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<s> [INST] What is the outlook for Hereditary Neuropathies ?[/INST] The prognosis for individuals with hereditary neuropathies depends upon the type of neuropathy. Some hereditary neuropathies have very mild symptoms and may go undiagnosed for many years. Other types are more severe and are associated with more disabilities. Genetic counseling is important to understand further details about the disease and prognosis.</s> |
<s> [INST] what research (or clinical trials) is being done for Hereditary Neuropathies ?[/INST] The NINDS supports research on neuromuscular disorders, such as hereditary neuropathies, aimed at learning more about these disorders and finding ways to prevent and treat them.</s> |
<s> [INST] What is (are) Glossopharyngeal Neuralgia ?[/INST] Glossopharyngeal neuralgia (GN) is a rare pain syndrome that affects the glossopharyngeal nerve (the ninth cranial nerve that lies deep within the neck) and causes sharp, stabbing pulses of pain in the back of the throat and tongue, the tonsils, and the middle ear. The excruciating pain of GN can last for a few seconds to a few minutes, and may return multiple times in a day or once every few weeks. Many individuals with GN relate the attacks of pain to specific trigger factors such as swallowing, drinking cold liquids, sneezing, coughing, talking, clearing the throat, and touching the gums or inside the mouth. GN can be caused by compression of the glossopharyngeal nerve, but in some cases, no cause is evident. Like trigeminal neuralgia, it is associated with multiple sclerosis. GN primarily affects the elderly.</s> |
<s> [INST] What are the treatments for Glossopharyngeal Neuralgia ?[/INST] Most doctors will attempt to treat the pain first with drugs. Some individuals respond well to anticonvulsant drugs, such as carbamazepine and gabapentin. Surgical options, including nerve resection, tractotomy, or microvascular decompression, should be considered when individuals either dont respond to, or stop responding to, drug therapy. Surgery is usually successful at ending the cycles of pain, although there may be some sensory loss in the mouth, throat, or tongue.</s> |
<s> [INST] What is the outlook for Glossopharyngeal Neuralgia ?[/INST] Some individuals recover from an initial attack and never have another. Others will experience clusters of attacks followed by periods of short or long remission. Individuals may lose weight if they fear that chewing, drinking, or eating will cause an attack.</s> |
<s> [INST] what research (or clinical trials) is being done for Glossopharyngeal Neuralgia ?[/INST] The National Institute of Neurological Disorders and Stroke (NINDS) and other institutes at the National Institutes of Health conduct research related to GN and support additional research through grants to major research institutions across the country. Much of this research focuses on finding better ways to prevent, treat, and ultimately cure disorders such as GN.</s> |
<s> [INST] What is (are) Gaucher Disease ?[/INST] Gaucher disease is one of the inherited metabolic disorders known as lipid storage diseases. Lipids are fatty materials that include oils, fatty acids, waxes, and steroids (such as cholesterol and estrogen). Gaucher disease is caused by a deficiency of the enzyme glucocerebrosidase. Fatty materials can accumulate in the brain, spleen, liver, lungs, bone marrow, and kidneys. Symptoms may begin in early life or adulthood and include skeletal disorders and bone lesions that may cause pain and fractures, enlarged spleen and liver, liver malfunction, anemia, and yellow spots in the eyes. There are three common clinical subtypes of Gaucher disease. The first category, called type 1 (or nonneuropathic), typically does not affect the brain. Symptoms may begin early in life or in adulthood. People in this group usually bruise easily due to low blood platelets and experience fatigue due to anemia They also may have an enlarged liver and spleen. Many individuals with a mild form of the disorder may not show any symptoms. In type 2 Gaucher disease (acute infantile neuropathic Gaucher disease), symptoms usually begin by 3 months of age and include extensive brain damage, seizures, spasticity, poor ability to suck and swallow, and enlarged liver and spleen. Affecetd children usually die before 2 years of age. In the third category, called type 3 (or chronic neuropathic Gaucher disease), signs of brain involvement such as seizures gradually become apparent. Major symptoms also include skeletal irregularities, eye movement disorders, cognitive deficit, poor coordination, enlarged liver and spleen, respiratory problems, and blood disorders.</s> |
<s> [INST] What are the treatments for Gaucher Disease ?[/INST] Enzyme replacement therapy is available for most people with types 1 and 3 Gaucher disease. Given intravenously every two weeks, this therapy decreases liver and spleen size, reduces skeletal abnormalities, and reverses other symptoms of the disorder. The U.S. Food and Drug Administration has approved eligustat tartrate for Gaucher treatment, which works by administering small molecules that reduce the action of the enzyme that catalyzes glucose to ceramide. Surgery to remove the whole or part of the spleen may be required on rare occasions, and blood transfusions may benefit some anemic individuals. Other individuals may require joint replacement surgery to improve mobility and quality of life. There is no effective treatment for severe brain damage that may occur in persons with types 2 and 3 Gaucher disease.</s> |
<s> [INST] What is the outlook for Gaucher Disease ?[/INST] Enzyme replacement therapy is very beneficial for type 1 and most type 3 individuals with this condition. Successful bone marrow transplantation can reverse the non-neurological effects of the disease, but the procedure carries a high risk and is rarely performed in individuals with Gaucher disease.</s> |
<s> [INST] what research (or clinical trials) is being done for Gaucher Disease ?[/INST] The mission of the National Institute of Neurological Disorders and Stroke (NINDS), a part of the National Institutes of Health), is to seek fundamental knowledge about the brain and nervous system and to use that knowledge to reduce the burden of neurological disease. The NINDS supports research to find ways to treat and prevent lipid storage disorders such as Gaucher disease. For example, researchers hope to identify biomarkers (signs that may indicate risk of a disease and improve diagnosis) for Gaucher disease and other lipid storage diseases; and identify genetic, biochemical, and clinical factors that are associated with disease severity in individuals with Gaucher disease.Additional research is looking at the increased buildup of the protein alpha-synuclein, which is seen in Gaucher disease, Parkinson's disease, and Lewy Body Dementia. Using different models of glucoserebrosidase deficiency, scientists hope to learn how this deficiency impairs the breakdown of lysosomal proteins, including the breakdown of alpha-synuclein.</s> |
<s> [INST] What is (are) Shingles ?[/INST] Shingles (herpes zoster) is an outbreak of rash or blisters on the skin that is caused by the same virus that causes chickenpox the varicella-zoster virus. The first sign of shingles is often burning or tingling pain (which can be severe), or sometimes numbness or itch,generally on one side of the body. After several days or a week, a rash of fluid-filled blisters, similar to chickenpox, appears in one area on one side of the body. Shingles pain can be mild or intense. Some people have mostly itching; some feel pain from the gentlest touch or breeze. The most common location for shingles is a band, called a dermatome, spanning one side of the trunk around the waistline. Anyone who has had chickenpox is at risk for shingles. Scientists think that some of the virus particles from the original exposure to the varicella-zoster virus,leave the skin blisters and move into the nervous system. When the varicella-zoster virus reactivates, the virus moves back down the long nerve fibers that extend from the sensory cell bodies to the skin. The viruses multiply, the tell-tale rash erupts, and the person now has shingles.</s> |
<s> [INST] What are the treatments for Shingles ?[/INST] The severity and duration of an attack of shingles can be significantly reduced by immediate treatment with antiviral drugs, which include acyclovir, valcyclovir, or famcyclovir. Antiviral drugs may also help stave off the painful after-effects of shingles known as postherpetic neuralgia. Other treatments for postherpetic neuralgia include steroids, antidepressants, anticonvulsants (including pregabalin and gabapentin enacarbil), and topical agents. The varicella zoster virus vaccine (Zostavax) has been approved by teh food and Drug Administration for adults age 50 and older. Researchers found that giving older adults the vaccine reduced the expected number of later cases of shingles by half. And in people who still got the disease despite immunization, the severity and complications of shingles were dramatically reduced. The shingles vaccine is a preventive therapy and not a treatment for those who already have shingles or long-lasting nerve pain (postherpetic neuralgia).</s> |
<s> [INST] What is the outlook for Shingles ?[/INST] For most healthy people who receive treatment soon after the outbreak of blisters, the lesions heal, the pain subsides within 3 to 5 weeks, and the blisters often leave no scars. However, shingles is a serious threat in immunosuppressed individuals for example, those with HIV infection or who are receiving cancer treatments that can weaken their immune systems. People who receive organ transplants are also vulnerable to shingles because they are given drugs that suppress the immune system.
