctor may use a clot-dissolving drug to break it apart. - Bypass surgery. Your doctor may create a graft bypass using a vessel from another part of your body or a tube made of synthetic fabric. This allows blood to flow around the blocked or narrowed artery. Lifestyle changes can help you prevent or slow the progression of atherosclerosis. - Stop smoking. Smoking damages your arteries. If you smoke or use tobacco in any form, quitting is the best way to halt the progression of atherosclerosis and reduce your risk of complications. - Exercise most days of the week. Regular exercise can condition your muscles to use oxygen more efficiently. Physical activity can also improve circulation and promote development of new blood vessels that form a natural bypass around obstructions (collateral vessels). Exercise helps lower blood pressure and reduces your risk of diabetes. Aim to exercise at least 30 minutes most days of the week. If you can't fit it all into one session, try breaking it up into 10-minute intervals. You can take the stairs instead of the elevator, walk around the block during your lunch hour, or do some situps or pushups while watching television. - Eat healthy foods. A heart-healthy diet based on fruits, vegetables and whole grains - and low in refined carbohydrates, sugars, saturated fat and sodium - can help you control your weight, blood pressure, cholesterol and blood sugar. Try substituting whole-grain bread in place of white bread; grabbing an apple, a banana or carrot sticks as a snack; and reading nutrition labels as a guide to controlling the amount of salt and fat you eat. Use monounsaturated fats, such as olive oil, and reduce or eliminate sugar and sugar substitutes. - Lose extra pounds and maintain a healthy weight. If you're overweight, losing as few as 5 to 10 pounds (about 2.3 to 4.5 kilograms) can help reduce your risk of high blood pressure and high cholesterol, two of the major risk factors for developing atherosclerosis. Losing weight helps reduce your risk of diabetes or control your condition if you already have diabetes. - Manage stress. Reduce stress as much as possible. Practice healthy techniques for managing stress, such as muscle relaxation and deep breathing. If you have high cholesterol, high blood pressure, diabetes or another chronic disease, work with your doctor to manage the condition and promote overall health. It's thought that some foods and herbal supplements can help reduce your high cholesterol level and high blood pressure, two major risk factors for developing atherosclerosis. With your doctor's OK, you might consider these supplements and products: - Alpha-linolenic acid (ALA) - Barley - Beta-sitosterol (found in oral supplements and some margarines, such as Promise Activ) - Black tea - Blond psyllium (found in seed husk and products such as Metamucil) - Calcium - Cocoa - Cod liver oil - Coenzyme Q10 - Fish oil - Folic acid - Garlic - Green tea - Oat bran (found in oatmeal and whole oats) - Sitostanol (found in oral supplements and some margarines, such as Benecol) - Vitamin C Talk to your doctor before adding any of these supplements to your atherosclerosis treatment. Some supplements can interact with medications, causing harmful side effects. You can also practice relaxation techniques, such as yoga or deep breathing, to help you relax and reduce your stress level. These practices can temporarily reduce your blood pressure, reducing your risk of developing atherosclerosis.

how to prevent atherosclerosis

You can control most risk factors and help prevent or delay atherosclerosis. Major risk factors include unhealthy blood cholesterol levels, high LDL cholesterol, low HDL cholesterol, an unhealthy diet, or a family history of heart disease.

Atherosclerosis (WHO IS AT RISK): The exact cause of atherosclerosis isn't known. However, certain traits, conditions, or habits may raise your risk for the disease. These conditions are known as risk factors. The more risk factors you have, the more likely it is that you'll develop atherosclerosis. You can control most risk factors and help prevent or delay atherosclerosis. Other risk factors can't be controlled. Major Risk Factors Unhealthy blood cholesterol levels. This includes high LDL cholesterol (sometimes called "bad" cholesterol) and low HDL cholesterol (sometimes called "good" cholesterol). High blood pressure. Blood pressure is considered high if it stays at or above 140/90 mmHg over time. If you have diabetes or chronic kidney disease, high blood pressure is defined as 130/80 mmHg or higher. (The mmHg is millimeters of mercury—the units used to measure blood pressure.) Smoking. Smoking can damage and tighten blood vessels, raise cholesterol levels, and raise blood pressure. Smoking also doesn't allow enough oxygen to reach the body's tissues. Insulin resistance. This condition occurs if the body can't use its insulin properly. Insulin is a hormone that helps move blood sugar into cells where it's used as an energy source. Insulin resistance may lead to diabetes. Diabetes. With this disease, the body's blood sugar level is too high because the body doesn't make enough insulin or doesn't use its insulin properly. Overweight or obesity. The terms "overweight" and "obesity" refer to body weight that's greater than what is considered healthy for a certain height. Lack of physical activity. A lack of physical activity can worsen other risk factors for atherosclerosis, such as unhealthy blood cholesterol levels, high blood pressure, diabetes, and overweight and obesity. Unhealthy diet. An unhealthy diet can raise your risk for atherosclerosis. Foods that are high in saturated and trans fats, cholesterol, sodium (salt), and sugar can worsen other atherosclerosis risk factors. Older age. As you get older, your risk for atherosclerosis increases. Genetic or lifestyle factors cause plaque to build up in your arteries as you age. By the time you're middle-aged or older, enough plaque has built up to cause signs or symptoms. In men, the risk increases after age 45. In women, the risk increases after age 55. Family history of early heart disease. Your risk for atherosclerosis increases if your father or a brother was diagnosed with heart disease before 55 years of age, or if your mother or a sister was diagnosed with heart disease before 65 years of age. Although age and a family history of early heart disease are risk factors, it doesn't mean that you'll develop atherosclerosis if you have one or both. Controlling other risk factors often can lessen genetic influences and prevent atherosclerosis, even in older adults. Studies show that an increasing number of children and youth are at risk for atherosclerosis. This is due to a number of causes, including rising childhood obesity rates. Emerging Risk Factors Scientists continue to study other possible risk factors for atherosclerosis. High levels of a protein called C-reactive protein (CRP) in the blood may raise the risk for atherosclerosis and heart attack. High levels of CRP are a sign of inflammation in the body. Inflammation is the body's response to injury or infection. Damage to the arteries' inner walls seems to trigger inflammation and help plaque grow. People who have low CRP levels may develop atherosclerosis at a slower rate than people who have high CRP levels. Research is under way to find out whether reducing inflammation and lowering CRP levels also can reduce the risk for atherosclerosis. High levels of triglycerides (tri-GLIH-seh-rides) in the blood also may raise the risk for atherosclerosis, especially in women. Triglycerides are a type of fat. Studies are under way to find out whether genetics may play a role in atherosclerosis risk. Other Factors That Affect Atherosclerosis Other factors also may raise your risk for atherosclerosis, such as: Sleep apnea. Sleep apnea is a disorder that causes one or more pauses in breathing or shallow breaths while you sleep. Untreated sleep apnea can raise your risk for high blood pressure, diabetes, and even a heart attack or stroke. Stress. Research shows that the most commonly reported "trigger" for a heart attack is an emotionally upsetting event, especially one involving anger. Alcohol. Heavy drinking can damage the heart muscle and worsen other risk factors for atherosclerosis. Men should have no more than two drinks containing alcohol a day. Women should have no more than one drink containing alcohol a day.

how to prevent atherosclerosis

Type 1 diabetes cannot be prevented. There is no screening test for type 1 diabetes in people who have no symptoms.

How to prevent Type 1 diabetes?: Type 1 diabetes cannot be prevented. There is no screening test for type 1 diabetes in people who have no symptoms.

how to prevent diabetes

Keeping an ideal body weight and an active lifestyle may prevent or delay the start of type 2 diabetes. If you're overweight, losing just 5% to 7% of your body weight even helps. Some medicines can also be used to delay or prevent the start of type 2 diabetes. At this time, type 1 diabetes cannot be prevented. But there is promising research that shows type 1 diabetes may be delayed in some high risk people.

Diabetes (Prevention): Keeping an ideal body weight and an active lifestyle may prevent or delay the start of type 2 diabetes. If you're overweight, losing just 5% to 7% of your body weight even helps. Some medicines can also be used to delay or prevent the start of type 2 diabetes. At this time, type 1 diabetes cannot be prevented. But there is promising research that shows type 1 diabetes may be delayed in some high risk people.

how to prevent diabetes

At this time, researchers do not know how to prevent type 1 diabetes. There is currently research in preventing type 1 diabetes in women and girls with close relatives with diabetes.

Diabetes (Is there anything I can do to prevent type 1 diabetes?): Researchers do not know how to prevent type 1 diabetes. Researchers are still looking for ways to prevent type 1 diabetes in women and girls by studying their close relatives who have diabetes.

how to prevent diabetes

Many studies have shown that you can prevent diabetes type 2 by losing weight. Weight loss through healthy eating and more physical activity improves the way your body uses insulin and glucose.

Diabetes (Is there anything I can do to prevent type 2 diabetes?): Yes. Many studies, including the large Diabetes Prevention Program study, have proven that you can prevent diabetes by losing weight. Weight loss through healthy eating and more physical activity improves the way your body uses insulin and glucose. Learn how to eat healthier and get more physical activity.

how to prevent diabetes

You can help prevent type 2 diabetes by staying at a healthy body weight. You can get to a healthy weight by eating healthy foods, controlling your portion sizes, and leading an active lifestyle. Some medicines can also delay or prevent type 2 diabetes in people at risk of developing the disease.

Type 2 diabetes (Prevention): You can help prevent type 2 diabetes by staying at a healthy body weight. You can get to a healthy weight by eating healthy foods, controlling your portion sizes, and leading an active lifestyle. Some medicines can also delay or prevent type 2 diabetes in people at risk of developing the disease.

how to prevent diabetes

Work with your health care team to adjust your diabetes management plan as need to help you prevent hypoglycemia. Knowing your blood glucose level can help you decide how much medicine to take, what food to eat, and how physically active to be, which will help you prevent hypoglycemia. Learn about balancing your medicines, eating plan, and physical activity to prevent hypoglycemia. Ask if you should have a glucagon emergency kit to carry with you at all times.

Preventing Diabetes Problems (How can I prevent hypoglycemia if I have diabetes?): If you are taking insulin, a sulfonylurea, or a meglitinide, using your diabetes management plan and working with your health care team to adjust your plan as needed can help you prevent hypoglycemia. The following actions can also help prevent hypoglycemia:Knowing your blood glucose level can help you decide how much medicine to take, what food to eat, and how physically active to be. To find out your blood glucose level, check yourself with a blood glucose meter as often as your doctor advises.Hypoglycemia unawareness. Sometimes people with diabetes don’t feel or recognize the symptoms of hypoglycemia, a problem called hypoglycemia unawareness. If you have had hypoglycemia without feeling any symptoms, you may need to check your blood glucose more often so you know when you need to treat your hypoglycemia or take steps to prevent it. Be sure to check your blood glucose before you drive.If you have hypoglycemia unawareness or have hypoglycemia often, ask your health care provider about a continuous glucose monitor (CGM). A CGM checks your blood glucose level at regular times throughout the day and night. CGMs can tell you if your blood glucose is falling quickly and sound an alarm if your blood glucose falls too low. CGM alarms can wake you up if you have hypoglycemia during sleep.Your meal plan is key to preventing hypoglycemia. Eat regular meals and snacks with the correct amount of carbohydrates to help keep your blood glucose level from going too low. Also, if you drink alcoholic beverages, it’s best to eat some food at the same time.Physical activity can lower your blood glucose during the activity and for hours afterward. To help prevent hypoglycemia, you may need to check your blood glucose before, during, and after physical activity and adjust your medicine or carbohydrate intake. For example, you might eat a snack before being physically active or decrease your insulin dose as directed by your health care provider to keep your blood glucose from dropping too low.Tell your health care team if you have had hypoglycemia. Your health care team may adjust your diabetes medicines or other aspects of your management plan. Learn about balancing your medicines, eating plan, and physical activity to prevent hypoglycemia. Ask if you should have a glucagon emergency kit to carry with you at all times.

how to prevent diabetes

Heart health can be improved by your lifestyle choices. The following are a few ways that you can lower the risk of heart attack and potentially help you recover from one: Avoid smoking and secondhand smoke. Control your blood pressure and cholesterol levels. Get regular medical checkups. Eat a heart-healthy diet. Control stress.

Heart attack (Lifestyle and home remedies): Your lifestyle affects your heart health. The following steps can help you not only prevent but also recover from a heart attack: - Avoid smoke. The most important thing you can do to improve your heart's health is to not smoke. Also, avoid being around secondhand smoke. If you need to quit, ask your doctor for help. - Control your blood pressure and cholesterol levels. If one or both of these is high, your doctor can prescribe changes to your diet and medications. Ask your doctor how often you need to have your blood pressure and cholesterol levels monitored. - Get regular medical checkups. Some of the major risk factors for heart attack - high blood cholesterol, high blood pressure and diabetes - cause no symptoms early on. Your doctor can perform tests to check for these conditions and help you manage them, if necessary. - Exercise regularly. Regular exercise helps improve heart muscle function after a heart attack and helps prevent a heart attack by helping you to control your weight, diabetes, cholesterol and blood pressure. Exercise needn't be vigorous. Walking 30 minutes a day, five days a week can improve your health. - Maintain a healthy weight. Excess weight strains your heart and can contribute to high cholesterol, high blood pressure and diabetes. - Eat a heart-healthy diet. Saturated fat, trans fats and cholesterol in your diet can narrow arteries to your heart, and too much salt can raise blood pressure. Eat a heart-healthy diet that includes lean proteins, such as fish and beans, plenty of fruits and vegetables and whole grains. - Manage diabetes. High blood sugar is damaging to your heart. Regular exercise, eating well and losing weight all help to keep blood sugar levels at more-desirable levels. Many people also need medication to manage their diabetes. - Control stress. Reduce stress in your day-to-day activities. Rethink workaholic habits and find healthy ways to minimize or deal with stressful events in your life. - If you drink alcohol, do so in moderation. For healthy adults, that means up to one drink a day for women and men older than age 65, and up to two drinks a day for men age 65 and younger.

how to treat a heart attack

An autoimmune disorder occurs when the body's immune system attacks and destroys healthy body tissue by mistake. There are more than 80 types of autoimmune disorders. The blood cells in the body's immune system help protect against harmful substances. These substances contain antigens. The immune system produces antibodies against these antigens that enable it to destroy these harmful substances. When you have an autoimmune disorder, your immune system does not distinguish between healthy tissue and antigens. As a result, the body sets off a reaction that destroys normal tissues.

Autoimmune disorders: An autoimmune disorder occurs when the body's immune system attacks and destroys healthy body tissue by mistake. There are more than 80 types of autoimmune disorders. The blood cells in the body's immune system help protect against harmful substances. Examples include bacteria, viruses, toxins, cancer cells, and blood and tissue from outside the body. These substances contain antigens. The immune system produces antibodies against these antigens that enable it to destroy these harmful substances. When you have an autoimmune disorder, your immune system does not distinguish between healthy tissue and antigens. As a result, the body sets off a reaction that destroys normal tissues. The exact cause of autoimmune disorders is unknown. One theory is that some microorganisms (such as bacteria or viruses) or drugs may trigger changes that confuse the immune system. This may happen more often in people who have genes that make them more prone to autoimmune disorders. An autoimmune disorder may result in: - The destruction of body tissue - Abnormal growth of an organ - Changes in organ function An autoimmune disorder may affect one or more organ or tissue types. Areas often affected by autoimmune disorders include: - Blood vessels - Connective tissues - Endocrine glands such as the thyroid or pancreas - Joints - Muscles - Red blood cells - Skin A person may have more than one autoimmune disorder at the same time. Common autoimmune disorders include: - Addison disease - Celiac disease - sprue (gluten-sensitive enteropathy) - Dermatomyositis - Graves disease - Hashimoto thyroiditis - Multiple sclerosis - Myasthenia gravis - Pernicious anemia - Reactive arthritis - Rheumatoid arthritis - Sjögren syndrome - Systemic lupus erythematosus - Type I diabetes Symptoms will vary based on the type and location of the faulty immune response. Common symptoms include: - Fatigue - Fever - General ill-feeling (malaise) - Joint pain - Rash The health care provider will do a physical exam. Signs depend on the type of disease. Tests that may be done to diagnose an autoimmune disorder include: - Antinuclear antibody tests - Autoantibody tests - CBC - Comprehensive metabolic panel - C-reactive protein (CRP) - Erythrocyte sedimentation rate (ESR) - Urinalysis The goals of treatment are to: - Reduce symptoms - Control the autoimmune process - Maintain the body's ability to fight disease Treatments will depend on your disease and symptoms. Types of treatments include: - Supplements to replace a substance that the body lacks, such as thyroid hormone, vitamin B12, or insulin, due to the autoimmune disease - Blood transfusions if blood is affected - Physical therapy to help with movement if the bones, joints, or muscles are affected Many people take medicines to reduce the immune system's abnormal response. These are often called immunosuppressive medicines. Examples include corticosteroids (such as prednisone) and nonsteroid drugs such as azathioprine, cyclophosphamide, mycophenolate, sirolimus, or tacrolimus. Targeted drugs called tumor necrosis factor (TFN) blockers can be used for some diseases. The outcome depends on the disease. Most autoimmune diseases are chronic, but many can be controlled with treatment. Symptoms of autoimmune disorders can come and go. When symptoms get worse, it is called a flare-up. Complications depend on the disease. Medicines used to suppress the immune system can cause severe side effects, such as higher risk of infections. Call your health care provider if you develop symptoms of an autoimmune disorder. There is no known prevention for most autoimmune disorders. Updated by: Laura J. Martin, MD, MPH, ABIM Board Certified in Internal Medicine and Hospice and Palliative Medicine, Atlanta, GA. Also reviewed by David Zieve, MD, MHA, Isla Ogilvie, PhD, and the A.D.A.M. Editorial team.

what are autoimmune blood disorders

Your pancreas releases enzymes that aid digestion and hormones that help manage your blood sugar.