A person with a shingles rash can pass the virus to someone, usually a child, who has never had chickenpox, but the child will develop chickenpox, not shingles. A person with chickenpox cannot give shingles to someone else. Shingles comes from the virus hiding inside the person's body, not from an outside source.</s> |
<s> [INST] what research (or clinical trials) is being done for Shingles ?[/INST] The mission of the National Institute of Neurological Disorders and Stroke (NINDS) is to seek fundamental knowledge of the brain and nervous system and to use that knowledge to reduce the burden of neurological disease. The NINDS supports research on viral proteins and virus defense mechanisms in neurons to understand why the varicella-zoster virus establishes latency uniquely in neurons and not in other cell types. Other studies focus on how VZV travels along sensory nerve fibers, or axons, and its role in latency and viral reactivation. Scientists also hope to identify molecular mechanisms that regulate the expression of latent viral genes, which may lead to targeted therapy to prevent reactivation. Other studies hope to better understand cellular changes that lead to persistent pain.</s> |
<s> [INST] What is (are) Leigh's Disease ?[/INST] Leigh's disease is a rare inherited neurometabolic disorder that affects the central nervous system. This progressive disorder begins in infants between the ages of three months and two years.Rarely, it occurs in teenagers and adults.Leigh's disease can be caused by mutations in mitochondrial DNA or by deficiencies of an enzyme called pyruvate dehydrogenase. Symptoms of Leigh's disease usually progress rapidly. The earliest signs may be poor sucking ability,and the loss of head control and motor skills.These symptoms may be accompanied by loss of appetite, vomiting, irritability, continuous crying, and seizures. As the disorder progresses, symptoms may also include generalized weakness, lack of muscle tone, and episodes of lactic acidosis, which can lead to impairment of respiratory and kidney function.
In Leighs disease, genetic mutations in mitochondrial DNA interfere with the energy sources that run cells in an area of the brain that plays a role in motor movements.The primary function of mitochondria is to convert the energy in glucose and fatty acids into a substance called adenosine triphosphate ( ATP). The energy in ATP drives virtually all of a cell's metabolic functions. Genetic mutations in mitochondrial DNA, therefore, result in a chronic lack of energy in these cells, which in turn affects the central nervous system and causes progressive degeneration of motor functions.
There is also a form of Leighs disease (called X-linked Leigh's disease) which is the result of mutations in a gene that produces another group of substances that are important for cell metabolism. This gene is only found on the X chromosome.</s> |
<s> [INST] What are the treatments for Leigh's Disease ?[/INST] The most common treatment for Leigh's disease is thiamine or Vitamin B1. Oral sodium bicarbonate or sodium citrate may also be prescribed to manage lactic acidosis. Researchers are currently testing dichloroacetate to establish its effectiveness in treating lactic acidosis. In individuals who have the X-linked form of Leighs disease, a high-fat, low-carbohydrate diet may be recommended.</s> |
<s> [INST] What is the outlook for Leigh's Disease ?[/INST] The prognosis for individuals with Leigh's disease is poor. Individuals who lack mitochondrial complex IV activity and those with pyruvate dehydrogenase deficiency tend to have the worst prognosis and die within a few years. Those with partial deficiencies have a better prognosis, and may live to be 6 or 7 years of age. Some have survived to their mid-teenage years.</s> |
<s> [INST] what research (or clinical trials) is being done for Leigh's Disease ?[/INST] The NINDS supports and encourages a broad range of basic and clinical research on neurogenetic disorders such as Leigh's disease. The goal of this research is to understand what causes these disorders and then to apply these findings to new ways to diagnose, treat, and prevent them.</s> |
<s> [INST] What is (are) Kuru ?[/INST] Kuru is a rare and fatal brain disorder that occurred at epidemic levels during the 1950s-60s among the Fore people in the highlands of New Guinea. The disease was the result of the practice of ritualistic cannibalism among the Fore, in which relatives prepared and consumed the tissues (including brain) of deceased family members. Brain tissue from individuals with kuru was highly infectious, and the disease was transmitted either through eating or by contact with open sores or wounds. Government discouragement of the practice of cannibalism led to a continuing decline in the disease, which has now mostly disappeared.