Pancreatic cancer: Pancreatic cancer begins in the tissues of your pancreas - an organ in your abdomen that lies horizontally behind the lower part of your stomach. Your pancreas releases enzymes that aid digestion and hormones that help manage your blood sugar. Pancreatic cancer typically spreads rapidly to nearby organs. It is seldom detected in its early stages. But for people with pancreatic cysts or a family history of pancreatic cancer, some screening steps might help detect a problem early. One sign of pancreatic cancer is diabetes, especially when it occurs with weight loss, jaundice or pain in the upper abdomen that spreads to the back. Treatment may include surgery, chemotherapy, radiation therapy or a combination of these. Pancreatic cancer care at Mayo Clinic Signs and symptoms of pancreatic cancer often don't occur until the disease is advanced. They may include: - Pain in the upper abdomen that radiates to your back - Loss of appetite or unintended weight loss - Depression - New-onset diabetes - Blood clots - Fatigue - Yellowing of your skin and the whites of your eyes (jaundice) When to see a doctor See your doctor if you experience unexplained weight loss or if you have persistent fatigue, abdominal pain, jaundice, or other signs and symptoms that bother you. Many conditions can cause these symptoms, so your doctor may check for these conditions as well as for pancreatic cancer. It's not clear what causes pancreatic cancer in most cases. Doctors have identified factors, such as smoking, that increase your risk of developing the disease. Understanding your pancreas Your pancreas is about 6 inches (15 centimeters) long and looks something like a pear lying on its side. It releases (secretes) hormones, including insulin, to help your body process sugar in the foods you eat. And it produces digestive juices to help your body digest food. How pancreatic cancer forms Pancreatic cancer occurs when cells in your pancreas develop mutations in their DNA. These mutations cause cells to grow uncontrollably and to continue living after normal cells would die. These accumulating cells can form a tumor. Untreated pancreatic cancer spreads to nearby organs and blood vessels. Most pancreatic cancer begins in the cells that line the ducts of the pancreas. This type of cancer is called pancreatic adenocarcinoma or pancreatic exocrine cancer. Rarely, cancer can form in the hormone-producing cells or the neuroendocrine cells of the pancreas. These types of cancer are called islet cell tumors, pancreatic endocrine cancer and pancreatic neuroendocrine tumors. Factors that may increase your risk of pancreatic cancer include: - Chronic inflammation of the pancreas (pancreatitis) - Diabetes - Family history of genetic syndromes that can increase cancer risk, including a BRCA2 gene mutation, Lynch syndrome and familial atypical mole-malignant melanoma (FAMMM) syndrome - Family history of pancreatic cancer - Smoking - Obesity - Older age, as most people are diagnosed after age 65 A large study demonstrated that the combination of smoking, long-standing diabetes and a poor diet increases the risk of pancreatic cancer beyond the risk of any one of these factors alone. As pancreatic cancer progresses, it can cause complications such as: - Weight loss. A number of factors may cause weight loss in people with pancreatic cancer. The cancer itself may cause weight loss. Nausea and vomiting caused by cancer treatments or a tumor pressing on your stomach may make it difficult to eat. Or your body may have difficulty processing nutrients from food because your pancreas isn't making enough digestive juices. Your doctor may recommend pancreatic enzyme supplements to aid in digestion. Try to maintain your weight by adding extra calories where you can and making mealtime as pleasant and relaxed as possible. - Jaundice. Pancreatic cancer that blocks the liver's bile duct can cause jaundice. Signs include yellow skin and eyes, dark-colored urine, and pale-colored stools. Jaundice usually occurs without abdominal pain. Your doctor may recommend that a plastic or metal tube (stent) be placed inside the bile duct to hold it open. This is done with the help of a procedure called endoscopic retrograde cholangiopancreatography (ERCP). During ERCP an endoscope is passed down your throat, through your stomach and into the upper part of your small intestine. A dye is then injected into the pancreatic and bile ducts through a small hollow tube (catheter) that's passed through the endoscope. Finally, images are taken of the ducts. - Pain. A growing tumor may press on nerves in your abdomen, causing pain that can become severe. Pain medications can help you feel more comfortable. Radiation therapy might help stop tumor growth temporarily to give you some relief. In severe cases, your doctor might recommend a procedure to inject alcohol into the nerves that control pain in your abdomen (celiac plexus block). This procedure stops the nerves from sending pain signals to your brain. - Bowel obstruction. Pancreatic cancer that grows into or presses on the first part of the small intestine (duodenum) can block the flow of digested food from your stomach into your intestines. Your doctor may recommend a tube (stent) be placed in your small intestine to hold it open. Or surgery may be necessary to attach your stomach to a lower point in your intestines that isn't blocked by cancer. If your doctor suspects pancreatic cancer, he or she may have you undergo one or more of the following tests: - Imaging tests that create pictures of your internal organs. These tests help your doctors visualize your internal organs, including the pancreas. Techniques used to diagnose pancreatic cancer include ultrasound, computerized tomography (CT) scans, magnetic resonance imaging (MRI) and, sometimes, positron emission tomography (PET) scans. - Using a scope to create ultrasound pictures of your pancreas. An endoscopic ultrasound (EUS) uses an ultrasound device to make images of your pancreas from inside your abdomen. The device is passed through a thin, flexible tube (endoscope) down your esophagus and into your stomach in order to obtain the images. - Removing a tissue sample for testing (biopsy). A biopsy is a procedure to remove a small sample of tissue for examination under a microscope. Your doctor may obtain a sample of tissue from the pancreas by inserting a needle through your skin and into your pancreas (fine-needle aspiration). Or he or she may remove a sample during EUS, guiding special tools into the pancreas. - Blood test. Your doctor may test your blood for specific proteins (tumor markers) shed by pancreatic cancer cells. One tumor marker test used in pancreatic cancer is called CA19-9. But the test isn't always reliable, and it isn't clear how best to use the CA19-9 test results. Some doctors measure your levels before, during and after treatment. If your doctor confirms a diagnosis of pancreatic cancer, he or she tries to determine the extent (stage) of the cancer. Using information from staging tests, your doctor assigns your pancreatic cancer a stage, which helps determine what treatments are most likely to benefit to you. The stages of pancreatic cancer are indicated by Roman numerals ranging from 0 to IV. The lowest stages indicate that the cancer is confined to the pancreas. By stage IV, the cancer has spread to other parts of the body. The cancer staging system continues to evolve and is becoming more complex as doctors improve cancer diagnosis and treatment. Your doctor uses your cancer stage to select the treatments that are right for you. Don't hesitate to ask your doctor about his or her experience with diagnosing pancreatic cancer. If you have any doubts, get a second opinion. Treatment for pancreatic cancer depends on the stage and location of the cancer as well as on your overall health and personal preferences. For most people, the first goal of pancreatic cancer treatment is to eliminate the cancer, when possible. When that isn't an option, the focus may be on improving your quality of life and preventing the cancer from growing or causing more harm. Treatment may include surgery, radiation, chemotherapy or a combination of these. When pancreatic cancer is advanced and these treatments aren't likely to offer a benefit, your doctor will offer symptom relief (palliative care) that makes you as comfortable as possible. Surgery Operations used in people with pancreatic cancer include: - Surgery for tumors in the pancreatic head. If your cancer is located in the head of the pancreas, you may consider an operation called a Whipple procedure (pancreaticoduodenectomy). The Whipple procedure is technically difficult operation to remove the head of the pancreas, the first part of the small intestine (duodenum), the gallbladder and part of the bile duct. In some situations, part of the stomach and nearby lymph nodes may be removed as well. Your surgeon reconnects the remaining parts of your pancreas, stomach and intestines to allow you to digest food. - Surgery for tumors in the pancreatic body and tail. Surgery to remove the left side (body and tail) of the pancreas is called distal pancreatectomy. Your surgeon may also remove your spleen. - Surgery to remove the entire pancreas. In some people, the entire pancreas may need to be removed. This is called total pancreatectomy. You can live relatively normally without a pancreas but do need lifelong insulin and enzyme replacement. - Surgery for tumors affecting nearby blood vessels. Many people with advanced pancreatic cancer are not considered eligible for the Whipple procedure or other pancreatic surgeries if their tumors involve nearby blood vessels. At a very few medical centers in the United States, highly specialized and experienced surgeons will safely perform these operations with removal and reconstruction of parts of blood vessels in select patients. Each of these surgeries carries the risk of bleeding and infection. After surgery some people experience nausea and vomiting if the stomach has difficulty emptying (delayed gastric emptying). Expect a long recovery after any of these procedures. You'll spend several days in the hospital and then recover for several weeks at home. Extensive research shows pancreatic cancer surgery tends to cause fewer complications when done by highly experienced surgeons at centers that do many of these operations. Don't hesitate to ask about your surgeon's and hospital's experience with pancreatic cancer surgery. If you have any doubts, get a second opinion. Chemotherapy Chemotherapy uses drugs to help kill cancer cells. These drugs can be injected into a vein or taken orally. You may receive one chemotherapy drug or a combination of them. Chemotherapy can also be combined with radiation therapy (chemoradiation). Chemoradiation is typically used to treat cancer that has spread beyond the pancreas, but only to nearby organs and not to distant regions of the body. At specialized medical centers, this combination may be used before surgery to help shrink the tumor. Sometimes it is used after surgery to reduce the risk that pancreatic cancer may recur. In people with advanced pancreatic cancer, chemotherapy is often used to control cancer growth and prolong survival. Radiation therapy Radiation therapy uses high-energy beams, such as those made from X-rays and protons, to destroy cancer cells. You may receive radiation treatments before or after cancer surgery, often in combination with chemotherapy. Or your doctor may recommend a combination of radiation and chemotherapy treatments when your cancer can't be treated surgically. Radiation therapy usually comes from a machine that moves around you, directing radiation to specific points on your body (external beam radiation). In specialized medical centers, radiation therapy may be delivered during surgery (intraoperative radiation). Radiation therapy traditionally uses X-rays to treat cancer. Some medical centers offer proton beam radiation therapy, which may be a treatment option for some people with advanced pancreatic cancer. Clinical trials Clinical trials are studies to test new treatments, such as systemic therapy, and new approaches to surgery or radiation therapy. If the treatment being studied proves to be safer and more effective than are current treatments, it can become the new standard of care. Clinical trials for pancreatic cancer might give you a chance to try new targeted therapy, chemotherapy drugs, immunotherapy treatments or vaccines. Clinical trials can't guarantee a cure, and they might have serious or unexpected side effects. On the other hand, cancer clinical trials are closely monitored to ensure they're conducted as safely as possible. And they offer access to treatments that wouldn't otherwise be available to you. Talk to your doctor about what clinical trials might be appropriate for you. Supportive (palliative) care Palliative care is specialized medical care that focuses on providing relief from pain and other symptoms of a serious illness. Palliative care specialists work with you, your family and your other doctors to provide an extra layer of support that complements your ongoing care. Palliative care can be used while undergoing aggressive treatments, such as surgery, chemotherapy and radiation therapy. When palliative care is used along with other appropriate treatments - even soon after the diagnosis - people with cancer may feel better and live longer. Palliative care is provided by teams of doctors, nurses and other specially trained professionals. These teams aim to improve the quality of life for people with cancer and their families. Palliative care is not the same as hospice care or end-of-life care. Some integrative and alternative medicine approaches may help with signs and symptoms you experience due to your cancer or cancer treatments. Treatments to help you cope with distress People with cancer frequently experience distress. Some research suggests distress is more common in people with pancreatic cancer than it is in people with other types of cancer. If you're distressed, you may have difficulty sleeping and find yourself constantly thinking about your cancer. You may feel angry or sad. Discuss your feelings with your doctor. Specialists can help you sort through your feelings and help you devise strategies for coping. In some cases, medications may help. Integrative medicine and alternative therapies may also help you cope with distress. Examples include: - Art therapy - Exercise - Meditation - Music therapy - Relaxation exercises - Spirituality Talk with your doctor if you're interested in these treatment options.

what are pancreatic enzymes?

The pancreas also makes enzymes that help the body digest and use food.

Pancreatic Islet Transplantation (What are pancreatic islets?): Pancreatic islets, also called islets of Langerhans, are tiny clusters of cells scattered throughout the pancreas. The pancreas is an organ about the size of a hand located behind the lower part of the stomach.Pancreatic islets contain several types of cells, including beta cells, that produce the hormone insulin. The pancreas also makes enzymes that help the body digest and use food.Pancreatic islets contain several types of cells, including beta cells, that produce the hormone insulin.Pancreatic islets contain several types of cells, including beta cells, that produce the hormone insulin.Pancreatic islets contain several types of cells, including beta cells, that produce the hormone insulin.When the level of blood glucose, also called blood sugar, rises after a meal, the pancreas responds by releasing insulin into the bloodstream. Insulin helps cells throughout the body absorb glucose from the bloodstream and use it for energy.Diabetes develops when the pancreas does not make enough insulin, the body's cells do not use insulin effectively, or both. As a result, glucose builds up in the blood instead of being absorbed by cells in the body.In type 1 diabetes, the beta cells of the pancreas no longer make insulin because the body's immune system has attacked and destroyed them. The immune system protects people from infection by identifying and destroying bacteria, viruses, and other potentially harmful foreign substances. A person who has type 1 diabetes must take insulin daily to live. Type 2 diabetes usually begins with a condition called insulin resistance, in which the body has trouble using insulin effectively. Over time, insulin production declines as well, so many people with type 2 diabetes eventually need to take insulin.

what are pancreatic enzymes?

The pancreas also makes enzymes that help the body digest and use food.

Pancreatic Islet Transplantation: The National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK) and other components of the National Institutes of Health (NIH) conduct and support research into many diseases and conditions.What are clinical trials, and are they right for you? Clinical trials are part of clinical research and at the heart of all medical advances. Clinical trials look at new ways to prevent, detect, or treat disease. Researchers also use clinical trials to look at other aspects of care, such as improving the quality of life for people with chronic illnesses. Find out if clinical trials are right for you.What are clinical trials, and are they right for you?Find out if clinical trials are right for youWhat clinical trials are open? Clinical trials that are currently open and are recruiting can be viewed at www.ClinicalTrials.gov.What clinical trials are open?www.ClinicalTrials.govWhat are pancreatic islets? Pancreatic islets, also called islets of Langerhans, are tiny clusters of cells scattered throughout the pancreas. The pancreas is an organ about the size of a hand located behind the lower part of the stomach. Pancreatic islets contain several types of cells, including beta cells, that produce the hormone insulin. The pancreas also makes enzymes that help the body digest and use food. Pancreatic islets contain several types of cells, including beta cells, that produce the hormone insulin. When the level of blood glucose, also called blood sugar, rises after a meal, the pancreas responds by releasing insulin into the bloodstream. Insulin helps cells throughout the body absorb glucose from the bloodstream and use it for energy. Diabetes develops when the pancreas does not make enough insulin, the body's cells do not use insulin effectively, or both. As a result, glucose builds up in the blood instead of being absorbed by cells in the body. In type 1 diabetes, the beta cells of the pancreas no longer make insulin because the body's immune system has attacked and destroyed them. The immune system protects people from infection by identifying and destroying bacteria, viruses, and other potentially harmful foreign substances. A person who has type 1 diabetes must take insulin daily to live. Type 2 diabetes usually begins with a condition called insulin resistance, in which the body has trouble using insulin effectively. Over time, insulin production declines as well, so many people with type 2 diabetes eventually need to take insulin. What is pancreatic islet transplantation? The two types of pancreatic islet transplantation are allo-transplantation auto-transplantation Pancreatic islet allo-transplantation is a procedure in which islets from the pancreas of a deceased organ donor are purified, processed, and transferred into another person. Pancreatic islet allo-transplantation is currently labeled an experimental procedure until the transplantation technology is considered successful enough to be labeled therapeutic. For more information, see the section "What are the obstacles to pancreatic islet allo-transplantation?" For each pancreatic islet allo-transplant infusion, researchers use specialized enzymes to remove islets from the pancreas of a single, deceased donor. The islets are purified and counted in a lab. Transplant patients typically receive two infusions with an average of 400,000 to 500,000 islets per infusion. Once implanted, the beta cells in these islets begin to make and release insulin. Pancreatic islet allo-transplantation is performed in certain patients with type 1 diabetes whose blood glucose levels are difficult to control. The goals of the transplant are to help these patients achieve normal blood glucose levels with or without daily injections of insulin and to reduce or eliminate hypoglycemia unawareness—a dangerous condition in which a person with diabetes cannot feel the symptoms of hypoglycemia, or low blood glucose. When a person feels the symptoms of hypoglycemia, steps can be taken to bring blood glucose levels back to normal. Pancreatic islet allo-transplants are only performed at hospitals that have received permission from the U.S. Food and Drug Administration (FDA) for clinical research on islet transplantation. The transplants are often performed by a radiologist—a doctor who specializes in medical imaging. The radiologist uses x rays and ultrasound to guide the placement of a thin, flexible tube called a catheter through a small incision in the upper abdomen—the area between the chest and hips—and into the portal vein of the liver. The portal vein is the major vein that supplies blood to the liver. The islets are then infused, or pushed, slowly into the liver through the catheter. Usually, the patient receives a local anesthetic and a sedative. In some cases, a surgeon performs the transplant using general anesthesia. Patients often need two or more transplants to get enough functioning islets to stop or reduce their need for insulin injections. Pancreatic islet allo-transplantation (above). In islet auto-transplantation, the islets are extracted from the patient's own pancreas. Pancreatic islet auto-transplantation is performed following total pancreatectomy—the surgical removal of the whole pancreas—in patients with severe and chronic, or long lasting, pancreatitis that cannot be managed by other treatments. This procedure is not considered experimental. Patients with type 1 diabetes cannot receive pancreatic islet auto-transplantation. The procedure is performed in a hospital, and the patient receives general anesthesia. The surgeon first removes the pancreas and then extracts and purifies islets from the pancreas. Within hours, the islets are infused through a catheter into the patient's liver. The goal is to give the body enough healthy islets to make insulin. What happens after pancreatic islet transplantation? Pancreatic islets begin to release insulin soon after transplantation. However, full islet function and new blood vessel growth from the new islets take time. Transplant recipients usually take insulin injections until the islets are fully functional. They may also receive various medications before and after transplantation to promote successful implantation and long-term functioning of the islets. However, the autoimmune response that destroyed transplant recipients' own islets in the first place can happen again and attack the transplanted islets. Although the liver has been the traditional site for infusing the donor islets, researchers are investigating alternative sites, such as muscle tissue or another organ. What are the benefits and risks of pancreatic islet allo-transplantation? The benefits of pancreatic islet allo-transplantation include improved blood glucose control, reducing or eliminating the need for insulin injections to control diabetes, and preventing hypoglycemia. An alternative to islet transplantation is whole organ pancreas transplantation that is performed most often with kidney transplantation. The advantages of whole organ pancreas transplantation are less dependence on insulin and longer duration of organ function. The main disadvantage is that a whole organ transplant is a major surgery that involves a greater risk of complications and even death. Pancreatic islet allo-transplantation can also help reverse hypoglycemia unawareness. Research has shown that even partial islet function after a transplant can eliminate hypoglycemia unawareness. Improved blood glucose control from a successful allo-transplant may also slow or prevent the progression of diabetes problems, such as heart disease, kidney disease, and nerve or eye damage. Research to evaluate this possibility is ongoing. The risks of pancreatic islet allo-transplantation include the risks associated with the transplant procedure—particularly bleeding and blood clots. The transplanted islets may not function well or may stop functioning entirely. Other risks are the side effects from the immunosuppressive medications that transplant recipients must take to stop the immune system from rejecting the transplanted islets. When a patient has received a kidney transplant and is already taking immunosuppressive medications, the only additional risks are the islet infusion and the side effects from the immunosuppressive medications given at the time of allo-transplantation. Immunosuppressive medications are not needed in the case of an auto-transplant because the infused cells come from the patient's own body. Read more in the section "What is the role of immunosuppressive medications?" Collaborative Islet Transplant Registry Data In its 2010 annual report,1 the Collaborative Islet Transplant Registry presented data on 571 patients who received pancreatic islet allo-transplants between 1999 and 2009. Although most procedures were pancreatic islet allo-transplants alone, 90 procedures were done in conjunction with a kidney transplant. The majority of the islet transplant patients received one or two infusions of islets; at the end of the decade, the average number of islets received per infusion was 463,000. According to the report, about 60 percent of transplant recipients achieved insulin independence—defined as being able to stop insulin injections for at least 14 days—during the year following transplantation. By the end of the second year, 50 percent of recipients were able to stop taking insulin for at least 14 days. However, long-term insulin independence is difficult to maintain, and eventually most recipients needed to start taking insulin again. The report identified factors linked to better outcomes for recipients, including age—35 years or older lower pre-transplant triglyceride, or blood fat, levels lower pre-transplant insulin use The report noted that even partial function of the transplanted islets can improve blood glucose control and reduce the amount of insulin needed after loss of insulin independence. 1Collaborative Islet Transplant Registry seventh annual report. Collaborative Islet Transplant Registry website. https://web.emmes.com/study/isl//reports/01062012_7thAnnualReport.pdf (PDF, 8.2 MB) Updated December 30, 2011. Accessed July 23, 2013. What is the role of immunosuppressive medications? Immunosuppressive medications are needed to prevent rejection—a common problem with any transplant. Scientists have made many advances in islet transplantation in recent years. In 2000, islet transplantation researchers at the University of Alberta in Edmonton, Canada, reported their findings in the New England Journal of Medicine. Their transplant protocol, known as the Edmonton protocol, has since been adapted by transplant centers around the world and continues to be refined. The Edmonton protocol introduced the use of a new combination of immunosuppressive medications, also called anti-rejection medications, including daclizumab (Zenapax), sirolimus (Rapamune), and tacrolimus (Prograf). Researchers continue to develop and study modifications to the Edmonton protocol, including improved medication regimens that promote successful transplants. Medication regimens vary from one transplant center to another. Examples of other immunosuppressive medications used in islet transplantation include antithymocyte globulin (Thymoglobulin), alemtuzumab (Campath), basiliximab (Simulect), belatacept (Nulojix), etanercept (Enbrel), everolimus (Zortress), and mycophenolate mofetil (CellCept, Myfortic). Researchers are also evaluating nonimmunosuppresive medications, such as exenatide (Byetta) and sitagliptin (Januvia). Immunosuppressive medications have significant side effects, and their long-term effects are still not fully known. Immediate side effects may include mouth sores and gastrointestinal problems, such as upset stomach and diarrhea. Patients may also have increased blood cholesterol, or blood fat, levels high blood pressure anemia, a condition in which red blood cells are fewer or smaller than normal, which prevents the body's cells from getting enough oxygen fatigue decreased white blood cell counts decreased kidney function increased susceptibility to bacterial and viral infections Taking immunosuppressive medications also increases the risk of developing certain tumors and cancers. Scientists are seeking ways to achieve immune tolerance of the transplanted islets, in which the patient's immune system no longer recognizes the islets as foreign. Immune tolerance would allow patients to maintain transplanted islets without long-term use of immunosuppressive medications. For example, one approach is to transplant islets encapsulated with a special coating, which may help to prevent rejection. What are the obstacles to pancreatic islet allo-transplantation? The shortage of islets from donors is a significant obstacle to widespread use of pancreatic islet allo-transplantation. According to the Organ Procurement and Transplantation Network, in 2011 there were about 8,000 deceased organ donors available in the United States.2 However, only 1,562 pancreases were recovered from donors in 2011.2 Also, many donated pancreases are not suitable for extracting islets for transplants because they do not meet the selection criteria, and islets are often damaged or destroyed during processing. Therefore, only a small number of islet transplants can be performed each year. Researchers are pursuing various approaches to solve this shortage of islets, such as transplanting islets from a single, donated pancreas, using only a portion of the pancreas from a living donor, or using islets from pigs. Researchers have transplanted pig islets into other animals, including monkeys, by encapsulating the islets with a special coating or by using medications to prevent rejection. Another approach is creating islets from other types of cells, such as stem cells. New technologies could then be employed to grow islets in the lab. Financial barriers also prevent the widespread use of islet allo-transplantation. Until the transplantation technology is considered successful enough to be labeled therapeutic rather than experimental, the costs of islet allo-transplants must be covered by research funds. Health insurance companies and Medicare generally do not cover experimental procedures. Federal law also does not allow health care providers or hospitals to charge patients or health insurance companies for research procedures. Some patient advocates and islet researchers feel that islet allo-transplantation is close to having a therapeutic label. The National Institutes of Health (NIH) currently supports studies that are working toward obtaining FDA licensure to reclassify islet allo-transplantation as therapeutic. In other countries, such as Canada and Scandinavia, islet allo-transplantation is no longer considered experimental and is an accepted therapy in certain patients. 2National data. Organ Procurement and Transplantation Network website. https://optn.transplant.hrsa.gov/data/. Accessed July 23, 2013. Eating, Diet, and Nutrition A person who receives a pancreatic islet transplant should follow a meal plan worked out with a health care provider and dietitian. Immunosuppressive medications taken after the transplant can cause changes in a person's body, such as weight gain. A healthy diet after the transplant is important to control weight gain, blood pressure, blood cholesterol, and blood glucose levels. Points to Remember Pancreatic islets, also called islets of Langerhans, are tiny clusters of cells scattered throughout the pancreas. Pancreatic islets contain several types of cells, including beta cells, that produce the hormone insulin. Insulin helps cells throughout the body absorb glucose from the bloodstream and use it for energy. Pancreatic islet allo-transplantation is a procedure in which islets from the pancreas of a deceased organ donor are purified, processed, and transferred into another person. Pancreatic islet allo-transplantation is performed in certain patients with type 1 diabetes whose blood glucose levels are difficult to control. The goals of the transplant are to help these patients achieve normal blood glucose levels with or without daily injections of insulin and to reduce or eliminate hypoglycemia unawareness. Pancreatic islet auto-transplantation is performed following total pancreatectomy in patients with severe and chronic pancreatitis that cannot be managed by other treatments. This procedure is not considered experimental. Patients with type 1 diabetes cannot receive pancreatic islet auto-transplantation. The shortage of islets from donors is a significant obstacle to widespread use of pancreatic islet allo-transplantation. Financial barriers also prevent the widespread use of islet allo-transplantation. Until the transplantation technology is considered successful enough to be labeled therapeutic rather than experimental, the costs of islet allo-transplants must be covered by research funds. Clinical Trials The National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK) and other components of the National Institutes of Health (NIH) conduct and support research into many diseases and conditions. What are clinical trials, and are they right for you? Clinical trials are part of clinical research and at the heart of all medical advances. Clinical trials look at new ways to prevent, detect, or treat disease. Researchers also use clinical trials to look at other aspects of care, such as improving the quality of life for people with chronic illnesses. Find out if clinical trials are right for you. What clinical trials are open? Clinical trials that are currently open and are recruiting can be viewed at www.ClinicalTrials.gov.

what are pancreatic enzymes?

There are many risk factors for type 2 diabetes. Here a few of them: Being over 45 years of age, being overweight, having a first-degree relative with diabetes, or being African American, American Indian or Alaska Native, Asian American or Pacific Islander, or Hispanic American/Latino. Additionally, other risk factors include giving birth to at least one baby weighing more than 9 pounds, having high blood pressure, having abnormal cholesterol levels, or exercising fewer than three times a week.

Who is at risk for Diabetes??: Here are the risk factors for type 2 diabetes. - being over 45 years of age - being overweight or obese - having a first-degree relative -- a parent, brother, or sister -- with diabetes - being African American, American Indian or Alaska Native, Asian American or Pacific Islander, or Hispanic American/Latino. (Watch the video to learn more about native Americans and diabetes risk. To enlarge the video, click the brackets in the lower right-hand corner. To reduce the video, press the Escape (Esc) button on your keyboard.) - having gestational diabetes, or giving birth to at least one baby weighing more than 9 pounds - having blood pressure of 140/90 or higher, or having been told that you have high blood pressure. - having abnormal cholesterol levels -- an HDL cholesterol level of 35 or lower, or a triglyceride level of 250 or higher - being inactive or exercising fewer than three times a week. - having polycystic ovary syndrome, also called PCOS (women only) - on previous testing, having prediabetes (an A1C level of 5.7 to 6.4 percent), impaired glucose tolerance (IGT) or impaired fasting glucose (IFG) - history of cardiovascular disease (disease affecting the heart and blood vessels). being over 45 years of age being overweight or obese having a first-degree relative -- a parent, brother, or sister -- with diabetes being African American, American Indian or Alaska Native, Asian American or Pacific Islander, or Hispanic American/Latino. (Watch the video to learn more about native Americans and diabetes risk. To enlarge the video, click the brackets in the lower right-hand corner. To reduce the video, press the Escape (Esc) button on your keyboard.) having gestational diabetes, or giving birth to at least one baby weighing more than 9 pounds having blood pressure of 140/90 or higher, or having been told that you have high blood pressure. having abnormal cholesterol levels -- an HDL cholesterol level of 35 or lower, or a triglyceride level of 250 or higher being inactive or exercising fewer than three times a week. having polycystic ovary syndrome, also called PCOS (women only) on previous testing, having prediabetes (an A1C level of 5.7 to 6.4 percent), impaired glucose tolerance (IGT) or impaired fasting glucose (IFG) history of cardiovascular disease (disease affecting the heart and blood vessels).

what are the risk factors of type ii diabetes

Type 1 and type 2 are the two major types of diabetes. In type 1 diabetes, most often diagnosed in children or young adults, the body makes little or no insulin. The exact cause is unknown. In type 2 diabetes, the body doesn't use insulin as well as it should.

Diabetes: Diabetes is a chronic disease in which the body cannot regulate the amount of sugar in the blood. Insulin is a hormone produced by the pancreas to control blood sugar. Diabetes can be caused by too little insulin, resistance to insulin, or both. To understand diabetes, it is important to first understand the normal process by which food is broken down and used by the body for energy. Several things happen when food is digested: - A sugar called glucose enters the bloodstream. Glucose is a source of fuel for the body. - An organ called the pancreas makes insulin. The role of insulin is to move glucose from the bloodstream into muscle, fat, and liver cells, where it can be stored or used as fuel. People with diabetes have high blood sugar because their body cannot move sugar from the blood into muscle and fat cells to be burned or stored for energy, and/or because their liver makes too much glucose and releases it into the blood. This is because either: - Their pancreas does not make enough insulin - Their cells do not respond to insulin normally - Both of the above There are two major types of diabetes. The causes and risk factors are different for each type: - Type 1 diabetes can occur at any age, but it is most often diagnosed in children, teens, or young adults. In this disease, the body makes little or no insulin. This is because the pancreas cells that make insulin stop working. Daily injections of insulin are needed. The exact cause is unknown. - Type 2 diabetes is much more common. It most often occurs in adulthood, but because of high obesity rates, children and teens are now being diagnosed with this disease. Some people with type 2 diabetes do not know they have it. With type 2 diabetes, the body is resistant to insulin and doesn't use insulin as well as it should. - There are other causes of diabetes, and some people cannot be classified as type 1 or type 2. Gestational diabetes is high blood sugar that develops at any time during pregnancy in a woman who does not have diabetes. If your parent, brother, or sister has diabetes, you may be more likely to develop the disease. A high blood sugar level can cause several symptoms, including: - Blurry vision - Excess thirst - Fatigue - Frequent urination - Hunger - Weight loss Because type 2 diabetes develops slowly, some people with high blood sugar have no symptoms. Symptoms of type 1 diabetes develop over a short period. People may be very sick by the time they are diagnosed. After many years, diabetes can lead to other serious problems. These problems are known as diabetes complications, and include: - Eye problems, including trouble seeing (especially at night), light sensitivity, and blindness - Sores and infections of the leg or foot, which if untreated, can lead to amputation of the leg or foot - Damage to nerves in the body, causing pain, tingling, a loss of feeling, problems digesting food, and erectile dysfunction - Kidney problems, which can lead to kidney failure - Weakened immune system, which can lead to more frequent infections - Increased chance of having a heart attack or stroke A urine analysis may show high blood sugar. But a urine test alone does not diagnose diabetes. Your health care provider may suspect that you have diabetes if your blood sugar level is higher than 200 mg/dL (11.1 mmol/L). To confirm the diagnosis, one or more of the following tests must be done. Blood tests: - Fasting blood glucose level. Diabetes is diagnosed if the fasting glucose level is higher than 126 mg/dL (7.0 mmol/L) on two different tests. Levels between 100 and 126 mg/dL (5.5 and 7.0 mmol/L) are called impaired fasting glucose or prediabetes. These levels are risk factors for type 2 diabetes. - Hemoglobin A1c (A1C) test. Normal is less than 5.7%; prediabetes is 5.7% to 6.4%; and diabetes is 6.5% or higher. - Oral glucose tolerance test. Diabetes is diagnosed if the glucose level is higher than 200 mg/dL (11.1 mmol/L) 2 hours after drinking a sugar drink (this test is used more often for type 2 diabetes). Screening for type 2 diabetes in people who have no symptoms is recommended for: - Overweight children who have other risk factors for diabetes, starting at age 10 and repeated every 3 years. - Overweight adults (BMI of 25 or higher) who have other risk factors such as having high blood pressure, or having a mother, father, sister or brother with diabetes. - Adults over age 45, repeated every 3 years. Type 2 diabetes may be reversed with lifestyle changes, especially losing weight with exercise and by eating healthier foods. Some cases of type 2 diabetes can also be improved with weight loss surgery. There is no cure for type 1 diabetes. Treating either type 1 diabetes or type 2 diabetes involves medicines, diet, and exercise to control blood sugar level. Everyone with diabetes should receive proper education and support about the best ways to manage their diabetes. Ask your provider about seeing a diabetes nurse educator. Getting better control over your blood sugar, cholesterol, and blood pressure levels helps reduce the risk of kidney disease, eye disease, nervous system disease, heart attack, and stroke. To prevent diabetes complications, visit your provider at least 2 to 4 times a year. Talk about any problems you are having. Follow your provider's instructions on managing your diabetes. Many resources can help you understand more about diabetes. If you have diabetes, you can also learn ways to manage your condition and prevent diabetes complications. Diabetes is a lifelong disease and there is no cure. Tight control of blood glucose can prevent or delay diabetes complications. But these problems can occur, even in people with good diabetes control. After many years, diabetes can lead to serious health problems: - You could have eye problems, including trouble seeing (especially at night), and light sensitivity. You could become blind. - Your feet and skin can develop sores and infections. After a long time, your foot or leg may need to be amputated. Infection can also cause pain and itching in other parts of the body. - Diabetes may make it harder to control your blood pressure and cholesterol. This can lead to a heart attack, stroke, and other problems. It can become harder for blood to flow to your legs and feet. - Nerves in your body can get damaged, causing pain, tingling, and numbness. - Because of nerve damage, you could have problems digesting the food you eat. You could feel weakness or have trouble going to the bathroom. Nerve damage can make it harder for men to have an erection. - High blood sugar and other problems can lead to kidney damage. Your kidneys may not work as well as they used to. They may even stop working so that you need dialysis or a kidney transplant. Keeping an ideal body weight and an active lifestyle may prevent or delay the start of type 2 diabetes. If you're overweight, losing just 5% to 7% of your body weight even helps. Some medicines can also be used to delay or prevent the start of type 2 diabetes. At this time, type 1 diabetes cannot be prevented. But there is promising research that shows type 1 diabetes may be delayed in some high risk people. Updated by: Robert Hurd, MD, Professor of Endocrinology and Health Care Ethics, Xavier University, Cincinnati, OH. Review provided by VeriMed Healthcare Network. Also reviewed by David Zieve, MD, MHA, Medical Director, Brenda Conaway, Editorial Director, and the A.D.A.M. Editorial team.

what are the risk factors of type ii diabetes

Certain factors can increase your risk for diabetes. For type 1 diabetes, scientists do not currently know exactly what causes the body's immune system to attack the cells, but many believe that both genetic factors and environmental factors are involved. There are many risk factors for type 2 diabetes. Here a few of them: Being over 45 years of age, being overweight, having a first-degree relative with diabetes, or being African American, American Indian or Alaska Native, Asian American or Pacific Islander, or Hispanic American/Latino. Additionally, other risk factors include giving birth to at least one baby weighing more than 9 pounds, having high blood pressure, having abnormal cholesterol levels, or exercising fewer than three times a week.

Who is at risk for Diabetes??: Diabetes is a serious, life-long disease. It can lead to problems such as heart disease, stroke, vision loss, kidney disease, and nerve damage. More than 8 million people in the United States have type 2 diabetes and dont know it. Many people dont find out they have diabetes until they are faced with problems such as blurry vision or heart trouble. Certain factors can increase your risk for diabetes, and its important to know what they are. Type 1 Diabetes Type 1 diabetes is an autoimmune disease. In an autoimmune reaction, antibodies, or immune cells, attach to the bodys own healthy tissues by mistake, signaling the body to attack them. At present, scientists do not know exactly what causes the body's immune system to attack the cells, but many believe that both genetic factors and environmental factors, such as viruses, are involved. Studies are now underway to identify these factors and prevent type 1 diabetes in people at risk. Learn more about the causes of type 1 diabetes. Type 2 Diabetes Type 2 diabetes -- the most common form -- is linked closely to overweight and obesity, high blood pressure, and abnormal cholesterol levels. Many people with type 2 diabetes are overweight. Being overweight can keep your body from using insulin properly. Genes also play an important role in a person's risk for type 2 diabetes. Having certain genes or combinations of genes may increase or decrease a persons risk for developing the disease. Here are the risk factors for type 2 diabetes. - being over 45 years of age - being overweight or obese - having a first-degree relative -- a parent, brother, or sister -- with diabetes - being African American, American Indian or Alaska Native, Asian American or Pacific Islander, or Hispanic American/Latino. (Watch the video to learn more about native Americans and diabetes risk. To enlarge the video, click the brackets in the lower right-hand corner. To reduce the video, press the Escape (Esc) button on your keyboard.) being over 45 years of age being overweight or obese having a first-degree relative -- a parent, brother, or sister -- with diabetes being African American, American Indian or Alaska Native, Asian American or Pacific Islander, or Hispanic American/Latino. (Watch the video to learn more about native Americans and diabetes risk. To enlarge the video, click the brackets in the lower right-hand corner. To reduce the video, press the Escape (Esc) button on your keyboard.) - having gestational diabetes, or giving birth to at least one baby weighing more than 9 pounds - having blood pressure of 140/90 or higher, or having been told that you have high blood pressure. - having abnormal cholesterol levels -- an HDL cholesterol level of 35 or lower, or a triglyceride level of 250 or higher - being inactive or exercising fewer than three times a week. - having polycystic ovary syndrome, also called PCOS (women only) - on previous testing, having prediabetes (an A1C level of 5.7 to 6.4 percent), impaired glucose tolerance (IGT) or impaired fasting glucose (IFG) - history of cardiovascular disease (disease affecting the heart and blood vessels). having gestational diabetes, or giving birth to at least one baby weighing more than 9 pounds having blood pressure of 140/90 or higher, or having been told that you have high blood pressure. having abnormal cholesterol levels -- an HDL cholesterol level of 35 or lower, or a triglyceride level of 250 or higher being inactive or exercising fewer than three times a week. having polycystic ovary syndrome, also called PCOS (women only) on previous testing, having prediabetes (an A1C level of 5.7 to 6.4 percent), impaired glucose tolerance (IGT) or impaired fasting glucose (IFG) history of cardiovascular disease (disease affecting the heart and blood vessels). Learn more about the causes of type 2 diabetes. Prediabetes and Type 2 Diabetes Before people develop type 2 diabetes, they usually have prediabetes -- a condition in which blood glucose levels are higher than normal, but not high enough for a diagnosis of diabetes. People with prediabetes are more likely to develop diabetes within 10 years and also are more likely to have a heart attack or stroke. Prediabetes is increasingly common in the U.S. adult population. In 2012, about 86 million people in the U.S. had pre-diabetes, and 51% of those 65 or older had prediabetes. Learn more about prediabetes. Gestational Diabetes Some women develop diabetes during the late stages of pregnancy. This is called gestational diabetes. Although this form of diabetes usually goes away after the baby is born, a woman who has had it has a lifelong risk for developing diabetes, mostly type 2.

what are the risk factors of type ii diabetes

Risk factors for type 2 diabetes include family history and genes, as well as low activity level, poor diet, and excess body weight around the waist.

Type 2 diabetes: Type 2 diabetes is a lifelong (chronic) disease in which there is a high level of sugar (glucose) in the blood. Type 2 diabetes is the most common form of diabetes. Insulin is a hormone produced in the pancreas by special cells, called beta cells. The pancreas is below and behind the stomach. Insulin is needed to move blood sugar (glucose) into cells. Inside the cells, glucose is stored and later used for energy. When you have type 2 diabetes, your fat, liver, and muscle cells do not respond correctly to insulin. This is called insulin resistance. As a result, blood sugar does not get into these cells to be stored for energy. When sugar cannot enter cells, a high level of sugar builds up in the blood. This is called hyperglycemia. The body is unable to use the glucose for energy. This leads to the symptoms of type 2 diabetes. Type 2 diabetes usually develops slowly over time. Most people with the disease are overweight or obese when they are diagnosed. Increased fat makes it harder for your body to use insulin the correct way. Type 2 diabetes can also develop in people who are thin. This is more common in older adults. Family history and genes play a role in type 2 diabetes. Low activity level, poor diet, and excess body weight around the waist increase your chance of getting the disease. People with type 2 diabetes often have no symptoms at first. They may not have symptoms for many years. Early symptoms of diabetes caused by a high blood sugar level may include: - Bladder, kidney, skin, or other infections that are more frequent or heal slowly - Fatigue - Hunger - Increased thirst - Increased urination - Blurred vision After many years, diabetes can lead to serious health problems, and as a result, many other symptoms. Your doctor may suspect that you have diabetes if your blood sugar level is higher than 200 milligrams per deciliter (mg/dL) or 11.1 mmol/L. To confirm the diagnosis, one or more of the following tests must be done. - Fasting blood glucose level. Diabetes is diagnosed if it is higher than 126 mg/dL (7.0 mmol/L) two different times. - Hemoglobin A1c (A1C) test. Diabetes is diagnosed if the test result is 6.5% or higher. - Oral glucose tolerance test. Diabetes is diagnosed if the glucose level is higher than 200 mg/dL (11.1 mmol/L) 2 hours after drinking a special sugar drink. Diabetes screening is recommended for: - Overweight children who have other risk factors for diabetes, starting at age 10 and repeated every 2 years - Overweight adults (BMI of 25 or higher) who have other risk factors - Adults starting at age 45 every 3 years, or at a younger age if the person has risk factors If you have been diagnosed with type 2 diabetes, you need to work closely with your doctor. See your doctor as often as instructed. This may be every 3 months. The following exams and tests will help you and your doctor monitor your diabetes and prevent problems. - Check the skin and bones on your feet and legs. - Check if your feet are getting numb (diabetic nerve disease). - Have your blood pressure checked at least once a year (blood pressure goal should be 140/80 mm Hg or lower). - Have your A1C tested every 6 months if your diabetes is well controlled. Have the test every 3 months if your diabetes is not well controlled. - Have your cholesterol and triglyceride levels checked once a year. - Get tests once a year to make sure your kidneys are working well (microalbuminuria and serum creatinine). - Visit your eye doctor at least once a year, or more often if you have signs of diabetic eye disease. - See the dentist every 6 months for a thorough dental cleaning and exam. Make sure your dentist and hygienist know that you have diabetes. The goal of treatment at first is to lower your high blood glucose level. Long-term goals are to prevent complications. These are health problems from diabetes. The most important way to treat and manage type 2 diabetes is by being active and eating healthy foods. Everyone with diabetes should receive proper education and support about the best ways to manage their diabetes. Ask your doctor about seeing a diabetes nurse educator and a dietitian. LEARN THESE SKILLS Learning diabetes management skills will help you live well with diabetes. These skills help prevent health problems and the need for medical care. Skills include: - How to test and record your blood glucose - What, when, and how much to eat - How to safely increase your activity and control your weight - How to take medicines, if needed - How to recognize and treat low and high blood sugar - How to handle sick days - Where to buy diabetes supplies and how to store them It may take several months to learn these skills. Keep learning about diabetes, its complications, and how to control and live well with the disease. Stay up-to-date on new research and treatments. MANAGING YOUR BLOOD SUGAR Checking your blood sugar level yourself and writing down the results tells you how well you are managing your diabetes. Talk to your doctor and diabetes educator about how often to check. To check your blood sugar level, you use a device called a glucose meter. Usually, you prick your finger with a small needle called a lancet. This gives you a tiny drop of blood. You place the blood on a test strip and put the strip into the meter. The meter gives you a reading that tells you the level of your blood sugar. Your doctor or diabetes educator will help set up a testing schedule for you. Your doctor will help you set a target range for your blood sugar numbers. Keep these factors in mind: - Most people with type 2 diabetes only need to check their blood sugar once or twice a day. - If your blood sugar level is under control, you may only need to check it a few times a week. - You may test yourself when you wake up, before meals, and at bedtime. - You may need to test more often when you are sick or under stress. - You may need to test more often if you are having more frequent low blood sugar symptoms. Keep a record of your blood sugar for yourself and your doctor. Based on your numbers, you may need to make changes to your meals, activity, or medicines to keep your blood sugar level in the right range. HEALTHY EATING AND WEIGHT CONTROL Work closely with your health care providers to learn how much fat, protein, and carbohydrates you need in your diet. Your meal plans should fit your lifestyle and habits and should include foods that you like. Managing your weight and having a well-balanced diet are important. Some people with type 2 diabetes can stop taking medicines after losing weight. This does not mean that their diabetes is cured. They still have diabetes. Very obese people whose diabetes is not well managed with diet and medicine may consider weight loss (bariatric) surgery. REGULAR PHYSICAL ACTIVITY Regular activity is important for everyone. It is even more important when you have diabetes. Exercise is good for your health because it: - Lowers your blood sugar level without medicine - Burns extra calories and fat to help manage your weight - Improves blood flow and blood pressure - Increases your energy level - Improves your ability to handle stress Talk to your doctor before starting any exercise program. People with type 2 diabetes may need to take special steps before, during, and after physical activity or exercise. MEDICINES TO TREAT DIABETES If diet and exercise do not help keep your blood sugar at normal or near-normal levels, your doctor may prescribe medicine. Since these drugs help lower your blood sugar level in different ways, your doctor may have you take more than one drug. Some of the most common types of medicines are listed below. They are taken by mouth or injection. - Alpha-glucosidase inhibitors - Biguanides - DPP IV inhibitors - Injectable medicines (GLP-1 analogs) - Meglitinides - SGL T2 inhibitors - Sulfonylureas - Thiazolidinediones You may need to take insulin if your blood sugar cannot be controlled with any of the above medicines. Most commonly, insulin is injected under the skin using a syringe, insulin pen, or pump. Another form of insulin is the inhaled type. Insulin cannot be taken by mouth because the acid in the stomach destroys the insulin. PREVENTING COMPLICATIONS Your doctor may prescribe medicines or other treatments to reduce your chance of developing some of the more common complications of diabetes, including: - Eye disease - Kidney disease - Heart disease and stroke FOOT CARE People with diabetes are more likely than those without diabetes to have foot problems. Diabetes damages the nerves. This can make your feet less able to feel pressure, pain, heat, or cold. You may not notice a foot injury until you have severe damage to the skin and tissue below, or you get a severe infection. Diabetes can also damage blood vessels. Small sores or breaks in the skin may become deeper skin sores (ulcers). The affected limb may need to be amputated if these skin ulcers do not heal or become larger, deeper, or infected. To prevent problems with your feet: - Stop smoking if you smoke. - Improve control of your blood sugar. - Get a foot exam by your doctor at least twice a year to learn if you have nerve damage. - Check and care for your feet every day. This is very important when you already have nerve or blood vessel damage or foot problems. - Treat minor infections, such as athlete's foot, right away. - Use moisturizing lotion on dry skin. - Make sure you wear the right kind of shoes. Ask your doctor what type of shoe is right for you. There are many diabetes resources that can help you understand more about type 2 diabetes. You can also learn ways to manage your condition so you can live well with diabetes. Diabetes is a lifelong disease and there is no cure. Some people with type 2 diabetes no longer need medicine if they lose weight and become more active. When they reach their ideal weight, their body's own insulin and a healthy diet can control their blood sugar level. After many years, diabetes can lead to serious health problems: - You could have eye problems, including trouble seeing (especially at night), and light sensitivity. You could become blind. - Your feet and skin can develop sores and infections. After a long time, your foot or leg may need to be amputated. Infection can also cause pain and itching in other parts of the body. - Diabetes may make it harder to control your blood pressure and cholesterol. This can lead to a heart attack, stroke, and other problems. It can become harder for blood to flow to your legs and feet. - Nerves in your body can get damaged, causing pain, tingling, and numbness. - Because of nerve damage, you could have problems digesting the food you eat. You could feel weakness or have trouble going to the bathroom. Nerve damage can make it harder for men to have an erection. - High blood sugar and other problems can lead to kidney damage. Your kidneys may not work as well as they used to. They may even stop working so that you need dialysis or a kidney transplant. Call 911 right away if you have: - Chest pain or pressure - Fainting, confusion or unconsciousness - Seizure - Shortness of breath These symptoms can quickly get worse and become emergency conditions (such as convulsions, hypoglycemic coma or hyperglycemic coma). Also call your doctor if you have: - Numbness, tingling, or pain in your feet or legs - Problems with your eyesight - Sores or infections on your feet - Symptoms of high blood sugar (extreme thirst, blurry vision, dry skin, weakness or fatigue, the need to urinate a lot) - Symptoms of low blood sugar (weakness or fatigue, trembling, sweating, irritability, trouble thinking clearly, fast heartbeat, double or blurry vision, uneasy feeling) You can help prevent type 2 diabetes by staying at a healthy body weight. You can get to a healthy weight by eating healthy foods, controlling your portion sizes, and leading an active lifestyle. Some medicines can also delay or prevent type 2 diabetes in people at risk of developing the disease. Updated by: Brent Wisse, MD, Associate Professor of Medicine, Division of Metabolism, Endocrinology and Nutrition, University of Washington School of Medicine, Seattle, WA. Internal review and update on 09/01/2016 by David Zieve, MD, MHA, Isla Ogilvie, PhD, and the A.D.A.M. Editorial team.

what are the risk factors of type ii diabetes

It's not entirely clear why some people develop type 2 diabetes and others don't. It's clear, however, that there are certain factors that increase the risk. These include being overweight, fat distribution around your abdomen, lack of exercise, being of black, Hispanic, American Indian, or Asian American descent, and being above the age of 45.