Kuru belongs to a class of infectious diseases called transmissible spongiform encephalopathies (TSEs), also known as prion diseases. The hallmark of a TSE disease is misshapen protein molecules that clump together and accumulate in brain tissue. Scientists believe that misshapen prion proteins have the ability to change their shape and cause other proteins of the same type to also change shape. Other TSEs include Creutzfeldt-Jakob disease and fatal familial insomnia in humans, bovine spongiform encephalopathy in cattle (also known as mad cow disease), scrapie in sheep and goats, and chronic wasting disease in deer and elk.</s> |
<s> [INST] What are the treatments for Kuru ?[/INST] There were no treatments that could control or cure kuru, other than discouraging the practice of cannibalism. Currently, there are no cures or treatments for any of the other TSE diseases.</s> |
<s> [INST] What is the outlook for Kuru ?[/INST] Similar to other the TSEs, kuru had a long incubation period; it was years or even decades before an infected person showed symptoms. Because kuru mainly affected the cerebellum, which is responsible for coordination, the usual first symptoms were an unsteady gait, tremors, and slurred speech. (Kuru is the Fore word for shiver.) Unlike most of the other TSEs, dementia was either minimal or absent. Mood changes were often present. Eventually, individuals became unable to stand or eat, and they died in a comatose state from 6 to 12 months after the first appearance of symptoms.</s> |
<s> [INST] what research (or clinical trials) is being done for Kuru ?[/INST] The NINDS funds research to better understand the genetic, molecular, and cellular mechanisms that underlie the TSE diseases. Findings from this research will lead to ways to diagnose, treat, prevent, and ultimately cure these diseases.</s> |
<s> [INST] What is (are) Neurodegeneration with Brain Iron Accumulation ?[/INST] Neurodegeneration with brain iron accumulation (NBIA) is a rare, inherited, neurological movement disorder characterized by an abnormal accumulation of iron in the brain and progressive degeneration of the nervous system. Symptoms, which vary greatly among patients and usually develop during childhood, may include dystonia (slow writhing, distorting muscle contractions of the limbs, face, or trunk), dysarthria (slurred or slow speech) choreoathetosis (involuntary, purposeless jerky muscle movements), muscle rigidity (uncontrolled tightness of the muscles), spasticity (sudden, involuntary muscle spasms), and/or ataxia (inability to coordinate movements), confusion, disorientation, seizures, stupor, and dementia. Visual changes are also common, most often due to atrophy of the optic nerve (optic atrophy) or degeneration of the retinal layer in the back of the eye (retinal degeneration Cognitive decline occurs in some forms of NBIA; the majority of individuals with NBIA do not have cognitive impairment. Several genes have been found that cause NBIA.</s> |
<s> [INST] What are the treatments for Neurodegeneration with Brain Iron Accumulation ?[/INST] There is no cure for NBIA, nor is there a standard course of treatment. Treatment is symptomatic and supportive, and may include physical or occupational therapy, exercise physiology, and/or speech pathology. Many medications are available to treat the primary symptoms of dystonia and spasticity, including oral medications, intrathecal baclofen pump (in which a small pump is implanted under the skin and is programmed to deliver a specific amount of medication on a regular basis), deep brain stimulation, and botulinum toxin injection.</s> |
<s> [INST] What is the outlook for Neurodegeneration with Brain Iron Accumulation ?[/INST] NBIA is a progressive condition. Most individuals experience periods of rapid decline lasting weeks to months, with relatively stable periods in between. The rate of progression correlates with the age at onset, meaning that children with early symptoms tend to fare more poorly. For those with early onset, dystonia and spasticity can eventually limit the ability to walk, usually leading to use of a wheelchair by the midteens. Life expectancy is variable, although premature death does occur in NBIA. Premature death usually occurs due to secondary complications such as impaired swallowing or confinement to a bed or wheelchair, which can lead to poor nutrition or aspiration pneumonia. With improved medical care, however, a greater number of affected individuals reach adulthood. For those with atypical, late-onset NBIA, many are diagnosed as adults and live well into adulthood.</s> |
<s> [INST] what research (or clinical trials) is being done for Neurodegeneration with Brain Iron Accumulation ?[/INST] The mission of the National Institute of Neurological Disorders and Stroke (NINDS) is to seek fundamental knowledge about the brain and nervous system, and to use that knowledge to reduce the burden of neurological disease. NINDS-funded researchers are developing a mouse model of an NBIA disorder to gain insight into the causes of the disease and accelerate ongoing efforts to identify therapeutics to treat it..</s> |
<s> [INST] What is (are) Pompe Disease ?[/INST] Pompe disease is a rare (estimated at 1 in every 40,000 births), inherited and often fatal disorder that disables the heart and skeletal muscles. It is caused by mutations in a gene that makes an enzyme called acid alpha-glucosidase (GAA). Normally, the body uses GAA to break down glycogen, a stored form of sugar used for energy. The enzyme performs its function in intracellular compartments called lysosomes. Lysosomes are known to function as cellular clearinghouses; they ingest multiple substances including glycogen, which is converted by the GAA into glucose, a sugar that fuels muscles. In Pompe disease, mutations in the GAA gene reduce or completely eliminate this essential enzyme. Excessive amounts of lysosomal glycogen accumulate everywhere in the body, but the cells of the heart and skeletal muscles are the most seriously affected. Researchers have identified up to 300 different mutations in the GAA gene that cause the symptoms of Pompe disease, which can vary widely in terms of age of onset and severity. The severity of the disease and the age of onset are related to the degree of enzyme deficiency.
Early onset (or the infantile form) is the result of complete or near complete deficiency of GAA. Symptoms begin in the first months of life, with feeding problems, poor weight gain, muscle weakness, floppiness, and head lag. Respiratory difficulties are often complicated by lung infections. The heart is grossly enlarged. Many infants with Pompe disease also have enlarged tongues. Most babies die from cardiac or respiratory complications before their first birthday.