Type 2 diabetes (Risk factors): Researchers don't fully understand why some people develop type 2 diabetes and others don't. It's clear, however, that certain factors increase the risk, including: - Weight. Being overweight is a primary risk factor for type 2 diabetes. The more fatty tissue you have, the more resistant your cells become to insulin. However, you don't have to be overweight to develop type 2 diabetes. - Fat distribution. If your body stores fat primarily in your abdomen, your risk of type 2 diabetes is greater than if your body stores fat elsewhere, such as your hips and thighs. - Inactivity. The less active you are, the greater your risk of type 2 diabetes. Physical activity helps you control your weight, uses up glucose as energy and makes your cells more sensitive to insulin. - Family history. The risk of type 2 diabetes increases if your parent or sibling has type 2 diabetes. - Race. Although it's unclear why, people of certain races - including blacks, Hispanics, American Indians and Asian-Americans - are more likely to develop type 2 diabetes than whites are. - Age. The risk of type 2 diabetes increases as you get older, especially after age 45. That's probably because people tend to exercise less, lose muscle mass and gain weight as they age. But type 2 diabetes is also increasing dramatically among children, adolescents and younger adults. - Prediabetes. Prediabetes is a condition in which your blood sugar level is higher than normal, but not high enough to be classified as diabetes. Left untreated, prediabetes often progresses to type 2 diabetes. - Gestational diabetes. If you developed gestational diabetes when you were pregnant, your risk of developing type 2 diabetes increases. If you gave birth to a baby weighing more than 9 pounds (4 kilograms), you're also at risk of type 2 diabetes. - Polycystic ovarian syndrome. For women, having polycystic ovarian syndrome - a common condition characterized by irregular menstrual periods, excess hair growth and obesity - increases the risk of diabetes.

what are the risk factors of type ii diabetes

You can take steps to help prevent or delay type 2 diabetes by losing weight if you are overweight, eating fewer calories, and being more physically active. Talk with your health care professional about any of the health conditions listed above that may require medical treatment. Managing these health problems may help reduce your chances of developing type 2 diabetes. Also, ask your health care professional about any medicines you take that might increase your risk.

Risk Factors for Type 2 Diabetes: You can take steps to help prevent or delay type 2 diabetes by losing weight if you are overweight, eating fewer calories, and being more physically active. Talk with your health care professional about any of the health conditions listed above that may require medical treatment. Managing these health problems may help reduce your chances of developing type 2 diabetes. Also, ask your health care professional about any medicines you take that might increase your risk.

what are the risk factors of type ii diabetes

The symptoms of cystic fibrosis vary depending on the severity of the disease. People with cystic fibrosis have a higher than normal level of salt in their sweat. Parents may be able to taste the salt when they kiss their children. The other symptoms of cystic fibrosis affect the respiratory system and the digestive system. Adults diagnosed with cystic fibrosis are more likely to have atypical symptoms, such as recurring bouts of inflamed pancreas, infertility, and recurring pneumonia. The thick and sticky mucus associated with cystic fibrosis can cause signs and symptoms such a persistent cough, wheezing, breathlessness, exercise intolerance, repeated lung infections, inflamed nasal passages or a stuffy nose. The thick mucus can also block tubes that carry digestive enzymes from your pancreas to your small intestine. The result is often foul-smelling, greasy stools, poor weight gain and growth, intestinal blockage, particularly in newborns, and severe constipation.

Cystic fibrosis: Cystic fibrosis is an inherited disorder that causes severe damage to the lungs, digestive system and other organs in the body. Cystic fibrosis affects the cells that produce mucus, sweat and digestive juices. These secreted fluids are normally thin and slippery. But in people with cystic fibrosis, a defective gene causes the secretions to become sticky and thick. Instead of acting as a lubricant, the secretions plug up tubes, ducts and passageways, especially in the lungs and pancreas. Although cystic fibrosis requires daily care, people with the condition are usually able to attend school and work, and often have a better quality of life than people with cystic fibrosis had in previous decades. Improvements in screening and treatments mean people with cystic fibrosis now may live into their mid- to late 30s, on average, and some are living into their 40s and 50s. Cystic fibrosis care at Mayo Clinic Screening of newborns for cystic fibrosis is now performed in every state in the United States. As a result, the condition can be diagnosed within the first month of life, before symptoms develop. For people born before newborn screening was performed, it's important to be aware of the signs and symptoms of cystic fibrosis. Cystic fibrosis signs and symptoms vary, depending on the severity of the disease. Even in the same person, symptoms may worsen or improve as time passes. Some people may not experience symptoms until adolescence or adulthood. People with cystic fibrosis have a higher than normal level of salt in their sweat. Parents often can taste the salt when they kiss their children. Most of the other signs and symptoms of cystic fibrosis affect the respiratory system and digestive system. However, adults diagnosed with cystic fibrosis are more likely to have atypical symptoms, such as recurring bouts of inflamed pancreas (pancreatitis), infertility and recurring pneumonia. The thick and sticky mucus associated with cystic fibrosis clogs the tubes that carry air in and out of your lungs. This can cause signs and symptoms such as: - A persistent cough that produces thick mucus (sputum) - Wheezing - Breathlessness - Exercise intolerance - Repeated lung infections - Inflamed nasal passages or a stuffy nose The thick mucus can also block tubes that carry digestive enzymes from your pancreas to your small intestine. Without these digestive enzymes, your intestines aren't able to completely absorb the nutrients in the food you eat. The result is often: - Foul-smelling, greasy stools - Poor weight gain and growth - Intestinal blockage, particularly in newborns (meconium ileus) - Severe constipation Frequent straining while passing stool can cause part of the rectum - the end of the large intestine - to protrude outside the anus (rectal prolapse). When this occurs in children, it may be a sign of cystic fibrosis. Parents should consult a physician knowledgeable about cystic fibrosis. Rectal prolapse in children may sometimes require surgery. Rectal prolapse in children with cystic fibrosis is less common than it was in the past, which may be due to earlier testing, diagnosis and treatment of cystic fibrosis. If you or your child has symptoms of cystic fibrosis - or if someone in your family has cystic fibrosis - talk with your doctor about testing for the disease. Seek immediate medical care if you or your child has difficulty breathing. In cystic fibrosis, a defect (mutation) in a gene changes a protein that regulates the movement of salt in and out of cells. The result is thick, sticky mucus in the respiratory, digestive and reproductive systems, as well as increased salt in sweat. Many different defects can occur in the gene. The type of gene mutation is associated with the severity of the condition. Children need to inherit one copy of the gene from each parent in order to have the disease. If children inherit only one copy, they won't develop cystic fibrosis. However, they will be carriers and possibly pass the gene to their own children. - Family history. Because cystic fibrosis is an inherited disorder, it runs in families. - Race. Although cystic fibrosis occurs in all races, it is most common in white people of Northern European ancestry. - Damaged airways (bronchiectasis). Cystic fibrosis is one of the leading causes of bronchiectasis, a condition that damages the airways. This makes it harder to move air in and out of the lungs and clear mucus from the airways (bronchial tubes). - Chronic infections. Thick mucus in the lungs and sinuses provides an ideal breeding ground for bacteria and fungi. People with cystic fibrosis may often have sinus infections, bronchitis or pneumonia. - Growths in the nose (nasal polyps). Because the lining inside the nose is inflamed and swollen, it can develop soft, fleshy growths (polyps). - Coughing up blood (hemoptysis). Over time, cystic fibrosis can cause thinning of the airway walls. As a result, teenagers and adults with cystic fibrosis may cough up blood. - Pneumothorax. This condition, in which air collects in the space that separates the lungs from the chest wall, also is more common in older people with cystic fibrosis. Pneumothorax can cause chest pain and breathlessness. - Respiratory failure. Over time, cystic fibrosis can damage lung tissue so badly that it no longer works. Lung function usually worsens gradually, and it eventually can become life-threatening. - Acute exacerbations. People with cystic fibrosis may experience worsening of their respiratory symptoms, such as coughing and shortness of breath, for several days to weeks. This is called an acute exacerbation and requires treatment in the hospital. - Nutritional deficiencies. Thick mucus can block the tubes that carry digestive enzymes from your pancreas to your intestines. Without these enzymes, your body can't absorb protein, fats or fat-soluble vitamins. - Diabetes. The pancreas produces insulin, which your body needs to use sugar. Cystic fibrosis increases the risk of diabetes. Around 30 percent of people with cystic fibrosis develop diabetes by age 30. - Blocked bile duct. The tube that carries bile from your liver and gallbladder to your small intestine may become blocked and inflamed, leading to liver problems and sometimes gallstones. - Intestinal obstruction. Intestinal obstruction can happen to people with cystic fibrosis at all ages. Children and adults with cystic fibrosis are more likely than are infants to develop intussusception, a condition in which a section of the intestines folds in on itself like an accordion. - Distal intestinal obstruction syndrome (DIOS). DIOS is partial or complete obstruction where the small intestine meets the large intestine. Almost all men with cystic fibrosis are infertile because the tube that connects the testes and prostate gland (vas deferens) is either blocked with mucus or missing entirely. Certain fertility treatments and surgical procedures sometimes make it possible for men with cystic fibrosis to become biological fathers. Although women with cystic fibrosis may be less fertile than other women, it's possible for them to conceive and to have successful pregnancies. Still, pregnancy can worsen the signs and symptoms of cystic fibrosis, so be sure to discuss the possible risks with your doctor. - Thinning of the bones (osteoporosis). People with cystic fibrosis are at higher risk of developing a dangerous thinning of bones. - Electrolyte imbalances and dehydration. Because people with cystic fibrosis have saltier sweat, the balance of minerals in their blood may be upset. Signs and symptoms include increased heart rate, fatigue, weakness and low blood pressure. To diagnose cystic fibrosis, doctors may conduct several tests. Newborn screening and diagnosis Every state in the U.S. now routinely screens newborns for cystic fibrosis. Early diagnosis means treatment can begin immediately. In one screening test, a blood sample is checked for higher than normal levels of a chemical (immunoreactive trypsinogen, or IRT) released by the pancreas. A newborn's IRT levels may be high because of premature birth or a stressful delivery. For that reason other tests may be needed to confirm a diagnosis of cystic fibrosis. Genetic tests may be used in addition to checking the IRT levels to confirm the diagnosis. Doctors may also conduct genetic tests to test for specific defects on the gene responsible for cystic fibrosis. To evaluate if an infant has cystic fibrosis, doctors may also conduct a sweat test when the infant is at least 2 weeks old. In a sweat test, doctors apply a sweat-producing chemical to a small area of skin. They then collect the sweat to test it and see if it's saltier than normal. Testing may be done at a center specializing in cystic fibrosis. Testing of older children and adults Cystic fibrosis tests may be recommended for older children and adults who weren't screened at birth. Your doctor may suggest genetic and sweat tests for cystic fibrosis if you have recurring bouts of inflamed pancreas (pancreatitis), nasal polyps, chronic sinus or lung infections, bronchiectasis, or male infertility. There is no cure for cystic fibrosis, but treatment can ease symptoms and reduce complications. Close monitoring and early, aggressive intervention is recommended. Managing cystic fibrosis is complex, so consider obtaining treatment at a center staffed by doctors and other staff trained in cystic fibrosis. Doctors may work with a multidisciplinary team of doctors and medical professionals trained in cystic fibrosis to evaluate and treat your condition. The goals of treatment include: - Preventing and controlling infections that occur in the lungs - Removing and loosening mucus from the lungs - Treating and preventing intestinal blockage - Providing adequate nutrition Medications The options may include: - Antibiotics to treat and prevent lung infections - Anti-inflammatory medications to lessen swelling in the airways in your lungs - Mucus-thinning drugs to help you cough up the mucus, which can improve lung function - Inhaled medications called bronchodilators that can help keep your airways open by relaxing the muscles around your bronchial tubes - Oral pancreatic enzymes to help your digestive tract absorb nutrients For those with cystic fibrosis who have certain gene mutations, doctors may recommend a newer medication called ivacaftor (Kalydeco). This medication may improve lung function and weight, and reduce the amount of salt in sweat. It has been approved by the Food and Drug Administration for people with cystic fibrosis who are age 6 and older. The dose depends on your weight and age. Doctors may conduct liver function tests and eye examinations before prescribing ivacaftor and on a regular basis while you're taking it to check for side effects such as liver function abnormalities and cataracts. For people with a certain gene mutation who are age 12 and older, another drug (Orkambi) is available that combines ivacaftor with a medication called lumacaftor. The combination of these medications may improve lung function and reduce the risk of exacerbations. However, some people may experience side effects such as chest discomfort and shortness of breath soon after starting the medication. Some people may also have high blood pressure while taking the medication. Doctors may monitor you for any side effects. Chest physical therapy Loosening the thick mucus in the lungs makes it easier to cough up. Chest physical therapy helps loosen mucus. It is usually done from one to four times a day. A common technique is clapping with cupped hands on the front and back of the chest. Certain breathing techniques also may be used to help loosen the mucus. Your doctor will instruct you about the type of chest physical therapy he or she recommends for you. Mechanical devices also can help loosen lung mucus. These include a vibrating vest or a tube or mask you breathe into. Pulmonary rehabilitation Your doctor may recommend a long-term program that may improve your lung function and overall well-being. Pulmonary rehabilitation is usually done on an outpatient basis and may include: - Physical exercise that may improve your condition - Breathing techniques that may help loosen mucus and improve breathing - Nutritional counseling - Counseling and support - Education about your condition Surgical and other procedures - Nasal polyp removal. Your doctor may recommend surgery to remove nasal polyps that obstruct breathing. - Oxygen therapy. If your blood oxygen level declines, your doctor may recommend that you breathe pure oxygen to prevent high blood pressure in the lungs (pulmonary hypertension). - Endoscopy and lavage. Mucus may be suctioned from obstructed airways through an endoscope. - Feeding tube. Cystic fibrosis interferes with digestion, so you can't absorb nutrients from food very well. Your doctor may suggest temporarily using a feeding tube to deliver extra nutrition while you sleep. This tube may be inserted in your nose and guided to your stomach, or it may be surgically implanted into the abdomen. - Bowel surgery. If a blockage develops in your bowel, you may need surgery to remove it. Intussusception, where a section of bowel has folded in on itself, also may require surgical repair. - Lung transplant. If you have severe breathing problems, life-threatening lung complications or increasing resistance to antibiotics used to treat lung infections, lung transplantation may be an option. Because bacteria line the airways in diseases that cause permanent widening of the large airways (bronchiectasis), such as cystic fibrosis, both lungs need to be replaced. Cystic fibrosis does not recur in transplanted lungs. However, other complications associated with cystic fibrosis - such as sinus infections, diabetes, pancreas problems and osteoporosis - can still occur after a lung transplant. You can manage your condition and minimize complications in several ways. Always talk to your doctor before starting home remedies. Cystic fibrosis can cause malnourishment because the enzymes needed for digestion can't reach your small intestine, preventing food from being absorbed. People with cystic fibrosis may need a significantly higher number of calories daily than do people without the condition. A healthy diet is important to maintain good lung function. It's also important to drink lots of fluids, which can help thin the mucus in your lungs. You may work with a dietitian to develop a nutrition plan. Most people with cystic fibrosis need to take pancreatic enzyme capsules with every meal and snack. In addition, your doctor may recommend: - Antacids - Supplemental high-calorie nutrition - Special fat-soluble vitamins - Extra fiber to prevent intestinal blockage - Extra salt, especially during hot weather or before exercising - Adequate water during hot weather In addition to other usual childhood vaccines, people with cystic fibrosis should have the annual flu vaccine and any other vaccines their doctor recommends. Cystic fibrosis doesn't affect the immune system, but children with cystic fibrosis are more likely to develop complications when they become sick. Regular exercise helps loosen mucus in your airways, and strengthens your heart. For many people with cystic fibrosis, participating in sports can improve confidence and self-esteem. Anything that gets you moving, including walking and biking, can help. Don't smoke in your home or car, and don't allow other people to smoke around you or your child. Secondhand smoke is harmful for everyone, but especially for people with cystic fibrosis. Teach all the members of your family to wash their hands thoroughly before eating, after using the bathroom, when coming home from work or school, and after being around a person who is sick. Hand-washing is the best way to protect against infection. You'll have ongoing care from your doctor and other medical professionals. Make sure to attend your regular follow-up appointments. Take your medications as prescribed and follow therapies as instructed. Contact your doctor if you experience any signs or symptoms such as severe constipation, more mucus than usual, blood in your mucus or reduced energy.

what are the symptoms for cystic fibrosis

Ataxia with vitamin E deficiency (AVED) is a progressive disease affecting motor control and movement. Treatment for AVED includes vitamin E supplements, which will prevent AVED from developing if given before symptoms begin and may reverse some neurological symptoms if begun after AVED develops.

Ataxia with vitamin E deficiency: Ataxia with vitamin E deficiency (AVED) is a progressive disease affecting motor control and movement. Symptoms of AVED include slurred speech ( dysarthria ), difficulty coordinating movements ( ataxia), numbness in the hands and feet ( peripheral neuropathy ), and progressive leg weakness. Some affected individuals may experience vision loss due to damage to the back of the eye ( retinitis pigmentosa). Symptoms typically begin during childhood or adolescence and worsen with age, resulting in the need for a wheelchair by early adulthood. AVED is caused by a mutation to the TTPA gene . When this gene is damaged, vitamin E cannot be distributed throughout the body. Vitamin E is important because it protects the cells of the neurological system (neurons) from dangerous molecules called free radicals. AVED is inherited in an autosomal recessive manner. Treatment for AVED includes vitamin E supplements, which will prevent AVED from developing if given before symptoms begin and may reverse some neurological symptoms if begun after AVED develops. [1] [2] The Human Phenotype Ontology (HPO) provides the following list of features that have been reported in people with this condition. Much of the information in the HPO comes from Orphanet, a European rare disease database. If available, the list includes a rough estimate of how common a feature is (its frequency). Frequencies are based on a specific study and may not be representative of all studies. You can use the MedlinePlus Medical Dictionary for definitions of the terms below. Signs and Symptoms Approximate number of patients (when available) Abnormal pyramidal signs Very frequent Areflexia Very frequent Dysarthria Frequent Dysdiadochokinesis Frequent Dysmetria Frequent Gait disturbance Frequent Nyctalopia Frequent Nystagmus Frequent Pes cavus Frequent Scoliosis Frequent Sensory neuropathy Frequent Abnormality of retinal pigmentation Occasional Abnormality of visual evoked potentials Occasional Developmental regression Occasional Diabetes mellitus Occasional Dystonia Occasional Hemiplegia/hemiparesis Occasional Hypertonia Occasional Hypertrophic cardiomyopathy Occasional Mental deterioration Occasional Skeletal muscle atrophy Occasional Tremor Occasional Visual impairment Occasional Ataxia - Autosomal recessive inheritance - Hypercholesterolemia - Hypertriglyceridemia - Increased circulating low-density lipoprotein levels - Tendon xanthomatosis - Vitamin E deficiency - Xanthelasma - View complete list of signs and symptoms... AVED may be suspected in individuals who have the following findings at the beginning of puberty: [2] Progressive ataxia Clumsiness of the hands Loss of the ability to know where one's body is in space (proprioception) Absent reflexes (areflexia) The inability to perform rapid, alternating movements (dysdiadochokinesia) A tendency to sway or fall while standing upright with the feet together, arms stretched out and the eyes closed (positive Romberg sign) A nodding movement of the head (titubation) Decreased visual sharpness (acuity) Positive Babinski sign (upward movement of the big toe and fanning of the feet after the sole of the foot has been firmly stroked) Macular atrophy (wasting away of the cells that form the part of our eye responsible for central vision) Retinitis pigmentosa ( eye disease in which there is damage to the retina) Laboratory studies typically show a reduced plasma vitamin E concentration but normal levels of lipoproteins ( proteins that combine with and transport fat or other lipids in the blood). Other studies that may be useful include: nerve conduction studies, brain imaging , and studies of nerve tissues . [2] [3] Although no universal diagnostic guidelines are available, researchers suggest that diseases that cause fat malabsorption, such as abetalipoproteinemia should be ruled out. Genetic testing finding two TTPA gene mutations may be useful to confirm the diagnosis. [2] [3] Testing Resources The Genetic Testing Registry (GTR) provides information about the genetic tests for this condition. The intended audience for the GTR is health care providers and researchers. Patients and consumers with specific questions about a genetic test should contact a health care provider or a genetics professional. Treatment for AVED requires lifelong high dose supplementation of vitamin E. When treated early, some symptoms, such as ataxia and intellectual decline, can be reversed. In older patients, treatment may slow disease progression, but some symptoms remain. [2] [3] Research indicates that if vitamin E treatment is initiated in presymptomatic individuals with two mutations in the TTPA  gene (e.g., younger sibs of an affected individual), the symptoms of AVED will not develop. [2] Management Guidelines GeneReviews provides current, expert-authored, peer-reviewed, full-text articles describing the application of genetic testing to the diagnosis, management, and genetic counseling of patients with specific inherited conditions.

what are the uses of vitamin e capsules

A health care professional may take a blood sample from you and send the sample to a lab to test for antibodies common in celiac disease. If blood test results are negative and your doctor still suspects celiac disease, he or she may order more blood tests.If a biopsy and other blood tests do not clearly confirm celiac disease, your doctor may order genetic blood tests to check for certain gene changes, or variants.