Late onset (or juvenile/adult) Pompe disease is the result of a partial deficiency of GAA. The onset can be as early as the first decade of childhood or as late as the sixth decade of adulthood. The primary symptom is muscle weakness progressing to respiratory weakness and death from respiratory failure after a course lasting several years. The heart is usually not involved. A diagnosis of Pompe disease can be confirmed by screening for the common genetic mutations or measuring the level of GAA enzyme activity in a blood sample. Once Pompe disease is diagnosed, testing of all family members and a consultation with a professional geneticist are recommended. Carriers are most reliably identified via genetic mutation analysis.</s> |
<s> [INST] What are the treatments for Pompe Disease ?[/INST] Individuals with Pompe disease are best treated by a team of specialists (such as cardiologist, neurologist, and respiratory therapist) knowledgeable about the disease, who can offer supportive and symptomatic care. The discovery of the GAA gene has led to rapid progress in understanding the biological mechanisms and properties of the GAA enzyme. As a result, an enzyme replacement therapy has been developed that has shown, in clinical trials with infantile-onset patients, to decrease heart size, maintain normal heart function, improve muscle function, tone, and strength, and reduce glycogen accumulation. A drug called alglucosidase alfa (Myozyme), has received FDA approval for the treatment of infants and children with Pompe disease. Another algluosidase alfa drug, Lumizyme, has been approved for late-onset (non-infantile) Pompe disease.</s> |
<s> [INST] What is the outlook for Pompe Disease ?[/INST] Without enzyme replacement therapy, the hearts of babies with infantile onset Pompe disease progressively thicken and enlarge. These babies die before the age of one year from either cardiorespiratory failure or respiratory infection. For individuals with late onset Pompe disease, the prognosis is dependent upon the age of onset. In general, the later the age of onset, the slower the progression of the disease. Ultimately, the prognosis is dependent upon the extent of respiratory muscle involvement.</s> |
<s> [INST] what research (or clinical trials) is being done for Pompe Disease ?[/INST] The National Institute of Neurological Disorders and Stroke (NINDS) supports Pompe research through grants to major research institutions across the country. Research related to Pompe disease is conducted in one of the laboratories of the National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS) at the National Institutes of Health. Much of Pompe-related research focuses on finding better ways to prevent, treat, and ultimately cure this disorder.</s> |
<s> [INST] What is (are) Dysgraphia ?[/INST] Dysgraphia is a neurological disorder characterized by writing disabilities. Specifically, the disorder causes a person's writing to be distorted or incorrect. In children, the disorder generally emerges when they are first introduced to writing. They make inappropriately sized and spaced letters, or write wrong or misspelled words, despite thorough instruction. Children with the disorder may have other learning disabilities; however, they usually have no social or other academic problems. Cases of dysgraphia in adults generally occur after some trauma. In addition to poor handwriting, dysgraphia is characterized by wrong or odd spelling, and production of words that are not correct (i.e., using "boy" for "child"). The cause of the disorder is unknown, but in adults, it is usually associated with damage to the parietal lobe of the brain.</s> |
<s> [INST] What are the treatments for Dysgraphia ?[/INST] Treatment for dysgraphia varies and may include treatment for motor disorders to help control writing movements. Other treatments may address impaired memory or other neurological problems. Some physicians recommend that individuals with dysgraphia use computers to avoid the problems of handwriting.</s> |
<s> [INST] What is the outlook for Dysgraphia ?[/INST] Some individuals with dysgraphia improve their writing ability, but for others, the disorder persists.</s> |
<s> [INST] what research (or clinical trials) is being done for Dysgraphia ?[/INST] The National Institute of Neurological Disorders and Stroke (NINDS) and other institutes of the National Institutes of Health (NIH) support dysgraphia research through grants to major medical institutions across the country. Much of this research focuses on finding better ways to treat, and ultimately, prevent dysgraphia.</s> |
<s> [INST] What is (are) Orthostatic Hypotension ?[/INST] Orthostatic hypotension is a sudden fall in blood pressure that occurs when a person assumes a standing position. It is due to a lesion of the baroreflex loop, which senses a change in blood pressure and adjusts heart rate and activates sympathetic nerve system fibers to cause the blood vessels to narrow and correct blood pressure. It may also be caused by hypovolemia (a decreased amount of blood in the body), resulting from the excessive use of diuretics, vasodilators, or other types of drugs, dehydration, or prolonged bed rest. The disorder may be associated with Addison's disease, diabetes, and certain neurological disorders including Multiple System Atrophy with Orthostatic Hypotension (formerly known as Shy-Drager syndrome), autonomic system neuropathies, and other dysautonomias. Symptoms, which generally occur after sudden standing, include dizziness, lightheadedness, blurred vision, and syncope (temporary loss of consciousness).</s> |
<s> [INST] What are the treatments for Orthostatic Hypotension ?[/INST] When orthostatic hypotension is caused by hypovolemia due to medications, the disorder may be reversed by adjusting the dosage or by discontinuing the medication. When the condition is caused by prolonged bed rest, improvement may occur by sitting up with increasing frequency each day. In some cases, physical counterpressure such as elastic hose or whole-body inflatable suits may be required. Dehydration is treated with salt and fluids. More severe cases can be treated with drugs, such as midodrine, to raise blood pressure.</s> |
<s> [INST] What is the outlook for Orthostatic Hypotension ?[/INST] The prognosis for individuals with orthostatic hypotension depends on the underlying cause of the condition.</s> |
<s> [INST] what research (or clinical trials) is being done for Orthostatic Hypotension ?[/INST] The NINDS supports research on conditions such as neurogenic orthostatic hypotension aimed at increasing scientific understanding of the condition and finding ways to treat and prevent it.</s> |
<s> [INST] What is (are) Huntington's Disease ?[/INST] Huntington's disease (HD) is an inherited disorder that causes degeneration of brain cells, called neurons, in motor control regions of the brain, as well as other areas. Symptoms of the disease, which gets progressively worse, include uncontrolled movements (called chorea), abnormal body postures, and changes in behavior, emotion, judgment, and cognition. People with HD also develop impaired coordination, slurred speech, and difficulty feeding and swallowing. HD typically begins between ages 30 and 50. An earlier onset form called juvenile HD, occurs under age 20. Symptoms of juvenile HD differ somewhat from adult onset HD and include unsteadiness, rigidity, difficulty at school, and seizures. More than 30,000 Americans have HD. Huntingtons disease is caused by a mutation in the gene for a protein called huntingtin. The defect causes the cytosine, adenine, and guanine (CAG) building blocks of DNA to repeat many more times than is normal. Each child of a parent with HD has a 50-50 chance of inheriting the HD gene. If a child does not inherit the HD gene, he or she will not develop the disease and generally cannot pass it to subsequent generations. There is a small risk that someone who has a parent with the mutated gene but who did not inherit the HD gene may pass a possibly harmful genetic sequence to her/his children. A person who inherits the HD gene will eventually develop the disease. A genetic test, coupled with a complete medical history and neurological and laboratory tests, helps physicians diagnose HD.</s> |
<s> [INST] What are the treatments for Huntington's Disease ?[/INST] There is no treatment that can stop or reverse the course of HD. Tetrabenazine is prescribed for treating Huntingtons-associated chorea. It is the only drug approved by the U.S. Food and Drug Administration specifically for use against HD. Antipsychotic drugs may help to alleviate chorea and may also be used to help control hallucinations, delusions, and violent outbursts. Drugs may be prescribed to treat depression and anxiety. Drugs used to treat the symptoms of HD may have side effects such as fatigue, sedation, decreased concentration, restlessness, or hyperexcitability, and should be only used when symptoms create problems for the individual.</s> |
<s> [INST] What is the outlook for Huntington's Disease ?[/INST] Huntingtons disease causes disability that gets worse over time. People with this disease usually die within 15 to 20 years following diagnosis. At this time, no treatment is available to slow, stop or reverse the course of HD.</s> |
<s> [INST] what research (or clinical trials) is being done for Huntington's Disease ?[/INST] The mission of the National Institute of Neurological Disorders and Stroke (NINDS) is to seek fundamental knowledge about the brain and nervous system, and to use that knowledge to reduce the burden of neurological disease. A major focus of research on HD is to understand the toxicity of mutant huntingin protein to brain cells and to develop potential drugs for counteracting it. Animal models of the disorder allow scientists to study mechanisms of the disease and to move forward with strategies most likely to work and least likely to cause harm for individuals. The HD gene discovery is allowing scientists to recruit individuals who carry the HD gene into clinical studies early before they become ill. Researchers hope to understand how the defective gene affects various structures in the brain and the body's chemistry and metabolism. Since some of the clinical symptoms in neurodegenerative diseases may be caused by the ultimate malfunctioning of neuronal circuits rather than by the loss of individual cells, scientists are using cutting-edge methods such as optogenetics (where neurons are activated or silenced in the brains of living animals using light beams) to probe the cause and progression of such circuit defects in HD. Scientists are also using stem cells to study disease mechanisms and test potential therapeutic drugs.