Celiac Disease: Celiac disease is a digestive disorder that damages the small intestine. The disease is triggered by eating foods containing gluten. Gluten is a protein found naturally in wheat, barley, and rye, and is common in foods such as bread, pasta, cookies, and cakes. Many pre-packaged foods, lip balms and lipsticks, hair and skin products, toothpastes, vitamin and nutrient supplements, and, rarely, medicines, contain gluten.Celiac disease can be very serious. The disease can cause long-lasting digestive problems and keep your body from getting all the nutrients it needs. Celiac disease can also affect the body outside the intestine.Celiac disease is different from gluten sensitivity or wheat intolerance. If you have gluten sensitivity, you may have symptoms similar to those of celiac disease, such as abdominal pain and tiredness. Unlike celiac disease, gluten sensitivity does not damage the small intestine.Celiac disease is also different from a wheat allergy. In both cases, your body’s immune system reacts to wheat. However, some symptoms in wheat allergies, such as having itchy eyes or a hard time breathing, are different from celiac disease. Wheat allergies also do not cause long-term damage to the small intestine.1 Celiac disease is a digestive disorder that damages the small intestine. The disease is triggered by eating foods containing gluten. Gluten is a protein found naturally in wheat, barley, and rye, and is common in foods such as bread, pasta, cookies, and cakes. Many pre-packaged foods, lip balms and lipsticks, hair and skin products, toothpastes, vitamin and nutrient supplements, and, rarely, medicines, contain gluten.Celiac disease can be very serious. The disease can cause long-lasting digestive problems and keep your body from getting all the nutrients it needs. Celiac disease can also affect the body outside the intestine.Celiac disease is different from gluten sensitivity or wheat intolerance. If you have gluten sensitivity, you may have symptoms similar to those of celiac disease, such as abdominal pain and tiredness. Unlike celiac disease, gluten sensitivity does not damage the small intestine.Celiac disease is also different from a wheat allergy. In both cases, your body’s immune system reacts to wheat. However, some symptoms in wheat allergies, such as having itchy eyes or a hard time breathing, are different from celiac disease. Wheat allergies also do not cause long-term damage to the small intestine.1 As many as one in 141 Americans has celiac disease, although most don’t know it.2 Although celiac disease affects children and adults in all parts of the world, the disease is more common in Caucasians and more often diagnosed in females. You are more likely to develop celiac disease if someone in your family has the disease. Celiac disease also is more common among people with certain other diseases, such as Down syndrome, Turner syndrome, and type 1 diabetes. If you have celiac disease, you also may be at risk forAddison’s disease Hashimoto’s disease primary biliary cirrhosis type 1 diabetes Long-term complications of celiac disease includemalnutrition, a condition in which you don’t get enough vitamins, minerals, and other nutrients you need to be healthy accelerated osteoporosis or bone softening, known as osteomalacia nervous system problems problems related to reproductionRare complications can includeintestinal cancer liver diseases lymphoma, a cancer of part of the immune system called the lymph system that includes the gutIn rare cases, you may continue to have trouble absorbing nutrients even though you have been following a strict gluten-free diet. If you have this condition, called refractory celiac disease, your intestines are severely damaged and can’t heal. You may need to receive nutrients through an IV. Most people with celiac disease have one or more symptoms. However, some people with the disease may not have symptoms or feel sick. Sometimes health issues such as surgery, a pregnancy, childbirth, bacterial gastroenteritis, a viral infection, or severe mental stress can trigger celiac disease symptoms.If you have celiac disease, you may have digestive problems or other symptoms. Digestive symptoms are more common in children and can includebloating, or a feeling of fullness or swelling in the abdomen chronic diarrhea constipation gas nausea pale, foul-smelling, or fatty stools that float stomach pain vomitingFor children with celiac disease, being unable to absorb nutrients when they are so important to normal growth and development can lead todamage to the permanent teeth’s enamel delayed puberty failure to thrive in infants mood changes or feeling annoyed or impatient slowed growth and short height weight lossAdults are less likely to have digestive symptoms and, instead, may have one or more of the following:anemia a red, smooth, shiny tongue bone or joint pain depression or anxiety dermatitis herpetiformis headaches infertility or repeated miscarriage missed menstrual periods mouth problems such a canker sores or dry mouth seizures tingling numbness in the hands and feet tiredness weak and brittle bonesAdults who have digestive symptoms with celiac disease may haveabdominal pain and bloating intestinal blockages tiredness that lasts for long periods of time ulcers, or sores on the stomach or lining of the intestineCeliac disease also can produce a reaction in which your immune system, or your body’s natural defense system, attacks healthy cells in your body. This reaction can spread outside your digestive tract to other areas of your body, including yourbones joints nervous system skin spleenDepending on how old you are when a doctor diagnoses your celiac disease, some symptoms, such as short height and tooth defects, will not improve.Dermatitis herpetiformis is an itchy, blistering skin rash that usually appears on the elbows, knees, buttocks, back, or scalp. The rash affects about 10 percent of people with celiac disease. The rash can affect people of all ages but is most likely to appear for the first time between the ages of 30 and 40. Men who have the rash also may have oral or, rarely, genital sores. Some people with celiac disease may have the rash and no other symptoms. Most people with celiac disease have one or more symptoms. However, some people with the disease may not have symptoms or feel sick. Sometimes health issues such as surgery, a pregnancy, childbirth, bacterial gastroenteritis, a viral infection, or severe mental stress can trigger celiac disease symptoms.If you have celiac disease, you may have digestive problems or other symptoms. Digestive symptoms are more common in children and can includebloating, or a feeling of fullness or swelling in the abdomen chronic diarrhea constipation gas nausea pale, foul-smelling, or fatty stools that float stomach pain vomitingFor children with celiac disease, being unable to absorb nutrients when they are so important to normal growth and development can lead todamage to the permanent teeth’s enamel delayed puberty failure to thrive in infants mood changes or feeling annoyed or impatient slowed growth and short height weight lossAdults are less likely to have digestive symptoms and, instead, may have one or more of the following:anemia a red, smooth, shiny tongue bone or joint pain depression or anxiety dermatitis herpetiformis headaches infertility or repeated miscarriage missed menstrual periods mouth problems such a canker sores or dry mouth seizures tingling numbness in the hands and feet tiredness weak and brittle bonesAdults who have digestive symptoms with celiac disease may haveabdominal pain and bloating intestinal blockages tiredness that lasts for long periods of time ulcers, or sores on the stomach or lining of the intestineCeliac disease also can produce a reaction in which your immune system, or your body’s natural defense system, attacks healthy cells in your body. This reaction can spread outside your digestive tract to other areas of your body, including yourbones joints nervous system skin spleenDepending on how old you are when a doctor diagnoses your celiac disease, some symptoms, such as short height and tooth defects, will not improve.Dermatitis herpetiformis is an itchy, blistering skin rash that usually appears on the elbows, knees, buttocks, back, or scalp. The rash affects about 10 percent of people with celiac disease. The rash can affect people of all ages but is most likely to appear for the first time between the ages of 30 and 40. Men who have the rash also may have oral or, rarely, genital sores. Some people with celiac disease may have the rash and no other symptoms. Symptoms of celiac disease vary from person to person. Your symptoms may depend onhow long you were breastfed as an infant; some studies have shown that the longer you were breastfed, the later celiac disease symptoms appear how much gluten you eat how old you were when you started eating gluten the amount of damage to your small intestine your age—symptoms can vary between young children and adultsPeople with celiac disease who have no symptoms can still develop complications from the disease over time if they do not get treatment. Research suggests that celiac disease only happens to individuals who have particular genes. These genes are common and are carried by about one-third of the population. Individuals also have to be eating food that contains gluten to get celiac disease. Researchers do not know exactly what triggers celiac disease in people at risk who eat gluten over a long period of time. Sometimes the disease runs in families. About 10 to 20 percent of close relatives of people with celiac disease also are affected.3Your chances of developing celiac disease increase when you have changes in your genes, or variants. Certain gene variants and other factors, such as things in your environment, can lead to celiac disease. Celiac disease can be hard to diagnose because some of the symptoms are like symptoms of other diseases, such as irritable bowel syndrome (IBS) and lactose intolerance. Your doctor may diagnose celiac disease with a medical and family history, physical exam, and tests. Tests may include blood tests, genetic tests, and biopsy.Your doctor will ask you for information about your family’s health—specifically, if anyone in your family has a history of celiac disease.During a physical exam, a doctor most oftenchecks your body for a rash or malnutrition, a condition that arises when you don’t get enough vitamins, minerals, and other nutrients you need to be healthy listens to sounds in your abdomen using a stethoscope taps on your abdomen to check for pain and fullness or swellingFor some people, a dental visit can be the first step toward discovering celiac disease. Dental enamel defects, such as white, yellow, or brown spots on the teeth, are a pretty common problem in people with celiac disease, especially children. These defects can help dentists and other health care professionals identify celiac disease. Celiac disease can be hard to diagnose because some of the symptoms are like symptoms of other diseases, such as irritable bowel syndrome (IBS) and lactose intolerance. Your doctor may diagnose celiac disease with a medical and family history, physical exam, and tests. Tests may include blood tests, genetic tests, and biopsy.Your doctor will ask you for information about your family’s health—specifically, if anyone in your family has a history of celiac disease.During a physical exam, a doctor most oftenchecks your body for a rash or malnutrition, a condition that arises when you don’t get enough vitamins, minerals, and other nutrients you need to be healthy listens to sounds in your abdomen using a stethoscope taps on your abdomen to check for pain and fullness or swellingFor some people, a dental visit can be the first step toward discovering celiac disease. Dental enamel defects, such as white, yellow, or brown spots on the teeth, are a pretty common problem in people with celiac disease, especially children. These defects can help dentists and other health care professionals identify celiac disease. A health care professional may take a blood sample from you and send the sample to a lab to test for antibodies common in celiac disease. If blood test results are negative and your doctor still suspects celiac disease, he or she may order more blood tests.If a biopsy and other blood tests do not clearly confirm celiac disease, your doctor may order genetic blood tests to check for certain gene changes, or variants.4 You are very unlikely to have celiac disease if these gene variants are not present. Having these variants alone is not enough to diagnose celiac disease because they also are common in people without the disease. In fact, most people with these genes will never get celiac disease.If blood tests suggest you have celiac disease, your doctor will perform a biopsy to be sure. During a biopsy, the doctor takes a small piece of tissue from your small intestine during a procedure called an upper GI endoscopy.If a doctor suspects you have dermatitis herpetiformis, he or she will perform a skin biopsy. For a skin biopsy, the doctor removes tiny pieces of skin tissue to examine with a microscope.A doctor examines the skin tissue and checks the tissue for antibodies common in celiac disease. If the skin tissue has the antibodies, a doctor will perform blood tests to confirm celiac disease. If the skin biopsy and blood tests both suggest celiac disease, you may not need an intestinal biopsy. Screening is testing for diseases when you have no symptoms. Doctors in the United States do not routinely screen people for celiac disease. However, blood relatives of people with celiac disease and those with type 1 diabetes should talk with their doctor about their chances of getting the disease.Many researchers recommend routine screening of all family members, such as parents and siblings, for celiac disease.5 However, routine genetic screening for celiac disease is not usually helpful when diagnosing the disease. Doctors treat celiac disease with a gluten-free diet. Gluten is a protein found naturally in wheat, barley, and rye that triggers a reaction if you have celiac disease. Symptoms greatly improve for most people with celiac disease who stick to a gluten-free diet. In recent years, grocery stores and restaurants have added many more gluten-free foods and products, making it easier to stay gluten free.Your doctor may refer you to a dietitian who specializes in treating people with celiac disease. The dietitian will teach you how to avoid gluten while following a healthy diet. He or she will help youcheck food and product labels for gluten design everyday meal plans make healthy choices about the types of foods to eatFor most people, following a gluten-free diet will heal damage in the small intestine and prevent more damage. You may see symptoms improve within days to weeks of starting the diet. The small intestine usually heals in 3 to 6 months in children. Complete healing can take several years in adults. Once the intestine heals, the villi, which were damaged by the disease, regrow and will absorb nutrients from food into the bloodstream normally.If you have dermatitis herpetiformis—an itchy, blistering skin rash—skin symptoms generally respond to a gluten-free diet. However, skin symptoms may return if you add gluten back into your diet. Medicines such as dapsone, taken by mouth, can control the skin symptoms. People who take dapsone need to have regular blood tests to check for side effects from the medicine.Dapsone does not treat intestinal symptoms or damage, which is why you should stay on a gluten-free diet if you have the rash. Even when you follow a gluten-free diet, the rash may take months or even years to fully heal—and often comes back over the years. Doctors treat celiac disease with a gluten-free diet. Gluten is a protein found naturally in wheat, barley, and rye that triggers a reaction if you have celiac disease. Symptoms greatly improve for most people with celiac disease who stick to a gluten-free diet. In recent years, grocery stores and restaurants have added many more gluten-free foods and products, making it easier to stay gluten free.Your doctor may refer you to a dietitian who specializes in treating people with celiac disease. The dietitian will teach you how to avoid gluten while following a healthy diet. He or she will help youcheck food and product labels for gluten design everyday meal plans make healthy choices about the types of foods to eatFor most people, following a gluten-free diet will heal damage in the small intestine and prevent more damage. You may see symptoms improve within days to weeks of starting the diet. The small intestine usually heals in 3 to 6 months in children. Complete healing can take several years in adults. Once the intestine heals, the villi, which were damaged by the disease, regrow and will absorb nutrients from food into the bloodstream normally.If you have dermatitis herpetiformis—an itchy, blistering skin rash—skin symptoms generally respond to a gluten-free diet. However, skin symptoms may return if you add gluten back into your diet. Medicines such as dapsone, taken by mouth, can control the skin symptoms. People who take dapsone need to have regular blood tests to check for side effects from the medicine.Dapsone does not treat intestinal symptoms or damage, which is why you should stay on a gluten-free diet if you have the rash. Even when you follow a gluten-free diet, the rash may take months or even years to fully heal—and often comes back over the years. In addition to prescribing a gluten-free diet, your doctor will want you to avoid all hidden sources of gluten.  If you have celiac disease, ask a pharmacist about ingredients inherbal and nutritional supplements prescription and over-the-counter medicines vitamin and mineral supplementsYou also could take in or transfer from your hands to your mouth other products that contain gluten without knowing it. Products that may contain gluten includechildren’s modeling dough, such as Play-Doh cosmetics lipstick, lip gloss, and lip balm skin and hair products toothpaste and mouthwash communion wafersMedications are rare sources of gluten. Even if gluten is present in a medicine, it is likely to be in such small quantities that it would not cause any symptoms.Reading product labels can sometimes help you avoid gluten. Some product makers label their products as being gluten-free. If a product label doesn’t list the product’s ingredients, ask the maker of the product for an ingredients list. If you don’t improve after starting a gluten-free diet, you may still be eating or using small amounts of gluten. You probably will start responding to the gluten-free diet once you find and cut out all hidden sources of gluten. Hidden sources of gluten include additives made with wheat, such asmodified food starch malt flavoring preservatives stabilizersIf you still have symptoms even after changing your diet, you may have other conditions or disorders that are more common with celiac disease, such as irritable bowel syndrome (IBS), lactose intolerance, microscopic colitis, dysfunction of the pancreas, and small intestinal bacterial overgrowth. Avoiding foods with gluten, a protein found naturally in wheat, rye, and barley, is critical in treating celiac disease. Removing gluten from your diet will improve symptoms, heal damage to your small intestine, and prevent further damage over time. While you may need to avoid certain foods, the good news is that many healthy, gluten-free foods and products are available.You should avoid all products that contain gluten, such as most cereal, grains, and pasta, and many processed foods. Be sure to always read food ingredient lists carefully to make sure the food you want to eat doesn’t have gluten. In addition, discuss gluten-free food choices with a dietitian or health care professional who specializes in celiac disease. Avoiding foods with gluten, a protein found naturally in wheat, rye, and barley, is critical in treating celiac disease. Removing gluten from your diet will improve symptoms, heal damage to your small intestine, and prevent further damage over time. While you may need to avoid certain foods, the good news is that many healthy, gluten-free foods and products are available.You should avoid all products that contain gluten, such as most cereal, grains, and pasta, and many processed foods. Be sure to always read food ingredient lists carefully to make sure the food you want to eat doesn’t have gluten. In addition, discuss gluten-free food choices with a dietitian or health care professional who specializes in celiac disease. Foods such as meat, fish, fruits, vegetables, rice, and potatoes without additives or seasonings do not contain gluten and are part of a well-balanced diet. You can eat gluten-free types of bread, pasta, and other foods that are now easier to find in stores, restaurants, and at special food companies. You also can eat potato, rice, soy, amaranth, quinoa, buckwheat, or bean flour instead of wheat flour.In the past, doctors and dietitians advised against eating oats if you have celiac disease. Evidence suggests that most people with the disease can safely eat moderate amounts of oats, as long as they did not come in contact with wheat gluten during processing. You should talk with your health care team about whether to include oats in your diet.When shopping and eating out, remember toread food labels—especially on canned, frozen, and processed foods—for ingredients that contain gluten identify foods labelled “gluten-free;” by law, these foods must contain less than 20 parts per million, well below the threshold to cause problems in the great majority of patients with celiac disease ask restaurant servers and chefs about how they prepare the food and what is in it find out whether a gluten-free menu is available ask a dinner or party host about gluten-free options before attending a social gatheringFoods labeled gluten-free tend to cost more than the same foods that have gluten. You may find that naturally gluten-free foods are less expensive. With practice, looking for gluten can become second nature.If you have just been diagnosed with celiac disease, you and your family members may find support groups helpful as you adjust to a new approach to eating. In recent years, more people without celiac disease have adopted a gluten-free diet, believing that avoiding gluten is healthier or could help them lose weight. No current data suggests that the general public should maintain a gluten-free diet for weight loss or better health. 6, 7A gluten-free diet isn’t always a healthy diet. For instance, a gluten-free diet may not provide enough of the nutrients, vitamins, and minerals the body needs, such as fiber, iron, and calcium. Some gluten-free products can be high in calories and sugar.If you think you might have celiac disease, don’t start avoiding gluten without first speaking with your doctor. If your doctor diagnoses you with celiac disease, he or she will put you on a gluten-free diet. The U.S. Food and Drug Administration (FDA) published a rule defining what “gluten-free” means on food labels. The "gluten-free" for food labeling rule requires that any food with the terms “gluten-free,” “no gluten,” "free of gluten,” and “without gluten” on the label must meet all of the definition’s requirements.While the FDA rule does not apply to foods regulated by the U.S. Department of Agriculture, including meat and egg products, it is often still observed.

what blood tests confirm celiac disease

There are two blood tests your doctor may order to help diagnose celiac disease. Serology testing looks for antibodies in your blood, which can indicate an immune reaction to gluten. Genetic testing for human leukocyte antigens (HLA-DQ2 and HLA-DQ8) can be used to rule out celiac disease. If the results of these tests indicate celiac disease, your doctor may order an endoscopy to view your small intestine and to take a small tissue sample (biopsy) to analyze for damage to the villi.

Celiac disease: Celiac disease (gluten-sensitive enteropathy), sometimes called sprue or coeliac, is an immune reaction to eating gluten, a protein found in wheat, barley and rye. If you have celiac disease, eating gluten triggers an immune response in your small intestine. Over time, this reaction damages your small intestine's lining and prevents absorption of some nutrients (malabsorption). The intestinal damage often causes diarrhea, fatigue, weight loss, bloating and anemia, and can lead to serious complications. In children, malabsorption can affect growth and development, in addition to the symptoms seen in adults. There's no cure for celiac disease - but for most people, following a strict gluten-free diet can help manage symptoms and promote intestinal healing. The signs and symptoms of celiac disease can vary greatly and are different in children and adults. The most common signs for adults are diarrhea, fatigue and weight loss. Adults may also experience bloating and gas, abdominal pain, nausea, constipation, and vomiting. However, more than half of adults with celiac disease have signs and symptoms that are not related to the digestive system, including: - Anemia, usually resulting from iron deficiency - Loss of bone density (osteoporosis) or softening of bone (osteomalacia) - Itchy, blistery skin rash (dermatitis herpetiformis) - Damage to dental enamel - Mouth ulcers - Headaches and fatigue - Nervous system injury, including numbness and tingling in the feet and hands, possible problems with balance, and cognitive impairment - Joint pain - Reduced functioning of the spleen (hyposplenism) - Acid reflux and heartburn In children under 2 years old, typical signs and symptoms of celiac disease include: - Vomiting - Chronic diarrhea - Swollen belly - Failure to thrive - Poor appetite - Muscle wasting Older children may experience: - Diarrhea - Constipation - Weight loss - Irritability - Short stature - Delayed puberty - Neurological symptoms, including attention-deficit/hyperactivity disorder (ADHD), learning disabilities, headaches, lack of muscle coordination and seizures Dermatitis herpetiformis is an itchy, blistering skin disease that stems from intestinal gluten intolerance. The rash usually occurs on the elbows, knees, torso, scalp and buttocks. Dermatitis herpetiformis is often associated with changes to the lining of the small intestine identical to those of celiac disease, but the disease may not produce noticeable digestive symptoms. Doctors treat dermatitis herpetiformis with a gluten-free diet or medication, or both, to control the rash. Consult your doctor if you have diarrhea or digestive discomfort that lasts for more than two weeks. Consult your child's doctor if your child is pale, irritable or failing to grow or has a potbelly and foul-smelling, bulky stools. Be sure to consult your doctor before trying a gluten-free diet. If you stop or even reduce the amount of gluten you eat before you're tested for celiac disease, you may change the test results. Celiac disease tends to run in families. If someone in your family has the condition, ask your doctor if you should be tested. Also ask your doctor about testing if you or someone in your family has a risk factor for celiac disease, such as type 1 diabetes. Celiac disease occurs from an interaction between genes, eating foods with gluten and other environmental factors, but the precise cause isn't known. Infant feeding practices, gastrointestinal infections and gut bacteria might contribute to developing celiac disease. Sometimes celiac disease is triggered - or becomes active for the first time - after surgery, pregnancy, childbirth, viral infection or severe emotional stress. When the body's immune system overreacts to gluten in food, the reaction damages the tiny, hair-like projections (villi) that line the small intestine. Villi absorb vitamins, minerals and other nutrients from the food you eat. If your villi are damaged, you can't get enough nutrients, no matter how much you eat. Some gene variations appear to increase the risk of developing the disease. But having those gene variants doesn't mean you'll get celiac disease, which suggests that additional factors must be involved. The rate of celiac disease in Western countries is estimated at about 1 percent of the population. Celiac disease is most common in Caucasians; however, it is now being diagnosed among many ethnic groups and is being found globally. Celiac disease can affect anyone. However, it tends to be more common in people who have: - A family member with celiac disease or dermatitis herpetiformis - Type 1 diabetes - Down syndrome or Turner syndrome - Autoimmune thyroid disease - Microscopic colitis (lymphocytic or collagenous colitis) - Addison's disease - Rheumatoid arthritis Researchers estimate that only 20 percent of people with celiac disease may receive a diagnosis. Doctors may order two blood tests to help diagnose celiac disease. - Serology testing looks for antibodies in your blood. Elevated levels of certain antibody proteins indicate an immune reaction to gluten. - Genetic testing for human leukocyte antigens (HLA-DQ2 and HLA-DQ8) can be used to rule out celiac disease. If the results of these tests indicate celiac disease, your doctor may order an endoscopy to view your small intestine and to take a small tissue sample (biopsy) to analyze for damage to the villi. It's important to be tested for celiac disease before trying a gluten-free diet. Eliminating gluten from your diet may change the results of blood tests so that they appear to be normal. A strict, lifelong gluten-free diet is the only way to manage celiac disease. In addition to wheat, foods that contain gluten include: - Barley - Bulgur - Durum - Farina - Graham flour - Malt - Rye - Semolina - Spelt (a form of wheat) - Triticale Your doctor may refer you to a dietitian, who can help you plan a healthy gluten-free diet. Once you remove gluten from your diet, inflammation in your small intestine generally begins to lessen - usually within several weeks, though you may start to feel better in just a few days. Complete healing and regrowth of the villi may take several months to several years. Healing in the small intestine tends to occur more quickly in children than adults. If you accidentally eat a product that contains gluten, you may experience abdominal pain and diarrhea. Some people experience no signs or symptoms after eating gluten, but this doesn't mean it's not harmful to them. Even trace amounts of gluten in your diet can be damaging, whether or not they cause signs or symptoms. Hidden gluten can be present in foods, medications and nonfood products, including: - Modified food starch, preservatives and food stabilizers - Prescription and over-the-counter medications - Vitamin and mineral supplements - Herbal and nutritional supplements - Lipstick products - Toothpaste and mouthwash - Envelope and stamp glue - Play-Doh Vitamin and mineral supplements If your nutritional deficiencies are severe, your doctor or dietitian may recommend taking vitamin and mineral supplements. You may need to supplement your levels of: - Calcium - Folate - Iron - Vitamin B-12 - Vitamin D - Vitamin K - Zinc Vitamins and supplements are usually taken in pill form. If your digestive tract has trouble absorbing vitamins, your doctor may give them by injection. You need to be sure that the vitamins and supplements are gluten-free. Follow-up care If you have celiac disease, you will need medical follow-up to make sure your symptoms have responded to a gluten-free diet. Doctors will also want to be sure you are getting the support you need to maintain the diet for life. They will use blood tests to monitor your response. The results of these tests, which are primarily designed as a way to detect celiac disease, usually become negative once you have been gluten-free for six to 12 months. If test results remain positive, then your doctor may try to find the reason, the most common being unintentional exposure to gluten in your diet. However, these tests are not perfect, and even if the results become negative, it is possible that you could still be exposed to a significant amount of gluten and continue to have symptoms and damage to your intestines. If you continue to have symptoms, or your symptoms recur, you may need a follow-up endoscopy with biopsies to ensure that healing has occurred. Adults typically have a greater need for follow-up testing, although children may require it, too. Some doctors recommend a routine re-biopsy if you are diagnosed in adulthood, as healing is often quite slow and uncertain. It also can be helpful to follow up with an expert dietitian for assistance in adapting to, and maintaining, a healthy, nutritious, gluten-free diet. Medications to control intestinal inflammation If your small intestine is severely damaged, your doctor may recommend steroids to control inflammation. Steroids can ease severe signs and symptoms of celiac disease while the intestine heals. Dermatitis herpetiformis If you have this itchy, blistering skin rash that sometimes accompanies celiac disease, your doctor may recommend a skin medication (dapsone) along with the gluten-free diet. Refractory celiac disease If you have refractory celiac disease, you may continue to have severe symptoms, or your symptoms may lessen but then relapse. In either case, your small intestine does not heal. When this happens, you likely will require evaluation in a specialized center. Refractory celiac disease can be quite serious and there is currently no proven treatment. People with refractory celiac disease should be treated by experts. There may be several causes for this condition. Doctors will often use steroid therapy - either a topical budesonide or systemic steroids such as prednisone. Sometimes, they will use the same medications used to treat other conditions. Potential future treatments While the only proven therapy for celiac disease is a gluten-free diet, it is not perfect. People with celiac disease may often be accidentally exposed to gluten, possibly causing severe symptoms. Several treatments are in development for celiac disease. Some try to neutralize or bind to gluten. Others address the barrier of the intestine, blocking the leakiness that gluten can trigger. Still others target the body's immune system. Researchers have also been trying to genetically modify wheat, but have not yet been successful. None of these treatments is likely to be approved within the next two to three years. However, given the number of different approaches, there is a good chance that there will be additional treatments available for celiac disease in the future. If you've been diagnosed with celiac disease, you'll need to avoid all foods that contain gluten. Ask your doctor for a referral to a dietitian, who can help you plan a healthy gluten-free diet. It's important to get enough vitamins, nutrients, fiber and calcium in your diet. Here's an overview of foods that contain gluten and gluten-free foods that are safe to eat. Avoid food and drinks containing: - Barley - Bulgur - Durum - Farina - Graham flour - Malt - Rye - Semolina - Spelt (a form of wheat) - Triticale - Wheat Packaged foods should be avoided unless they're labeled as gluten-free or have no gluten-containing ingredients. In addition to cereals, pastas and baked goods - such as breads, cakes, pies and cookies - other packaged foods that may contain gluten include: - Beer - Candies - Gravies - Imitation meats or seafood - Processed luncheon meats - Salad dressings and sauces, including soy sauce - Self-basting poultry - Soups Certain grains, such as oats, can be contaminated with wheat during growing and processing. Pure oats are not harmful for most people with celiac disease. In the United States, doctors generally recommend avoiding oats unless they have been specifically labeled gluten-free. Outside of the United States, different labeling laws for oats apply. Occasionally, even pure oats can be a problem for people with celiac disease. Many basic foods are allowed in a gluten-free diet, including: - Fresh meats, fish and poultry that aren't breaded, batter-coated or marinated - Fruits - Most dairy products - Potatoes - Vegetables - Wine and distilled liquors, ciders and spirits Grains and starches allowed in a gluten-free diet include: - Amaranth - Arrowroot - Buckwheat - Corn - Cornmeal - Gluten-free flours (rice, soy, corn, potato, bean) - Pure corn tortillas - Quinoa - Rice - Tapioca Carob is a potential substitute for gluten, but more research is needed about its effect on people with celiac disease. Fortunately for bread and pasta lovers with celiac disease, an increasing number of gluten-free products are available. If you can't find any at your local bakery or grocery store, check online. There are gluten-free substitutes for many gluten-containing foods. However, be aware that processed gluten-free foods may contain excessive fat and calories. There are no proven treatments that assist with celiac disease. Enzyme therapies that claim to digest gluten may be available in health food stores or other outlets, but there is no scientific evidence that they are effective in treating celiac disease.

what blood tests confirm celiac disease

Hypoglycemia occurs when your blood sugar (glucose) level falls too low. There are several reasons why this may happen, the most common is a side effect of drugs used to treat diabetes. Other possible causes of hypoglycemia include not eating enough food as usual after taking diabetes medication, or exercising more than you usually would. If you don't have diabetes, hypoglycemia can be caused by accidentally taking someone else's oral diabetes medication, excessive alcohol consumption, other medications, or some illnesses such as cancer or kidney disorders.

Hypoglycemia (Causes): Hypoglycemia occurs when your blood sugar (glucose) level falls too low. There are several reasons why this may happen, the most common is a side effect of drugs used to treat diabetes. Blood sugar regulation But to understand how hypoglycemia happens, it helps to know how your body normally processes blood sugar. When you eat, your body breaks down carbohydrates from foods - such as bread, rice, pasta, vegetables, fruit and milk products - into various sugar molecules, including glucose. Glucose is the main energy source for your body, but it can't enter the cells of most of your tissues without the help of insulin - a hormone secreted by your pancreas. When glucose levels rise, certain cells (beta cells) in your pancreas release insulin. This allows glucose to enter the cells and provide the fuel your cells need to function properly. Any extra glucose is stored in your liver and muscles in the form of glycogen. If you haven't eaten for several hours and your blood sugar level drops, another hormone from your pancreas called glucagon signals your liver to break down the stored glycogen and release glucose back into your bloodstream. This keeps your blood sugar level within a normal range until you eat again. Aside from your liver breaking down glycogen into glucose, your body also has the ability to manufacture glucose. This process occurs primarily in your liver, but also in your kidneys. Possible causes, with diabetes People with diabetes may not make enough insulin (type 1 diabetes) or may be less responsive to it (type 2 diabetes). As a result, glucose tends to build up in the bloodstream and may reach dangerously high levels. To correct this problem, someone with diabetes may take insulin or other drugs to lower blood sugar levels. But too much insulin or other diabetes medications may cause your blood sugar level to drop too low, causing hypoglycemia. Hypoglycemia may also happen if you don't eat as much food as usual after taking diabetes medication, or if you exercise more than you normally would. Possible causes, without diabetes Hypoglycemia in people without diabetes is much less common. Causes may include the following: - Medications. Taking someone else's oral diabetes medication accidentally is a possible cause of hypoglycemia. Other medications may cause hypoglycemia, especially in children or in people with kidney failure. One example is quinine (Qualaquin), which is used to treat malaria. - Excessive alcohol consumption. Drinking heavily without eating can block your liver from releasing stored glucose into your bloodstream, causing hypoglycemia. - Some critical illnesses. Severe illnesses of the liver, such as severe hepatitis, can cause hypoglycemia. Disorders of the kidney, which can keep your body from properly excreting medications, can affect glucose levels due to a buildup of those medications. Long-term starvation, as may occur in the eating disorder anorexia nervosa, can result in the depletion of substances your body needs to generate glucose (gluconeogenesis), causing hypoglycemia. - Insulin overproduction. A rare tumor of the pancreas (insulinoma) may cause overproduction of insulin, resulting in hypoglycemia. Other tumors may result in excessive production of insulin-like substances. Enlargement of beta cells of the pancreas that produce insulin (nesidioblastosis) may result in excessive insulin release, causing hypoglycemia. - Hormone deficiencies. Certain disorders of the adrenal glands and the pituitary gland can result in a deficiency of key hormones that regulate glucose production. Children may experience hypoglycemia if they have a deficiency of growth hormone. Hypoglycemia after meals Hypoglycemia usually occurs when you haven't eaten (when you're in a fasting state), but that's not always the case. Sometimes hypoglycemia occurs after meals because the body produces more insulin than is needed. This type of hypoglycemia, called reactive or postprandial hypoglycemia, may occur in people who have had stomach surgery. It may also occur in people who haven't had this surgery.

what can cause hypoglycemia

Signs and symptoms of kidney disease may include nausea, vomiting, loss of appetite, fatigue and weakness, sleep problems, changes in how much you urinate, decreased mental sharpness, muscle twitches and cramps, swelling of feet and ankles, persistent itching, chest pain, shortness of breath, or high blood pressure. Signs and symptoms of kidney disease are often nonspecific, meaning they can also be caused by other illnesses. Because your kidneys are highly adaptable and able to compensate for lost function, signs and symptoms may not appear until irreversible damage has occurred. Make an appointment with your doctor if you have any signs or symptoms of kidney disease.

Chronic kidney disease: Chronic kidney disease, also called chronic kidney failure, describes the gradual loss of kidney function. Your kidneys filter wastes and excess fluids from your blood, which are then excreted in your urine. When chronic kidney disease reaches an advanced stage, dangerous levels of fluid, electrolytes and wastes can build up in your body. In the early stages of chronic kidney disease, you may have few signs or symptoms. Chronic kidney disease may not become apparent until your kidney function is significantly impaired. Treatment for chronic kidney disease focuses on slowing the progression of the kidney damage, usually by controlling the underlying cause. Chronic kidney disease can progress to end-stage kidney failure, which is fatal without artificial filtering (dialysis) or a kidney transplant. Chronic kidney disease care at Mayo Clinic Signs and symptoms of chronic kidney disease develop over time if kidney damage progresses slowly. Signs and symptoms of kidney disease may include: - Nausea - Vomiting - Loss of appetite - Fatigue and weakness - Sleep problems - Changes in how much you urinate - Decreased mental sharpness - Muscle twitches and cramps - Swelling of feet and ankles - Persistent itching - Chest pain, if fluid builds up around the lining of the heart - Shortness of breath, if fluid builds up in the lungs - High blood pressure (hypertension) that's difficult to control Signs and symptoms of kidney disease are often nonspecific, meaning they can also be caused by other illnesses. Because your kidneys are highly adaptable and able to compensate for lost function, signs and symptoms may not appear until irreversible damage has occurred. Make an appointment with your doctor if you have any signs or symptoms of kidney disease. If you have a medical condition that increases your risk of kidney disease, your doctor is likely to monitor your blood pressure and kidney function with urine and blood tests during regular office visits. Ask your doctor whether these tests are necessary for you. Chronic kidney disease occurs when a disease or condition impairs kidney function, causing kidney damage to worsen over several months or years. Diseases and conditions that cause chronic kidney disease include: - Type 1 or type 2 diabetes - High blood pressure - Glomerulonephritis (gloe-mer-u-low-nuh-FRY-tis), an inflammation of the kidney's filtering units (glomeruli) - Interstitial nephritis (in-tur-STISH-ul nuh-FRY-tis), an inflammation of the kidney's tubules and surrounding structures - Polycystic kidney disease - Prolonged obstruction of the urinary tract, from conditions such as enlarged prostate, kidney stones and some cancers - Vesicoureteral (ves-ih-koe-yoo-REE-tur-ul) reflux, a condition that causes urine to back up into your kidneys - Recurrent kidney infection, also called pyelonephritis (pie-uh-low-nuh-FRY-tis) Factors that may increase your risk of chronic kidney disease include: - Diabetes - High blood pressure - Heart and blood vessel (cardiovascular) disease - Smoking - Obesity - Being African-American, Native American or Asian-American - Family history of kidney disease - Abnormal kidney structure - Older age Chronic kidney disease can affect almost every part of your body. Potential complications may include: - Fluid retention, which could lead to swelling in your arms and legs, high blood pressure, or fluid in your lungs (pulmonary edema) - A sudden rise in potassium levels in your blood (hyperkalemia), which could impair your heart's ability to function and may be life-threatening - Heart and blood vessel (cardiovascular) disease - Weak bones and an increased risk of bone fractures - Anemia - Decreased sex drive, erectile dysfunction or reduced fertility - Damage to your central nervous system, which can cause difficulty concentrating, personality changes or seizures - Decreased immune response, which makes you more vulnerable to infection - Pericarditis, an inflammation of the saclike membrane that envelops your heart (pericardium) - Pregnancy complications that carry risks for the mother and the developing fetus - Irreversible damage to your kidneys (end-stage kidney disease), eventually requiring either dialysis or a kidney transplant for survival As a first step toward diagnosis of kidney disease, your doctor discusses your personal and family history with you. Among other things, your doctor might ask questions about whether you've been diagnosed with high blood pressure, if you've taken a medication that might affect kidney function, if you've noticed changes in your urinary habits, and whether you have any family members who have kidney disease. Next, your doctor performs a physical exam, also checking for signs of problems with your heart or blood vessels, and conducts a neurological exam. For kidney disease diagnosis, you may also need certain tests and procedures, such as: - Blood tests. Kidney function tests look for the level of waste products, such as creatinine and urea, in your blood. - Urine tests. Analyzing a sample of your urine may reveal abnormalities that point to chronic kidney failure and help identify the cause of chronic kidney disease. - Imaging tests. Your doctor may use ultrasound to assess your kidneys' structure and size. Other imaging tests may be used in some cases. - Removing a sample of kidney tissue for testing. Your doctor may recommend a kidney biopsy to remove a sample of kidney tissue. Kidney biopsy is often done with local anesthesia using a long, thin needle that's inserted through your skin and into your kidney. The biopsy sample is sent to a lab for testing to help determine what's causing your kidney problem. Depending on the underlying cause, some types of kidney disease can be treated. Often, though, chronic kidney disease has no cure. Treatment usually consists of measures to help control signs and symptoms, reduce complications, and slow progression of the disease. If your kidneys become severely damaged, you may need treatment for end-stage kidney disease. Treating the cause Your doctor will work to slow or control the cause of your kidney disease. Treatment options vary, depending on the cause. But kidney damage can continue to worsen even when an underlying condition, such as high blood pressure, has been controlled. Treating complications Kidney disease complications can be controlled to make you more comfortable. Treatments may include: - High blood pressure medications. People with kidney disease may experience worsening high blood pressure. Your doctor may recommend medications to lower your blood pressure - commonly angiotensin-converting enzyme (ACE) inhibitors or angiotensin II receptor blockers - and to preserve kidney function. High blood pressure medications can initially decrease kidney function and change electrolyte levels, so you may need frequent blood tests to monitor your condition. Your doctor will likely also recommend a water pill (diuretic) and a low-salt diet. - Medications to lower cholesterol levels. Your doctor may recommend medications called statins to lower your cholesterol. People with chronic kidney disease often experience high levels of bad cholesterol, which can increase the risk of heart disease. - Medications to treat anemia. In certain situations, your doctor may recommend supplements of the hormone erythropoietin (uh-rith-roe-POI-uh-tin), sometimes with added iron. Erythropoietin supplements aid in production of more red blood cells, which may relieve fatigue and weakness associated with anemia. - Medications to relieve swelling. People with chronic kidney disease may retain fluids. This can lead to swelling in the legs, as well as high blood pressure. Medications called diuretics can help maintain the balance of fluids in your body. - Medications to protect your bones. Your doctor may prescribe calcium and vitamin D supplements to prevent weak bones and lower your risk of fracture. You may also take medication known as a phosphate binder to lower the amount of phosphate in your blood, and protect your blood vessels from damage by calcium deposits (calcification). - A lower protein diet to minimize waste products in your blood. As your body processes protein from foods, it creates waste products that your kidneys must filter from your blood. To reduce the amount of work your kidneys must do, your doctor may recommend eating less protein. Your doctor may also ask you to meet with a dietitian who can suggest ways to lower your protein intake while still eating a healthy diet. Your doctor may recommend follow-up testing at regular intervals to see whether your kidney disease remains stable or progresses. Treatment for end-stage kidney disease If your kidneys can't keep up with waste and fluid clearance on their own and you develop complete or near-complete kidney failure, you have end-stage kidney disease. At that point, you need dialysis or a kidney transplant. - Dialysis. Dialysis artificially removes waste products and extra fluid from your blood when your kidneys can no longer do this. In hemodialysis, a machine filters waste and excess fluids from your blood. In peritoneal dialysis, a thin tube (catheter) inserted into your abdomen fills your abdominal cavity with a dialysis solution that absorbs waste and excess fluids. After a period of time, the dialysis solution drains from your body, carrying the waste with it. - Kidney transplant. A kidney transplant involves surgically placing a healthy kidney from a donor into your body. Transplanted kidneys can come from deceased or living donors. You'll need to take medications for the rest of your life to keep your body from rejecting the new organ. You don't need to be on dialysis to have a kidney transplant. For some who choose not to have dialysis or a kidney transplant, a third option is to treat kidney failure with conservative measures. However, once you have complete kidney failure, your life expectancy generally would be only a few months. Potential future treatments Regenerative medicine holds the potential to fully heal damaged tissues and organs, offering solutions and hope for people who have conditions that today are beyond repair. Regenerative medicine approaches include: - Boosting the body's natural ability to heal itself - Using healthy cells, tissues or organs from a living or deceased donor to replace damaged ones - Delivering specific types of cells or cell products to diseased tissues or organs to restore tissue and organ function For people with chronic kidney disease, regenerative medicine approaches may be developed in the future to help slow progression of the disease. As part of your treatment for chronic kidney disease, your doctor may recommend a special diet to help support your kidneys and limit the work they must do. Ask your doctor for a referral to a dietitian who can analyze your current diet and suggest ways to make your diet easier on your kidneys. Depending on your situation, kidney function and overall health, your dietitian may recommend that you: - Avoid products with added salt. Lower the amount of sodium you eat each day by avoiding products with added salt, including many convenience foods, such as frozen dinners, canned soups and fast foods. Other foods with added salt include salty snack foods, canned vegetables, and processed meats and cheeses. - Choose lower potassium foods. Your dietitian may recommend that you choose lower potassium foods at each meal. High-potassium foods include bananas, oranges, potatoes, spinach and tomatoes. Examples of low-potassium foods include apples, cabbage, carrots, green beans, grapes and strawberries. Be aware that many salt substitutes contain potassium, so you generally should avoid them if you have kidney failure. - Limit the amount of protein you eat. Your dietitian will estimate the appropriate number of grams of protein you need each day and make recommendations based on that amount. High-protein foods include lean meats, eggs, milk, cheese and beans. Low-protein foods include vegetables, fruits, breads and cereals.

what does kidney disease look like

Diabetic kidney disease is a type of kidney disease caused by diabetes. Diabetes is the leading cause of kidney disease. About 1 out of 4 adults with diabetes has kidney disease. Kidney damage caused by diabetes usually occurs slowly, over many years.