The NINDS-funded PREDICT-HD study seeks to identify biomarkers (biological changes that can be used to predict, diagnose, or monitor a disease) for HD. One goal of PREDICT-HD is to determine if the progression of the disease correlates with changes in brain scans images, or with chemical changes in blood, urine, or cerebrospinal fluid. A large and related NINDS-supported study aims to identify additional genetic factors in people that influence the course of the disease. Since individuals with the same CAG expansions can differ widely in the age of disease onset and severity of symptoms, researchers are trying to identify variations in the genomes of individuals with HD that account for those differences in the hopes that they will point to new targets for disease intervention and therapy.</s> |
<s> [INST] What is (are) Transmissible Spongiform Encephalopathies ?[/INST] Transmissible spongiform encephalopathies (TSEs), also known as prion diseases, are a group of rare degenerative brain disorders characterized by tiny holes that give the brain a "spongy" appearance. These holes can be seen when brain tissue is viewed under a microscope.
Creutzfeldt-Jakob disease (CJD) is the most well-known of the human TSEs. It is a rare type of dementia that affects about one in every one million people each year. Other human TSEs include kuru, fatal familial insomnia (FFI), and Gerstmann-Straussler-Scheinker disease (GSS). Kuru was identified in people of an isolated tribe in Papua New Guinea and has now almost disappeared. FFI and GSS are extremely rare hereditary diseases, found in just a few families around the world. A new type of CJD, called variant CJD (vCJD), was first described in 1996 and has been found in Great Britain and several other European countries. The initial symptoms of vCJD are different from those of classic CJD and the disorder typically occurs in younger patients. Research suggests that vCJD may have resulted from human consumption of beef from cattle with a TSE disease called bovine spongiform encephalopathy (BSE), also known as "mad cow disease." Other TSEs found in animals include scrapie, which affects sheep and goats; chronic wasting disease, which affects elk and deer; and transmissible mink encephalopathy. In a few rare cases, TSEs have occurred in other mammals such as zoo animals. These cases are probably caused by contaminated feed. CJD and other TSEs also can be transmitted experimentally to mice and other animals in the laboratory.
Research suggests that TSEs are caused by an abnormal version of a protein called a prion (prion is short for proteinaceous infectious particle). Prion proteins occur in both a normal form, which is a harmless protein found in the body's cells, and in an infectious form, which causes disease. The harmless and infectious forms of the prion protein are nearly identical, but the infectious form takes on a different folded shape from the normal protein.
Human TSEs can occur three ways: sporadically; as hereditary diseases; or through transmission from infected individuals. Sporadic TSEs may develop because some of a person's normal prions spontaneously change into the infectious form of the protein and then alter the prions in other cells in a chain reaction. Inherited cases arise from a change, or mutation, in the prion protein gene that causes the prions to be shaped in an abnormal way. This genetic change may be transmitted to an individual's offspring. Transmission of TSEs from infected individuals is relatively rare. TSEs cannot be transmitted through the air or through touching or most other forms of casual contact. However, they may be transmitted through contact with infected tissue, body fluids, or contaminated medical instruments. Normal sterilization procedures such as boiling or irradiating materials do not prevent transmission of TSEs.
Symptoms of TSEs vary, but they commonly include personality changes, psychiatric problems such as depression, lack of coordination, and/or an unsteady gait. Patients also may experience involuntary jerking movements called myoclonus, unusual sensations, insomnia, confusion, or memory problems. In the later stages of the disease, patients have severe mental impairment and lose the ability to move or speak.</s> |
<s> [INST] What are the treatments for Transmissible Spongiform Encephalopathies ?[/INST] TSEs tend to progress rapidly and usually culminate in death over the course of a few months to a few years.</s> |
<s> [INST] What is the outlook for Transmissible Spongiform Encephalopathies ?[/INST] There is currently no treatment that can halt progression of any of the TSEs. Treatment is aimed at alleviating symptoms and making the patient as comfortable as possible. A clinical trial of a potential therapy for CJD is expected to begin soon at the University of California at San Francisco.</s> |
<s> [INST] what research (or clinical trials) is being done for Transmissible Spongiform Encephalopathies ?[/INST] The NINDS conducts and supports research on TSEs. This research is aimed at determining how abnormal prion proteins lead to disease, at finding better tests for diagnosing CJD and other disorders, and ultimately at finding ways to treat TSEs.</s> |
<s> [INST] What is (are) Neurosarcoidosis ?[/INST] Neurosarcoidosis is a manifestation of sarcoidosis in the nervous system. Sarcoidosis is a chronic inflammatory disorder that typically occurs in adults between 20 and 40 years of age and primarily affects the lungs, but can also impact almost every other organ and system in the body. Neurosarcoidosis is characterized by inflammation and abnormal cell deposits in any part of the nervous system the brain, spinal cord, or peripheral nerves. It most commonly occurs in the cranial and facial nerves, the hypothalamus (a specific area of the brain), and the pituitary gland. It is estimated to develop in 5 to 15 percent of those individuals who have sarcoidosis. Weakness of the facial muscles on one side of the face (Bells palsy) is a common symptom of neurosarcoidosis. The optic and auditory nerves can also become involved, causing vision and hearing impairments. It can cause headache, seizures, memory loss, hallucinations, irritability, agitation, and changes in mood and behavior. Neurosarcoidosis can appear in an acute, explosive fashion or start as a slow chronic illness. Because neurosarcoidosis manifests in many different ways, a diagnosis may be difficult and delayed.</s> |
<s> [INST] What are the treatments for Neurosarcoidosis ?[/INST] There is no agreed upon standard of treatment for neurosarcoidosis. Doctors generally recommend corticosteroid therapy as first-line therapy for individuals with the condition. Additional treatment with immunomodulatory drugs such as hydroxychloroquine, pentoxyfilline, thalidomide, and infliximab, and immunosuppressive drugs such as methotrexate, azathioprine, cyclosporin, and cyclophosphamide, have benefited some individuals. While the use of corticosteroids and other immunosuppressive drugs is effective, these medications also have undesirable side effects. Side effects and experience with certain drugs may play a role in medication choices.</s> |
<s> [INST] What is the outlook for Neurosarcoidosis ?[/INST] The prognosis for patients with neurosarcoidosis varies. Approximately two-thirds of those with the condition will recover completely; the remainder will have a chronically progressing or on-and-off course of illness. Complications resulting from immunosuppressive treatments, such as cryptococcal and tuberculous meningitis, progressive multifocal leukoencephalopathy, and inclusion body myositis, may be fatal for a small percentage of individuals.</s> |