Diabetic Kidney Disease (What is diabetic kidney disease?): Diabetic kidney disease is a type of kidney disease caused by diabetes.Diabetes is the leading cause of kidney disease. About 1 out of 4 adults with diabetes has kidney disease.1The main job of the kidneys is to filter wastes and extra water out of your blood to make urine. Your kidneys also help control blood pressure and make hormones that your body needs to stay healthy.Your kidneys are located in the middle of your back, just below your rib cage.When your kidneys are damaged, they can’t filter blood like they should, which can cause wastes to build up in your body. Kidney damage can also cause other health problems.Kidney damage caused by diabetes usually occurs slowly, over many years. You can take steps to protect your kidneys and to prevent or delay kidney damage.Watch a video about Diabetes and Kidney Disease.What are other names for diabetic kidney disease?Diabetic kidney disease is also called DKD, chronic kidney disease, CKD, kidney disease of diabetes, or diabetic nephropathy.

what does kidney disease look like

The following organizations provide good resources for information on kidney disease: www.niddk.nih.gov/health-information/kidney-disease, .kidney.org, www.kidneyfund.org, www.healthinaging.org/aging-and-health-a-to-z/topic:kidney-problems/

Kidney disease - resources: The following organizations are good resources for information on kidney disease: - National Institute of Diabetes and Digestive and Kidney Disease -- www.niddk.nih.gov/health-information/kidney-disease - National Kidney Foundation -- www.kidney.org - American Kidney Fund -- www.kidneyfund.org - American Geriatrics Society's Health in Aging Foundation -- www.healthinaging.org/aging-and-health-a-to-z/topic:kidney-problems/ Updated by: Jennifer K. Mannheim, ARNP, Medical Staff, Department of Psychiatry and Behavioral Health, Seattle Children's Hospital, Seattle, WA. Also reviewed by David Zieve, MD, MHA, Medical Director, Brenda Conaway, Editorial Director, and the A.D.A.M. Editorial team.

what does kidney disease look like

Most people with diabetic kidney disease do not have symptoms. The only way to know if you have diabetic kidney disease is to get your kidneys checked. Health care professionals use blood and urine tests to check for diabetic kidney disease. Your health care professional will check your urine for albumin and will also do a blood test to see how well your kidneys are filtering your blood.

Diabetic Kidney Disease (How can I tell if I have diabetic kidney disease?): Most people with diabetic kidney disease do not have symptoms. The only way to know if you have diabetic kidney disease is to get your kidneys checked.Health care professionals use blood and urine tests to check for diabetic kidney disease. Your health care professional will check your urine for albumin and will also do a blood test to see how well your kidneys are filtering your blood.You should get tested every year for kidney disease if youhave type 2 diabetes have had type 1 diabetes for more than 5 yearsHealth care professionals use blood and urine tests to check for kidney disease.

what does kidney disease look like

Peripheral neuropathy can result from traumatic injuries, infections, metabolic problems, inherited causes and exposure to toxins. One of the most common causes is diabetes mellitus.

Peripheral neuropathy (Overview): Peripheral neuropathy, a result of damage to your peripheral nerves, often causes weakness, numbness and pain, usually in your hands and feet. It can also affect other areas of your body. Your peripheral nervous system sends information from your brain and spinal cord (central nervous system) to the rest of your body. Peripheral neuropathy can result from traumatic injuries, infections, metabolic problems, inherited causes and exposure to toxins. One of the most common causes is diabetes mellitus. People with peripheral neuropathy generally describe the pain as stabbing, burning or tingling. In many cases, symptoms improve, especially if caused by a treatable condition. Medications can reduce the pain of peripheral neuropathy. Peripheral neuropathy care at Mayo Clinic

Causes of Peripheral Neuropathy What information does the National Library of Medicine have that states causes of peripheral neuropathy?

Not a single disease, peripheral neuropathy is nerve damage caused by a number of conditions. Causes of neuropathies include: - Alcoholism. .. Autoimmune diseases. ... Diabetes. More than half the people with diabetes develop some type of neuropathy. - Exposure to poisons. Toxic substances include heavy metals or chemicals. - Medications. Certain medications, especially those used to treat cancer (chemotherapy), can cause peripheral neuropathy. - Infections. These include certain viral or bacterial infections, including Lyme disease, shingles, Epstein-Barr virus, hepatitis C, leprosy, diphtheria and HIV. - Inherited disorders. ... Trauma or pressure on the nerve. ... Tumors. ... Vitamin deficiencies. ... - Other diseases. These include kidney disease, liver disease, connective tissue disorders and an underactive thyroid (hypothyroidism). In a number of cases, no cause can be identified (idiopathic).

Peripheral neuropathy (Causes): Not a single disease, peripheral neuropathy is nerve damage caused by a number of conditions. Causes of neuropathies include: - Alcoholism. Poor dietary choices made by people with alcoholism can lead to vitamin deficiencies. - Autoimmune diseases. These include Sjogren's syndrome, lupus, rheumatoid arthritis, Guillain-Barre syndrome, chronic inflammatory demyelinating polyneuropathy and necrotizing vasculitis. - Diabetes. More than half the people with diabetes develop some type of neuropathy. - Exposure to poisons. Toxic substances include heavy metals or chemicals. - Medications. Certain medications, especially those used to treat cancer (chemotherapy), can cause peripheral neuropathy. - Infections. These include certain viral or bacterial infections, including Lyme disease, shingles, Epstein-Barr virus, hepatitis C, leprosy, diphtheria and HIV. - Inherited disorders. Disorders such as Charcot-Marie-Tooth disease are hereditary types of neuropathy. - Trauma or pressure on the nerve. Traumas, such as from motor vehicle accidents, falls or sports injuries, can sever or damage peripheral nerves. Nerve pressure can result from having a cast or using crutches or repeating a motion such as typing many times. - Tumors. Growths, cancerous (malignant) and noncancerous (benign), can develop on the nerves or press nerves. Also, polyneuropathy can arise as a result of some cancers related to the body's immune response. These are a form of paraneoplastic syndrome. - Vitamin deficiencies. B vitamins - including B-1, B-6 and B-12 - vitamin E and niacin are crucial to nerve health. - Bone marrow disorders. These include abnormal protein in the blood (monoclonal gammopathies), a form of bone cancer (osteosclerotic myeloma), lymphoma and amyloidosis. - Other diseases. These include kidney disease, liver disease, connective tissue disorders and an underactive thyroid (hypothyroidism). In a number of cases, no cause can be identified (idiopathic).

Causes of Peripheral Neuropathy What information does the National Library of Medicine have that states causes of peripheral neuropathy?

Your main focus is on keeping your blood sugar (glucose) level in your target range. To help manage your blood sugar, follow a meal plan that has: - Food from all the food groups - Fewer calories - About the same amount of carbohydrates at each meal and snack - Healthy fats Along with healthy eating, you can help keep your blood sugar in target range by maintaining a healthy weight. Persons with type 2 diabetes are often overweight. Losing just 10 pounds (4.5 kilograms) can help you manage your diabetes better. Eating healthy foods and staying active (for example, 30 to 60 minutes of walking per day) can help you meet and maintain your weight loss goal. ... Carbohydrates in food give your body energy. You need to eat carbohydrates to maintain your energy. But carbohydrates also raise your blood sugar higher and faster than other kinds of food. The main kinds of carbohydrates are starches, sugars, and fiber. Learn which foods have carbohydrates. This will help with meal planning so that you can keep your blood sugar in your target range. ... PLANNING MEALS Everyone has individual needs. Work with your doctor, registered dietitian, or diabetes educator to develop a meal plan that works for you. ... A good way to make sure you get all the nutrients you need during meals is to use the plate method. This is a visual food guide that helps you choose the best types and right amounts of food to eat. It encourages larger portions of non-starchy vegetables (half the plate) and moderate portions of protein (one quarter of the plate) and starch (one quarter of the plate).

Diabetes type 2 - meal planning (Function): Your main focus is on keeping your blood sugar (glucose) level in your target range. To help manage your blood sugar, follow a meal plan that has: - Food from all the food groups - Fewer calories - About the same amount of carbohydrates at each meal and snack - Healthy fats Along with healthy eating, you can help keep your blood sugar in target range by maintaining a healthy weight. Persons with type 2 diabetes are often overweight. Losing just 10 pounds (4.5 kilograms) can help you manage your diabetes better. Eating healthy foods and staying active (for example, 30 to 60 minutes of walking per day) can help you meet and maintain your weight loss goal. HOW CARBOHYDRATES AFFECT BLOOD SUGAR Carbohydrates in food give your body energy. You need to eat carbohydrates to maintain your energy. But carbohydrates also raise your blood sugar higher and faster than other kinds of food. The main kinds of carbohydrates are starches, sugars, and fiber. Learn which foods have carbohydrates. This will help with meal planning so that you can keep your blood sugar in your target range. MEAL PLANNING FOR CHILDREN WITH TYPE 2 DIABETES Meal plans should consider the amount of calories children need to grow. In general, three small meals and three snacks a day can help meet calorie needs. Many children with type 2 diabetes are overweight. The goal should be a healthy weight by eating healthy foods and getting more activity (60 minutes each day). Work with a registered dietitian to design a meal plan for your child. A registered dietitian is an expert in food and nutrition. The following tips can help your child stay on track: - No food is off-limits. Knowing how different foods affect your child's blood sugar helps you and your child keep it in target range. - Help your child learn how much food is a healthy amount. This is called portion control. - Have your family gradually switch from drinking soda and other sugary drinks, such as sports drinks and juices, to plain water or low-fat milk. PLANNING MEALS Everyone has individual needs. Work with your doctor, registered dietitian, or diabetes educator to develop a meal plan that works for you. When shopping, read food labels to make better food choices. A good way to make sure you get all the nutrients you need during meals is to use the plate method. This is a visual food guide that helps you choose the best types and right amounts of food to eat. It encourages larger portions of non-starchy vegetables (half the plate) and moderate portions of protein (one quarter of the plate) and starch (one quarter of the plate). You can find more information about the plate method at the American Diabetes Association website: www.diabetes.org/food-and-fitness/food/planning-meals/create-your-plate. EAT A VARIETY OF FOODS Eating a wide variety of foods helps you stay healthy. Try to include foods from all the food groups at each meal. VEGETABLES (2½ to 3 cups or 450 to 550 grams a day) Choose fresh or frozen vegetables without added sauces, fats, or salt. Non-starchy vegetables include dark green and deep yellow vegetables, such as cucumber, spinach, broccoli, romaine lettuce, cabbage, chard, and bell peppers. Starchy vegetables include corn, green peas, lima beans, carrots, yams and taro. Note that potato should be considered a pure starch, like white bread or white rice, instead of a vegetable. FRUITS (1½ to 2 cups or 240 to 320 grams a day) Choose fresh, frozen, canned (without added sugar or syrup), or unsweetened dried fruits. Try apples, bananas, berries, cherries, fruit cocktail, grapes, melon, oranges, peaches, pears, papaya, pineapple, and raisins. Drink juices that are 100% fruit with no added sweeteners or syrups. GRAINS (3 to 4 ounces or 85 to 115 grams a day) There are 2 types of grains: - Whole grains are unprocessed and have the entire grain kernel. Examples are whole-wheat flour, oatmeal, whole cornmeal, amaranth, barley, brown and wild rice, buckwheat, and quinoa. - Refined grains have been processed (milled) to remove the bran and germ. Examples are white flour, de-germed cornmeal, white bread, and white rice. Grains have starch, a type of carbohydrate. Carbohydrates raise your blood sugar level. For healthy eating, make sure half of the grains you eat each day are whole grains. Whole grains have lots of fiber. Fiber in the diet keeps your blood sugar level from rising too fast. PROTEIN FOODS (5 to 6½ ounces or 140 to 184 grams a day) Protein foods include meat, poultry, seafood, eggs, beans and peas, nuts, seeds, and processed soy foods. Eat fish and poultry more often. Remove the skin from chicken and turkey. Select lean cuts of beef, veal, pork, or wild game. Trim all visible fat from meat. Bake, roast, broil, grill, or boil instead of frying. When frying proteins, use healthy oils such as olive oil. DAIRY (3 cups or 245 grams a day) Choose low-fat dairy products. Be aware that milk, yogurt, and other dairy foods have natural sugar, even when they do not contain added sugar. Take this into account when planning meals to stay in your blood sugar target range. Some non-fat dairy products have a lot of added sugar. Be sure to read the label. OILS/FATS (no more than 7 teaspoons or 35 milliliters a day) Oils are not considered a food group. But they have nutrients that help your body stay healthy. Oils are different from fats in that oils remain liquid at room temperature. Fats remain solid at room temperature. Limit your intake of fatty foods, especially those high in saturated fat, such as hamburgers, deep-fried foods, bacon, and butter. Instead, choose foods that are high in polyunsaturated or monounsaturated fats. These include fish, nuts, and vegetable oils. Oils can raise your blood sugar, but not as fast as starch. Oils are also high in calories. Try to use no more than the recommended daily limit of 7 teaspoons (35 milliliters). WHAT ABOUT ALCOHOL AND SWEETS? If you choose to drink alcohol, limit the amount and have it with a meal. Check with your health care provider about how alcohol will affect your blood sugar and to determine a safe amount for you. Sweets are high in fat and sugar. Keep portion sizes small. Here are tips to help avoid eating too many sweets: - Ask for extra spoons and forks and split your dessert with others. - Eat sweets that are sugar-free. - Always ask for the smallest serving size or children's size. YOUR DIABETES CARE TEAM IS THERE TO HELP YOU In the beginning, meal planning may be overwhelming. But it will become easier as your knowledge grows about foods and their effects on your blood sugar. If you're having problems with meal planning, talk with your diabetes care team. They are there to help you.

Diabetes Type 2 I test before going to bed and the reading is 94 but when I test again in the morning, the reading is 165. How can I lower it? I eat dinner around 8PM and nothing until the next morning.

Type 2 diabetes may be reversed with lifestyle changes, especially losing weight with exercise and by eating healthier foods. ... If you're overweight, losing just 5% to 7% of your body weight even helps. Some medicines can also be used to delay or prevent the start of type 2 diabetes.

Diabetes: Diabetes is a chronic disease in which the body cannot regulate the amount of sugar in the blood. Insulin is a hormone produced by the pancreas to control blood sugar. Diabetes can be caused by too little insulin, resistance to insulin, or both. To understand diabetes, it is important to first understand the normal process by which food is broken down and used by the body for energy. Several things happen when food is digested: - A sugar called glucose enters the bloodstream. Glucose is a source of fuel for the body. - An organ called the pancreas makes insulin. The role of insulin is to move glucose from the bloodstream into muscle, fat, and liver cells, where it can be stored or used as fuel. People with diabetes have high blood sugar because their body cannot move sugar from the blood into muscle and fat cells to be burned or stored for energy, and/or because their liver makes too much glucose and releases it into the blood. This is because either: - Their pancreas does not make enough insulin - Their cells do not respond to insulin normally - Both of the above There are two major types of diabetes. The causes and risk factors are different for each type: - Type 1 diabetes can occur at any age, but it is most often diagnosed in children, teens, or young adults. In this disease, the body makes little or no insulin. This is because the pancreas cells that make insulin stop working. Daily injections of insulin are needed. The exact cause is unknown. - Type 2 diabetes is much more common. It most often occurs in adulthood, but because of high obesity rates, children and teens are now being diagnosed with this disease. Some people with type 2 diabetes do not know they have it. With type 2 diabetes, the body is resistant to insulin and doesn't use insulin as well as it should. - There are other causes of diabetes, and some people cannot be classified as type 1 or type 2. Gestational diabetes is high blood sugar that develops at any time during pregnancy in a woman who does not have diabetes. If your parent, brother, or sister has diabetes, you may be more likely to develop the disease. A high blood sugar level can cause several symptoms, including: - Blurry vision - Excess thirst - Fatigue - Frequent urination - Hunger - Weight loss Because type 2 diabetes develops slowly, some people with high blood sugar have no symptoms. Symptoms of type 1 diabetes develop over a short period. People may be very sick by the time they are diagnosed. After many years, diabetes can lead to other serious problems. These problems are known as diabetes complications, and include: - Eye problems, including trouble seeing (especially at night), light sensitivity, and blindness - Sores and infections of the leg or foot, which if untreated, can lead to amputation of the leg or foot - Damage to nerves in the body, causing pain, tingling, a loss of feeling, problems digesting food, and erectile dysfunction - Kidney problems, which can lead to kidney failure - Weakened immune system, which can lead to more frequent infections - Increased chance of having a heart attack or stroke A urine analysis may show high blood sugar. But a urine test alone does not diagnose diabetes. Your health care provider may suspect that you have diabetes if your blood sugar level is higher than 200 mg/dL (11.1 mmol/L). To confirm the diagnosis, one or more of the following tests must be done. Blood tests: - Fasting blood glucose level. Diabetes is diagnosed if the fasting glucose level is higher than 126 mg/dL (7.0 mmol/L) on two different tests. Levels between 100 and 126 mg/dL (5.5 and 7.0 mmol/L) are called impaired fasting glucose or prediabetes. These levels are risk factors for type 2 diabetes. - Hemoglobin A1c (A1C) test. Normal is less than 5.7%; prediabetes is 5.7% to 6.4%; and diabetes is 6.5% or higher. - Oral glucose tolerance test. Diabetes is diagnosed if the glucose level is higher than 200 mg/dL (11.1 mmol/L) 2 hours after drinking a sugar drink (this test is used more often for type 2 diabetes). Screening for type 2 diabetes in people who have no symptoms is recommended for: - Overweight children who have other risk factors for diabetes, starting at age 10 and repeated every 3 years. - Overweight adults (BMI of 25 or higher) who have other risk factors such as having high blood pressure, or having a mother, father, sister or brother with diabetes. - Adults over age 45, repeated every 3 years. Type 2 diabetes may be reversed with lifestyle changes, especially losing weight with exercise and by eating healthier foods. Some cases of type 2 diabetes can also be improved with weight loss surgery. There is no cure for type 1 diabetes. Treating either type 1 diabetes or type 2 diabetes involves medicines, diet, and exercise to control blood sugar level. Everyone with diabetes should receive proper education and support about the best ways to manage their diabetes. Ask your provider about seeing a diabetes nurse educator. Getting better control over your blood sugar, cholesterol, and blood pressure levels helps reduce the risk of kidney disease, eye disease, nervous system disease, heart attack, and stroke. To prevent diabetes complications, visit your provider at least 2 to 4 times a year. Talk about any problems you are having. Follow your provider's instructions on managing your diabetes. Many resources can help you understand more about diabetes. If you have diabetes, you can also learn ways to manage your condition and prevent diabetes complications. Diabetes is a lifelong disease and there is no cure. Tight control of blood glucose can prevent or delay diabetes complications. But these problems can occur, even in people with good diabetes control. After many years, diabetes can lead to serious health problems: - You could have eye problems, including trouble seeing (especially at night), and light sensitivity. You could become blind. - Your feet and skin can develop sores and infections. After a long time, your foot or leg may need to be amputated. Infection can also cause pain and itching in other parts of the body. - Diabetes may make it harder to control your blood pressure and cholesterol. This can lead to a heart attack, stroke, and other problems. It can become harder for blood to flow to your legs and feet. - Nerves in your body can get damaged, causing pain, tingling, and numbness. - Because of nerve damage, you could have problems digesting the food you eat. You could feel weakness or have trouble going to the bathroom. Nerve damage can make it harder for men to have an erection. - High blood sugar and other problems can lead to kidney damage. Your kidneys may not work as well as they used to. They may even stop working so that you need dialysis or a kidney transplant. Keeping an ideal body weight and an active lifestyle may prevent or delay the start of type 2 diabetes. If you're overweight, losing just 5% to 7% of your body weight even helps. Some medicines can also be used to delay or prevent the start of type 2 diabetes. At this time, type 1 diabetes cannot be prevented. But there is promising research that shows type 1 diabetes may be delayed in some high risk people. Updated by: Robert Hurd, MD, Professor of Endocrinology and Health Care Ethics, Xavier University, Cincinnati, OH. Review provided by VeriMed Healthcare Network. Also reviewed by David Zieve, MD, MHA, Medical Director, Brenda Conaway, Editorial Director, and the A.D.A.M. Editorial team.

Diabetes Type 2 I test before going to bed and the reading is 94 but when I test again in the morning, the reading is 165. How can I lower it? I eat dinner around 8PM and nothing until the next morning.

Ask your provider about getting exercise: - Before I start, do I need to have my heart checked? My eyes? My feet? - What type of exercise program should I do? What type of activities should I avoid? - When should I check my blood sugar when I exercise? What should I bring with me when I exercise? Should I eat before or during exercise? Do I need to adjust my medicines when I exercise? ... Ask your provider about meeting with a dietitian. Questions for the dietitian may include: - What foods increase my blood sugar the most? - What foods can help me with my weight loss goals? ... How often should I check my blood sugar level at home? Should I do it at different times of the day? What is too low? What is too high? What should I do if my blood sugar is too low or too high? ... Ask your provider about symptoms that you are having if they have not been discussed.

Type 2 diabetes - what to ask your doctor (Questions): Ask your provider to check the nerves, skin, and pulses in your feet. Also ask these questions: - How often should I check my feet? What should I do when I check them? What problems should I call my provider about? - Who should trim my toenails? Is it OK if I trim them? - How should I take care of my feet every day? What type of shoes and socks should I wear? - Should I see a foot doctor (podiatrist)? Ask your provider about getting exercise: - Before I start, do I need to have my heart checked? My eyes? My feet? - What type of exercise program should I do? What type of activities should I avoid? - When should I check my blood sugar when I exercise? What should I bring with me when I exercise? Should I eat before or during exercise? Do I need to adjust my medicines when I exercise? When should I next have an eye doctor check my eyes? What eye problems should I call my doctor about? Ask your provider about meeting with a dietitian. Questions for the dietitian may include: - What foods increase my blood sugar the most? - What foods can help me with my weight loss goals? Ask your provider about your diabetes medicines: - When should I take them? - What should I do if I miss a dose? - Are there any side effects? How often should I check my blood sugar level at home? Should I do it at different times of the day? What is too low? What is too high? What should I do if my blood sugar is too low or too high? Should I get a medical alert bracelet or necklace? Should I have glucagon at home? Ask your provider about symptoms that you are having if they have not been discussed. Tell your provider about blurred vision, skin changes, depression, reactions at injection sites, sexual dysfunction, tooth pain, muscle pain, or nausea. Ask your provider about other tests you may need, such as cholesterol, A1C, and a urine test to check for kidney problems. Ask your provider about vaccinations you should have like the flu shot, hepatitis B, or pneumonia vaccines. How should I take care of my diabetes when I travel? Ask your provider how you should take care of your diabetes when you are sick: - What should I eat or drink? - How should I take my diabetes medicines? - How often should I check my blood sugar? - When should I call the provider?

Diabetes Type 2 I test before going to bed and the reading is 94 but when I test again in the morning, the reading is 165. How can I lower it? I eat dinner around 8PM and nothing until the next morning.