<s> [INST] what research (or clinical trials) is being done for Neurosarcoidosis ?[/INST] The National Institute of Neurological Disorders and Stroke (NINDS) has joined with other institutes of the National Institutes of Health (NIH) to form a trans-NIH working group to coordinate and fund research into the disease mechanisms of sarcoidosis, predisposing factors, genetic underpinnings, and the potential for clinical therapies. Grants are supporting research at major medical institutions across the country. The outcomes of this research will be better ways to diagnose, treat, and ultimately cure sarcoidosis and neurosarcardoisis.</s> |
<s> [INST] What is (are) Mitochondrial Myopathy ?[/INST] Mitochondrial myopathies are a group of neuromuscular diseases caused by damage to the mitochondriasmall, energy-producing structures that serve as the cells' "power plants." Nerve cells in the brain and muscles require a great deal of energy, and thus appear to be particularly damaged when mitochondrial dysfunction occurs. Some of the more common mitochondrial myopathies include Kearns-Sayre syndrome, myoclonus epilepsy with ragged-red fibers, and mitochondrial encephalomyopathy with lactic acidosis and stroke-like episodes. The symptoms of mitochondrial myopathies include muscle weakness or exercise intolerance, heart failure or rhythm disturbances, dementia, movement disorders, stroke-like episodes, deafness, blindness, droopy eyelids, limited mobility of the eyes, vomiting, and seizures. The prognosis for these disorders ranges in severity from progressive weakness to death. Most mitochondrial myopathies occur before the age of 20, and often begin with exercise intolerance or muscle weakness. During physical activity, muscles may become easily fatigued or weak. Muscle cramping is rare, but may occur. Nausea, headache, and breathlessness are also associated with these disorders.</s> |
<s> [INST] What are the treatments for Mitochondrial Myopathy ?[/INST] Although there is no specific treatment for any of the mitochondrial myopathies, physical therapy may extend the range of movement of muscles and improve dexterity. Vitamin therapies such as riboflavin, coenzyme Q, and carnitine (a specialized amino acid) may provide subjective improvement in fatigue and energy levels in some patients.</s> |
<s> [INST] What is the outlook for Mitochondrial Myopathy ?[/INST] The prognosis for patients with mitochondrial myopathies varies greatly, depending largely on the type of disease and the degree of involvement of various organs. These disorders cause progressive weakness and can lead to death.</s> |
<s> [INST] what research (or clinical trials) is being done for Mitochondrial Myopathy ?[/INST] The NINDS conducts and supports research on mitochondrial myopathies. The goals of this research are to increase scientific understanding of these disorders and to find ways to effectively treat, prevent, or potentially cure them.</s> |
<s> [INST] What is (are) Lissencephaly ?[/INST] Lissencephaly, which literally means "smooth brain," is a rare, gene-linked brain malformation characterized by the absence of normal convolutions (folds) in the cerebral cortex and an abnormally small head (microcephaly). In the usual condition of lissencephaly, children usually have a normal sized head at birth. In children with reduced head size at birth, the condition microlissencephaly is typically diagnosed. Lissencephaly is caused by defective neuronal migration during embryonic development, the process in which nerve cells move from their place of origin to their permanent location within the cerebral cortex gray matter. Symptoms of the disorder may include unusual facial appearance, difficulty swallowing, failure to thrive, muscle spasms, seizures, and severe psychomotor retardation. Hands, fingers, or toes may be deformed. Lissencephaly may be associated with other diseases including isolated lissencephaly sequence, Miller-Dieker syndrome, and Walker-Warburg syndrome. Sometimes it can be difficult to distinguish between these conditions clinically so consultation with national experts is recommended to help ensure correct diagnosis and possible molecular testing.</s> |
<s> [INST] What are the treatments for Lissencephaly ?[/INST] There is no cure for lissencephaly, but children can show progress in their development over time. Supportive care may be needed to help with comfort, feeding, and nursing needs. Seizures may be particularly problematic but anticonvulsant medications can help. Progressive hydrocephalus (an excessive accumulation of cerebrospinal fluid in the brain) is very rare, seen only in the subtype of Walker-Warburg syndrome, but may require shunting. If feeding becomes difficult, a gastrostomy tube may be considered.</s> |
<s> [INST] What is the outlook for Lissencephaly ?[/INST] The prognosis for children with lissencephaly depends on the degree of brain malformation. Many will die before the age of 10 years. The cause of death is usually aspiration of food or fluids, respiratory disease, or severe seizures. Some will survive, but show no significant development -- usually not beyond a 3- to 5-month-old level. Others may have near-normal development and intelligence. Because of this range, it is important to seek the opinion of specialists in lissencephaly and support from family groups with connection to these specialists.</s> |
<s> [INST] what research (or clinical trials) is being done for Lissencephaly ?[/INST] The NINDS conducts and supports a wide range of studies that explore the complex systems of normal brain development, including neuronal migration. Recent studies have identified genes that are responsible for lissencephaly. The knowledge gained from these studies provides the foundation for developing treatments and preventive measures for neuronal migration disorders.</s> |
<s> [INST] What is (are) Multiple System Atrophy with Orthostatic Hypotension ?[/INST] Multiple system atrophy with orthostatic hypotension is the current classification for a neurological disorder that was once called Shy-Drager syndrome. A progressive disorder of the central and autonomic nervous systems, it is characterized by orthostatic hypotension (an excessive drop in blood pressure when standing up) which causes dizziness or fainting. Multiple system atrophy can occur without orthostatic hypotension, but instead have urinary involvement (urgency/incontinence). Doctors classify the disorder into 3 types: the Parkinsonian-type includes symptoms of Parkinson's disease such as slow movement, stiff muscles, and tremor; the cerebellar-type, which causes problems with coordination and speech; and the combined-type, which includes symptoms of both parkinsonism and cerebellar failure. Problems with urinary incontinence, constipation, and sexual impotence in men happen early in the course of the disease. Other symptoms include generalized weakness, double vision or other vision disturbances, difficulty breathing and swallowing, sleep disturbances, and decreased sweating. Because the disease resembles others, a correct diagnosis may take years.</s> |
<s> [INST] What are the treatments for Multiple System Atrophy with Orthostatic Hypotension ?[/INST] There is no cure for multiple system atrophy with orthostatic hypotension. Treatment is aimed at controlling symptoms. Anti-Parkinson medication such as Sinemet may improve the general sense of well-being. Medications to elevate blood pressure while standing are often used, but may cause high blood pressure when lying down. Individuals should sleep with the head of the bed elevated. An artificial feeding tube or breathing tube may be required for problems with swallowing and breathing.</s> |