You can do many things to control your symptoms, prevent damage due to diabetes, and make your life better. .. Ask your provider about getting exercise: - Before I start, do I need to have my heart checked? My eyes? My feet? - What type of exercise program should I do? What type of activities should I avoid? - When should I check my blood sugar when I exercise? What should I bring with me when I exercise? Should I eat before or during exercise? Do I need to adjust my medicines when I exercise? ... Ask your provider about meeting with a dietitian. Questions for the dietitian may include: - What foods increase my blood sugar the most? - What foods can help me with my weight loss goals? ... How often should I check my blood sugar level at home? Should I do it at different times of the day? What is too low? What is too high? What should I do if my blood sugar is too low or too high? ... Ask your provider about symptoms that you are having if they have not been discussed.

Type 2 diabetes - what to ask your doctor: Type 2 diabetes is a lifelong disease that causes a high level of sugar (glucose) in your blood. It can damage your organs. It can also lead to a heart attack or stroke and cause many other health problems. You can do many things to control your symptoms, prevent damage due to diabetes, and make your life better. Below are questions you may want to ask your health care provider to help you take care of your diabetes. Ask your provider to check the nerves, skin, and pulses in your feet. Also ask these questions: - How often should I check my feet? What should I do when I check them? What problems should I call my provider about? - Who should trim my toenails? Is it OK if I trim them? - How should I take care of my feet every day? What type of shoes and socks should I wear? - Should I see a foot doctor (podiatrist)? Ask your provider about getting exercise: - Before I start, do I need to have my heart checked? My eyes? My feet? - What type of exercise program should I do? What type of activities should I avoid? - When should I check my blood sugar when I exercise? What should I bring with me when I exercise? Should I eat before or during exercise? Do I need to adjust my medicines when I exercise? When should I next have an eye doctor check my eyes? What eye problems should I call my doctor about? Ask your provider about meeting with a dietitian. Questions for the dietitian may include: - What foods increase my blood sugar the most? - What foods can help me with my weight loss goals? Ask your provider about your diabetes medicines: - When should I take them? - What should I do if I miss a dose? - Are there any side effects? How often should I check my blood sugar level at home? Should I do it at different times of the day? What is too low? What is too high? What should I do if my blood sugar is too low or too high? Should I get a medical alert bracelet or necklace? Should I have glucagon at home? Ask your provider about symptoms that you are having if they have not been discussed. Tell your provider about blurred vision, skin changes, depression, reactions at injection sites, sexual dysfunction, tooth pain, muscle pain, or nausea. Ask your provider about other tests you may need, such as cholesterol, A1C, and a urine test to check for kidney problems. Ask your provider about vaccinations you should have like the flu shot, hepatitis B, or pneumonia vaccines. How should I take care of my diabetes when I travel? Ask your provider how you should take care of your diabetes when you are sick: - What should I eat or drink? - How should I take my diabetes medicines? - How often should I check my blood sugar? - When should I call the provider? Updated by: Brent Wisse, MD, Associate Professor of Medicine, Division of Metabolism, Endocrinology and Nutrition, University of Washington School of Medicine, Seattle, WA. Also reviewed by David Zieve, MD, MHA, Isla Ogilvie, PhD, and the A.D.A.M. Editorial team.

Diabetes Type 2 I test before going to bed and the reading is 94 but when I test again in the morning, the reading is 165. How can I lower it? I eat dinner around 8PM and nothing until the next morning.

SPS is characterized by fluctuating muscle rigidity in the trunk and limbs and a heightened sensitivity to stimuli such as noise, touch, and emotional distress, which can set off muscle spasms. Abnormal postures, often hunched over and stiffened, are characteristic of the disorder. People with SPS can be too disabled to walk or move, or they are afraid to leave the house because street noises, such as the sound of a horn, can trigger spasms and falls. SPS affects twice as many women as men. It is frequently associated with other autoimmune diseases such as diabetes, thyroiditis, vitiligo, and pernicious anemia. ... The disorder is often misdiagnosed as Parkinson?s disease, multiple sclerosis, fibromyalgia, psychosomatic illness, or anxiety and phobia. A definitive diagnosis can be made with a blood test that measures the level of glutamic acid decarboxylase (GAD) antibodies in the blood.

Stiff-Person Syndrome: Stiff-person syndrome (SPS) is a rare neurological disorder with features of an autoimmune disease.  SPS is characterized by fluctuating muscle rigidity in the trunk and limbs and a heightened sensitivity to stimuli such as noise, touch, and emotional distress, which can set off muscle spasms.  Abnormal postures, often hunched over and stiffened, are characteristic of the disorder.  People with SPS can be too disabled to walk or move, or they are afraid to leave the house because street noises, such as the sound of a horn, can trigger spasms and falls.  SPS affects twice as many women as men.   It is frequently associated with other autoimmune diseases such as diabetes, thyroiditis, vitiligo, and pernicious anemia.  Scientists don’t yet understand what causes SPS, but research indicates that it is the result of an autoimmune response gone awry in the brain and spinal cord.  The disorder is often misdiagnosed as Parkinson’s disease, multiple sclerosis, fibromyalgia, psychosomatic illness, or anxiety and phobia.  A definitive diagnosis can be made with a blood test that measures the level of glutamic acid decarboxylase (GAD) antibodies in the blood.  People with SPS have elevated levels of GAD, an antibody that works against an enzyme involved in the synthesis of an important neurotransmitter in the brain. People with SPS respond to high doses of diazepam and several anti-convulsants, gabapentin and tiagabine.  A recent study funded by the NINDS demonstrated the effectiveness of intravenous immunoglobulin (IVIg) treatment in reducing stiffness and lowering sensitivity to noise, touch, and stress in people with SPS.  Treatment with IVIg, anti-anxiety drugs, muscle relaxants, anti-convulsants, and pain relievers will improve the symptoms of SPS, but will not cure the disorder.  Most individuals with SPS have frequent falls and because they lack the normal defensive reflexes; injuries can be severe.  With appropriate treatment, the symptoms are usually well controlled.

Stiff person Syndrome. Please can you tell me what are the early symptoms I have severe cramps in my feet which are twisting into an arc,muscle spasms slowly getting worse and my muscles particularly in my legs are cramping like someone has pushed a knitting needle into them. Started off at night but now happening through the day my back and neck and voice box are also effected and my chest area has now seized to the point of restricting my breathing to very shallow at times I find that I am stretching out involuntarily right through my body and this is becoming more frequent

The type of treatment your doctor recommends will depend largely on the stage of your cancer. The three primary treatment options are surgery, chemotherapy and radiation. Surgery for early-stage colon cancer If your colon cancer is very small, your doctor may recommend a minimally invasive approach to surgery, such as: - Removing polyps during a colonoscopy. If your cancer is small, localized and completely contained within a polyp and in a very early stage, your doctor may be able to remove it completely during a colonoscopy. - Endoscopic mucosal resection. Removing larger polyps may require also taking a small amount of the lining of the colon or rectum in a procedure called an endoscopic mucosal resection. - Minimally invasive surgery. Polyps that can't be removed during a colonoscopy may be removed using laparoscopic surgery. In this procedure, your surgeon performs the operation through several small incisions in your abdominal wall, inserting instruments with attached cameras that display your colon on a video monitor. The surgeon may also take samples from lymph nodes in the area where the cancer is located. Surgery for invasive colon cancer If the cancer has grown into or through your colon, your surgeon may recommend: - Partial colectomy. During this procedure, the surgeon removes the part of your colon that contains the cancer, along with a margin of normal tissue on either side of the cancer. Your surgeon is often able to reconnect the healthy portions of your colon or rectum. This procedure can commonly be done by a minimally invasive approach (laparoscopy). - Surgery to create a way for waste to leave your body. When it's not possible to reconnect the healthy portions of your colon or rectum, you may need an ostomy. This involves creating an opening in the wall of your abdomen from a portion of the remaining bowel for the elimination of stool into a bag that fits securely over the opening. Sometimes the ostomy is only temporary, allowing your colon or rectum time to heal after surgery. In some cases, however, the colostomy may be permanent. - Lymph node removal. Nearby lymph nodes are usually also removed during colon cancer surgery and tested for cancer. Surgery for advanced cancer If your cancer is very advanced or your overall health very poor, your surgeon may recommend an operation to relieve a blockage of your colon or other conditions in order to improve your symptoms. This surgery isn't done to cure cancer, but instead to relieve signs and symptoms, such as bleeding and pain. In specific cases where the cancer has spread only to the liver but your overall health is otherwise good, your doctor may recommend surgery to remove the cancerous lesion from your liver. Chemotherapy may be used before or after this type of surgery. This approach provides a chance to be free of cancer over the long term. Chemotherapy Chemotherapy uses drugs to destroy cancer cells. Chemotherapy for colon cancer is usually given after surgery if the cancer has spread to lymph nodes. In this way, chemotherapy may help reduce the risk of cancer recurrence and death from cancer. Sometimes chemotherapy may be used before surgery as well, with the goal of shrinking the cancer before an operation. Chemotherapy before surgery is more common in rectal cancer than in colon cancer. Chemotherapy can also be given to relieve symptoms of colon cancer that has spread to other areas of the body. Radiation therapy Radiation therapy uses powerful energy sources, such as X-rays, to kill cancer cells, to shrink large tumors before an operation so that they can be removed more easily, or to relieve symptoms of colon cancer and rectal cancer. Radiation therapy either alone or combined with chemotherapy is one of the standard treatment options for the initial management of rectal cancer followed by surgery. Targeted drug therapy Drugs that target specific malfunctions that allow cancer cells to grow are available to people with advanced colon cancer, including: - Bevacizumab (Avastin) - Cetuximab (Erbitux) - Panitumumab (Vectibix) - Ramucirumab (Cyramza) - Regorafenib (Stivarga) - Ziv-aflibercept (Zaltrap) Targeted drugs can be given along with chemotherapy or alone. Targeted drugs are typically reserved for people with advanced colon cancer. Some people are helped by targeted drugs, while others are not. Researchers have recently made progress in determining who is most likely to benefit from specific targeted drugs. Until more is known, doctors carefully weigh the possible benefit of targeted drugs against the risk of side effects and the cost when deciding whether to use these treatments. Immunotherapy Some patients with advanced colon cancer have a chance to benefit from immunotherapy with antibodies such as pembrolizumab (Keytruda) and nivolumab (Opdivo). Whether a colon cancer has the chance to respond to these immunotherapies can be determined by a specific test of the tumor tissue. Supportive (palliative) care Palliative care is specialized medical care that focuses on providing relief from pain and other symptoms of a serious illness. Palliative care specialists work with you, your family and your other doctors to provide an extra layer of support that complements your ongoing care. When palliative care is used along with all of the other appropriate treatments, people with cancer may feel better and live longer. Palliative care is provided by a team of doctors, nurses and other specially trained professionals. Palliative care teams aim to improve the quality of life for people with cancer and their families. This form of care is offered alongside curative or other treatments you may be receiving.

Colon cancer: Colon cancer is cancer of the large intestine (colon), which is the final part of your digestive tract. Most cases of colon cancer begin as small, noncancerous (benign) clumps of cells called adenomatous polyps. Over time some of these polyps can become colon cancers. Polyps may be small and produce few, if any, symptoms. For this reason, doctors recommend regular screening tests to help prevent colon cancer by identifying and removing polyps before they turn into cancer. Signs and symptoms of colon cancer include: - A change in your bowel habits, including diarrhea or constipation or a change in the consistency of your stool, that lasts longer than four weeks - Rectal bleeding or blood in your stool - Persistent abdominal discomfort, such as cramps, gas or pain - A feeling that your bowel doesn't empty completely - Weakness or fatigue - Unexplained weight loss Many people with colon cancer experience no symptoms in the early stages of the disease. When symptoms appear, they'll likely vary, depending on the cancer's size and location in your large intestine. When to see a doctor If you notice any symptoms of colon cancer, such as blood in your stool or an ongoing change in bowel habits, do not hesitate to make an appointment with your doctor. Talk to your doctor about when you should begin screening for colon cancer. Guidelines generally recommend that colon cancer screenings begin at age 50. Your doctor may recommend more frequent or earlier screening if you have other risk factors, such as a family history of the disease. In most cases, it's not clear what causes colon cancer. Doctors know that colon cancer occurs when healthy cells in the colon develop errors in their genetic blueprint, the DNA. Healthy cells grow and divide in an orderly way to keep your body functioning normally. But when a cell's DNA is damaged and becomes cancerous, cells continue to divide - even when new cells aren't needed. As the cells accumulate, they form a tumor. With time, the cancer cells can grow to invade and destroy normal tissue nearby. And cancerous cells can travel to other parts of the body to form deposits there (metastasis). Inherited gene mutations that increase the risk of colon cancer Inherited gene mutations that increase the risk of colon cancer can be passed through families, but these inherited genes are linked to only a small percentage of colon cancers. Inherited gene mutations don't make cancer inevitable, but they can increase an individual's risk of cancer significantly. The most common forms of inherited colon cancer syndromes are: - Hereditary nonpolyposis colorectal cancer (HNPCC). HNPCC, also called Lynch syndrome, increases the risk of colon cancer and other cancers. People with HNPCC tend to develop colon cancer before age 50. - Familial adenomatous polyposis (FAP). FAP is a rare disorder that causes you to develop thousands of polyps in the lining of your colon and rectum. People with untreated FAP have a greatly increased risk of developing colon cancer before age 40. FAP, HNPCC and other, rarer inherited colon cancer syndromes can be detected through genetic testing. If you're concerned about your family's history of colon cancer, talk to your doctor about whether your family history suggests you have a risk of these conditions. Association between diet and increased colon cancer risk Studies of large groups of people have shown an association between a typical Western diet and an increased risk of colon cancer. A typical Western diet is high in fat and low in fiber. When people move from areas where the typical diet is low in fat and high in fiber to areas where the typical Western diet is most common, the risk of colon cancer in these people increases significantly. It's not clear why this occurs, but researchers are studying whether a high-fat, low-fiber diet affects the microbes that live in the colon or causes underlying inflammation that may contribute to cancer risk. This is an area of active investigation and research is ongoing. Factors that may increase your risk of colon cancer include: - Older age. The great majority of people diagnosed with colon cancer are older than 50. Colon cancer can occur in younger people, but it occurs much less frequently. - African-American race. African-Americans have a greater risk of colon cancer than do people of other races. - A personal history of colorectal cancer or polyps. If you've already had colon cancer or adenomatous polyps, you have a greater risk of colon cancer in the future. - Inflammatory intestinal conditions. Chronic inflammatory diseases of the colon, such as ulcerative colitis and Crohn's disease, can increase your risk of colon cancer. - Inherited syndromes that increase colon cancer risk. Genetic syndromes passed through generations of your family can increase your risk of colon cancer. These syndromes include familial adenomatous polyposis and hereditary nonpolyposis colorectal cancer, which is also known as Lynch syndrome. - Family history of colon cancer. You're more likely to develop colon cancer if you have a parent, sibling or child with the disease. If more than one family member has colon cancer or rectal cancer, your risk is even greater. - Low-fiber, high-fat diet. Colon cancer and rectal cancer may be associated with a diet low in fiber and high in fat and calories. Research in this area has had mixed results. Some studies have found an increased risk of colon cancer in people who eat diets high in red meat and processed meat. - A sedentary lifestyle. If you're inactive, you're more likely to develop colon cancer. Getting regular physical activity may reduce your risk of colon cancer. - Diabetes. People with diabetes and insulin resistance have an increased risk of colon cancer. - Obesity. People who are obese have an increased risk of colon cancer and an increased risk of dying of colon cancer when compared with people considered normal weight. - Smoking. People who smoke may have an increased risk of colon cancer. - Alcohol. Heavy use of alcohol increases your risk of colon cancer. - Radiation therapy for cancer. Radiation therapy directed at the abdomen to treat previous cancers increases the risk of colon and rectal cancer. Screening for colon cancer Doctors recommend certain screening tests for healthy people with no signs or symptoms in order to look for early colon cancer. Finding colon cancer at its earliest stage provides the greatest chance for a cure. Screening has been shown to reduce your risk of dying of colon cancer. People with an average risk of colon cancer can consider screening beginning at age 50. But people with an increased risk, such as those with a family history of colon cancer, should consider screening sooner. African-Americans and American Indians may consider beginning colon cancer screening at age 45. Several screening options exist - each with its own benefits and drawbacks. Talk about your options with your doctor, and together you can decide which tests are appropriate for you. If a colonoscopy is used for screening, polyps can be removed during the procedure before they turn into cancer. Diagnosing colon cancer If your signs and symptoms indicate that you could have colon cancer, your doctor may recommend one or more tests and procedures, including: - Using a scope to examine the inside of your colon. Colonoscopy uses a long, flexible and slender tube attached to a video camera and monitor to view your entire colon and rectum. If any suspicious areas are found, your doctor can pass surgical tools through the tube to take tissue samples (biopsies) for analysis and remove polyps. - Blood tests. No blood test can tell you if you have colon cancer. But your doctor may test your blood for clues about your overall health, such as kidney and liver function tests. Your doctor may also test your blood for a chemical sometimes produced by colon cancers (carcinoembryonic antigen or CEA). Tracked over time, the level of CEA in your blood may help your doctor understand your prognosis and whether your cancer is responding to treatment. Staging colon cancer Once you've been diagnosed with colon cancer, your doctor will order tests to determine the extent (stage) of your cancer. Staging helps determine what treatments are most appropriate for you. Staging tests may include imaging procedures such as abdominal, pelvic and chest CT scans. In many cases, the stage of your cancer may not be determined until after colon cancer surgery. The stages of colon cancer are: - Stage I. The cancer has grown through the superficial lining (mucosa) of the colon or rectum but hasn't spread beyond the colon wall or rectum. - Stage II. The cancer has grown into or through the wall of the colon or rectum but hasn't spread to nearby lymph nodes. - Stage III. The cancer has invaded nearby lymph nodes but isn't affecting other parts of your body yet. - Stage IV. The cancer has spread to distant sites, such as other organs - for instance, to your liver or lung. The type of treatment your doctor recommends will depend largely on the stage of your cancer. The three primary treatment options are surgery, chemotherapy and radiation. Surgery for early-stage colon cancer If your colon cancer is very small, your doctor may recommend a minimally invasive approach to surgery, such as: - Removing polyps during a colonoscopy. If your cancer is small, localized and completely contained within a polyp and in a very early stage, your doctor may be able to remove it completely during a colonoscopy. - Endoscopic mucosal resection. Removing larger polyps may require also taking a small amount of the lining of the colon or rectum in a procedure called an endoscopic mucosal resection. - Minimally invasive surgery. Polyps that can't be removed during a colonoscopy may be removed using laparoscopic surgery. In this procedure, your surgeon performs the operation through several small incisions in your abdominal wall, inserting instruments with attached cameras that display your colon on a video monitor. The surgeon may also take samples from lymph nodes in the area where the cancer is located. Surgery for invasive colon cancer If the cancer has grown into or through your colon, your surgeon may recommend: - Partial colectomy. During this procedure, the surgeon removes the part of your colon that contains the cancer, along with a margin of normal tissue on either side of the cancer. Your surgeon is often able to reconnect the healthy portions of your colon or rectum. This procedure can commonly be done by a minimally invasive approach (laparoscopy). - Surgery to create a way for waste to leave your body. When it's not possible to reconnect the healthy portions of your colon or rectum, you may need an ostomy. This involves creating an opening in the wall of your abdomen from a portion of the remaining bowel for the elimination of stool into a bag that fits securely over the opening. Sometimes the ostomy is only temporary, allowing your colon or rectum time to heal after surgery. In some cases, however, the colostomy may be permanent. - Lymph node removal. Nearby lymph nodes are usually also removed during colon cancer surgery and tested for cancer. Surgery for advanced cancer If your cancer is very advanced or your overall health very poor, your surgeon may recommend an operation to relieve a blockage of your colon or other conditions in order to improve your symptoms. This surgery isn't done to cure cancer, but instead to relieve signs and symptoms, such as bleeding and pain. In specific cases where the cancer has spread only to the liver but your overall health is otherwise good, your doctor may recommend surgery to remove the cancerous lesion from your liver. Chemotherapy may be used before or after this type of surgery. This approach provides a chance to be free of cancer over the long term. Chemotherapy Chemotherapy uses drugs to destroy cancer cells. Chemotherapy for colon cancer is usually given after surgery if the cancer has spread to lymph nodes. In this way, chemotherapy may help reduce the risk of cancer recurrence and death from cancer. Sometimes chemotherapy may be used before surgery as well, with the goal of shrinking the cancer before an operation. Chemotherapy before surgery is more common in rectal cancer than in colon cancer. Chemotherapy can also be given to relieve symptoms of colon cancer that has spread to other areas of the body. Radiation therapy Radiation therapy uses powerful energy sources, such as X-rays, to kill cancer cells, to shrink large tumors before an operation so that they can be removed more easily, or to relieve symptoms of colon cancer and rectal cancer. Radiation therapy either alone or combined with chemotherapy is one of the standard treatment options for the initial management of rectal cancer followed by surgery. Targeted drug therapy Drugs that target specific malfunctions that allow cancer cells to grow are available to people with advanced colon cancer, including: - Bevacizumab (Avastin) - Cetuximab (Erbitux) - Panitumumab (Vectibix) - Ramucirumab (Cyramza) - Regorafenib (Stivarga) - Ziv-aflibercept (Zaltrap) Targeted drugs can be given along with chemotherapy or alone. Targeted drugs are typically reserved for people with advanced colon cancer. Some people are helped by targeted drugs, while others are not. Researchers have recently made progress in determining who is most likely to benefit from specific targeted drugs. Until more is known, doctors carefully weigh the possible benefit of targeted drugs against the risk of side effects and the cost when deciding whether to use these treatments. Immunotherapy Some patients with advanced colon cancer have a chance to benefit from immunotherapy with antibodies such as pembrolizumab (Keytruda) and nivolumab (Opdivo). Whether a colon cancer has the chance to respond to these immunotherapies can be determined by a specific test of the tumor tissue. Supportive (palliative) care Palliative care is specialized medical care that focuses on providing relief from pain and other symptoms of a serious illness. Palliative care specialists work with you, your family and your other doctors to provide an extra layer of support that complements your ongoing care. When palliative care is used along with all of the other appropriate treatments, people with cancer may feel better and live longer. Palliative care is provided by a team of doctors, nurses and other specially trained professionals. Palliative care teams aim to improve the quality of life for people with cancer and their families. This form of care is offered alongside curative or other treatments you may be receiving.

Colon cancer cure seen on tv. My father has colon cancer and said he saw a commercial on tv about a cure for colon cancer. He cannot remember any details about it. I was wondering if you know anything about something like this. Please let me know. Thank you,