<s> [INST] What is the outlook for Multiple System Atrophy with Orthostatic Hypotension ?[/INST] Most individuals with multiple system atrophy with orthostatic hypotension die within 7 to 10 years after the onset of symptoms. A problem with the respiratory system is the most common cause of death.</s> |
<s> [INST] what research (or clinical trials) is being done for Multiple System Atrophy with Orthostatic Hypotension ?[/INST] The NINDS supports research on disorders of the autonomic nervous system, including multiple system atrophy with orthostatic hypotension. This research is aimed at developing techniques to diagnose, treat, and prevent these disorders. Currently there are ongoing treatment trials of drugs to treat MSA.</s> |
<s> [INST] What is (are) Transient Ischemic Attack ?[/INST] A transient ischemic attack (TIA) is a transient stroke that lasts only a few minutes. It occurs when the blood supply to part of the brain is briefly interrupted. TIA symptoms, which usually occur suddenly, are similar to those of stroke but do not last as long. Most symptoms of a TIA disappear within an hour, although they may persist for up to 24 hours. Symptoms can include: numbness or weakness in the face, arm, or leg, especially on one side of the body; confusion or difficulty in talking or understanding speech; trouble seeing in one or both eyes; and difficulty with walking, dizziness, or loss of balance and coordination.</s> |
<s> [INST] What are the treatments for Transient Ischemic Attack ?[/INST] Because there is no way to tell whether symptoms are from a TIA or an acute stroke, patients should assume that all stroke-like symptoms signal an emergency and should not wait to see if they go away. A prompt evaluation (within 60 minutes) is necessary to identify the cause of the TIA and determine appropriate therapy. Depending on a patient's medical history and the results of a medical examination, the doctor may recommend drug therapy or surgery to reduce the risk of stroke in people who have had a TIA. The use of antiplatelet agents, particularly aspirin, is a standard treatment for patients at risk for stroke. People with atrial fibrillation (irregular beating of the heart) may be prescribed anticoagulants.</s> |
<s> [INST] What is the outlook for Transient Ischemic Attack ?[/INST] TIAs are often warning signs that a person is at risk for a more serious and debilitating stroke. About one-third of those who have a TIA will have an acute stroke some time in the future. Many strokes can be prevented by heeding the warning signs of TIAs and treating underlying risk factors. The most important treatable factors linked to TIAs and stroke are high blood pressure, cigarette smoking, heart disease, carotid artery disease, diabetes, and heavy use of alcohol. Medical help is available to reduce and eliminate these factors. Lifestyle changes such as eating a balanced diet, maintaining healthy weight, exercising, and enrolling in smoking and alcohol cessation programs can also reduce these factors.</s> |
<s> [INST] what research (or clinical trials) is being done for Transient Ischemic Attack ?[/INST] NINDS is the leading supporter of research on stroke and TIA in the U.S. and sponsors studies ranging from clinical trials to investigations of basic biological mechanisms as well as studies with animals.</s> |
<s> [INST] What is (are) Porencephaly ?[/INST] Porencephaly is an extremely rare disorder of the central nervous system in which a cyst or cavity filled with cerebrospinal fluid develops in the brain. It is usually the result of damage from stroke or infection after birth (the more common type), but it can also be caused by abnormal development before birth (which is inherited and less common). Diagnosis is usually made before an infant reaches his or her first birthday. Symptoms of porencephaly include delayed growth and development, spastic hemiplegia (slight or incomplete paralysis), hypotonia (low muscle tone), seizures (often infantile spasms), and macrocephaly (large head) or microcephaly (small head). Children with porencephaly may have poor or absent speech development, epilepsy, hydrocephalus (accumulation of fluid in the brain), spastic contractures (shrinkage or shortening of the muscles), and cognitive impairment.</s> |
<s> [INST] What are the treatments for Porencephaly ?[/INST] Treatment may include physical therapy, medication for seizures, and the placement of a shunt in the brain to remove excess fluid in the brain.</s> |
<s> [INST] What is the outlook for Porencephaly ?[/INST] The prognosis for children with porencephaly varies according to the location and extent of the cysts or cavities. Some children with this disorder develop only minor neurological problems and have normal intelligence, while others may be severely disabled and die before their second decade of life.</s> |
<s> [INST] what research (or clinical trials) is being done for Porencephaly ?[/INST] The National Institute of Neurological Disorders and Stroke (NINDS) and other institutes of the National Institutes of Health (NIH) conduct research related to porencephaly in laboratories at the NIH and also support additional research through grants to major medical institutions across the country. Much of this research explores the complex mechanisms of normal brain development. The knowledge gained from these fundamental studies will provide a foundation for developing ways to prevent porecephaly and the other cephalic disorders.</s> |
<s> [INST] What is (are) Machado-Joseph Disease ?[/INST] Machado-Joseph disease (MJD), which is also called spinocerebellar ataxia type 3, is a rare hereditary ataxia (ataxia is a medical term meaning lack of muscle control). The disease is characterized by slowly progressive clumsiness and weakness in the arms and legs, spasticity, a staggering lurching gait easily mistaken for drunkenness, difficulty with speech and swallowing, involuntary eye movements, double vision, and frequent urination. Some individuals also have dystonia (sustained muscle contractions that cause twisting of the body and limbs, repetitive movements, abnormal postures, and rigidity) or symptoms similar to those of Parkinson's disease. Others have twitching of the face or tongue, or peculiar bulging eyes. Almost all individuals with MJD experience vision problems, including double vision or blurred vision, loss of the ability to distinguish color and/or contrast, and inability to control eye movements.</s> |
<s> [INST] What are the treatments for Machado-Joseph Disease ?[/INST] MJD is incurable, but some symptoms of the disease can be treated. For those individuals who show parkinsonian features, levodopa therapy can help for many years. Treatment with antispasmodic drugs, such as baclofen, can help reduce spasticity. Botulinum toxin can also treat severe spasticity as well as some symptoms of dystonia. Speech problems and trouble swallowing can be treated with medication and speech therapy. Physiotherapy can help patients cope with disability associated with gait problems. Physical aids, such as walkers and wheelchairs, can assist with everyday activities.</s> |
<s> [INST] What is the outlook for Machado-Joseph Disease ?[/INST] The severity of the disease is related to the age of onset, with earlier onset associated with more severe forms of the disease. Symptoms can begin any time between early adolescence and about 70 years of age. MJD is a progressive disease, meaning that symptoms get worse with time. Life expectancy ranges from the mid-thirties for those with severe forms of MJD to a normal life expectancy for those with mild forms. The cause of death for those who die early is often aspiration pneumonia.</s> |
<s> [INST] what research (or clinical trials) is being done for Machado-Joseph Disease ?[/INST] The National Institute of Neurological Disorders and Stroke (NINDS) conducts MJD research in its laboratories at the National Institutes of Health (NIH) and also supports MJD research through grants to major medical institutions across the country. Ongoing research includes studies to better understand the genetic, molecular, and cellular mechanisms that underlie inherited neurodegenerative diseases such as MJD. Other research areas include the development of novel therapies to treat the symptoms of MJD, efforts to identify diagnostic markers and to improve current diagnostic procedures for the disease, and population studies to identify affected families.</s> |
<s> [INST] What is (are) Sleep Apnea ?[/INST] Sleep apnea is a common sleep disorder characterized by brief interruptions of breathing during sleep. These episodes usually last 10 seconds or more and occur repeatedly throughout the night. People with sleep apnea will partially awaken as they struggle to breathe, but in the morning they will not be aware of the disturbances in their sleep. The most common type of sleep apnea is obstructive sleep apnea (OSA), caused by relaxation of soft tissue in the back of the throat that blocks the passage of air. Central sleep apnea (CSA) is caused by irregularities in the brains normal signals to breathe. Most people with sleep apnea will have a combination of both types. The hallmark symptom of the disorder is excessive daytime sleepiness. Additional symptoms of sleep apnea include restless sleep, loud snoring (with periods of silence followed by gasps), falling asleep during the day, morning headaches, trouble concentrating, irritability, forgetfulness, mood or behavior changes, anxiety, and depression. Not everyone who has these symptoms will have sleep apnea, but it is recommended that people who are experiencing even a few of these symptoms visit their doctor for evaluation. Sleep apnea is more likely to occur in men than women, and in people who are overweight or obese.</s> |
<s> [INST] What are the treatments for Sleep Apnea ?[/INST] There are a variety of treatments for sleep apnea, depending on an individuals medical history and the severity of the disorder. Most treatment regimens begin with lifestyle changes, such as avoiding alcohol and medications that relax the central nervous system (for example, sedatives and muscle relaxants), losing weight, and quitting smoking. Some people are helped by special pillows or devices that keep them from sleeping on their backs, or oral appliances to keep the airway open during sleep. If these conservative methods are inadequate, doctors often recommend continuous positive airway pressure (CPAP), in which a face mask is attached to a tube and a machine that blows pressurized air into the mask and through the airway to keep it open. Also available are machines that offer variable positive airway pressure (VPAP) and automatic positive airway pressure (APAP). There are also surgical procedures that can be used to remove tissue and widen the airway. Some individuals may need a combination of therapies to successfully treat their sleep apnea.</s> |
<s> [INST] What is the outlook for Sleep Apnea ?[/INST] Untreated, sleep apnea can be life threatening. Excessive daytime sleepiness can cause people to fall asleep at inappropriate times, such as while driving. Sleep apnea also appears to put individuals at risk for stroke and transient ischemic attacks (TIAs, also known as mini-strokes), and is associated with coronary heart disease, heart failure, irregular heartbeat, heart attack, and high blood pressure. Although there is no cure for sleep apnea, recent studies show that successful treatment can reduce the risk of heart and blood pressure problems.</s> |
<s> [INST] what research (or clinical trials) is being done for Sleep Apnea ?[/INST] The National Institute of Neurological Disorders and Stroke (NINDS) and other institutes of the National Institutes of Health (NIH) conduct research related to sleep apnea in laboratories at the NIH, and also support additional research through grants to major medical institutions across the country. Much of this research focuses on finding better ways to prevent, treat, and ultimately cure sleep disorders, such as sleep apnea.</s> |
<s> [INST] What is (are) Central Pontine Myelinolysis ?[/INST] Central pontine myelinolysis (CPM) is a neurological disorder that most frequently occurs after too rapid medical correction of sodium deficiency (hyponatremia). The rapid rise in sodium concentration is accompanied by the movement of small molecules and pulls water from brain cells. Through a mechanism that is only partly understood, the shift in water and brain molecules leads to the destruction of myelin, a substance that surrounds and protects nerve fibers. Nerve cells (neurons) can also be damaged. Certain areas of the brain are particularly susceptible to myelinolysis, especially the part of the brain stem called the pons. Some individuals will also have damage in other areas of the brain, which is called extrapontine myelinolysis (EPM). Experts estimate that 10 percent of those with CPM will also have areas of EPM.
The initial symptoms of myelinolysis, which begin to appear 2 to 3 days after hyponatremia is corrected, include a depressed level of awareness, difficulty speaking (dysarthria or mutism), and difficulty swallowing (dysphagia). Additional symptoms often arise over the next 1-2 weeks, including impaired thinking, weakness or paralysis in the arms and legs, stiffness, impaired sensation, and difficulty with coordination. At its most severe, myelinolysis can lead to coma, locked-in syndrome (which is the complete paralysis of all of the voluntary muscles in the body except for those that control the eyes), and death.
Although many affected people improve over weeks to months, some have permanent disability. Some also develop new symptoms later, including behavioral or intellectual impairment or movement disorders like parkinsonism or tremor.
Anyone, including adults and children, who undergoes a rapid rise in serum sodium is at risk for myelinolysis. Some individuals who are particularly vulnerable are those with chronic alcoholism and those who have had a liver transplant. Myelinolysis has occurred in individuals undergoing renal dialysis, burn victims, people with HIV-AIDS, people over-using water loss pills (diuretics), and women with eating disorders such as anorexia or bulimia. The risk for CPM is greater if the serum (blood) sodium was low for at least 2 days before correction.</s> |
<s> [INST] What are the treatments for Central Pontine Myelinolysis ?[/INST] The ideal treatment for myelinolysis is to prevent the disorder by identifying individuals at risk and following careful guidelines for evaluation and correction of hyponatremia. These guidelines aim to safely restore the serum sodium level, while protecting the brain. For those who have hyponatremia for at least 2 days, or for whom the duration is not known, the rate of rise in the serum sodium concentration should be kept below 10 mmol/L during any 24-hour period, if possible.
For those who develop myelinolysis, treatment is supportive. Some physicians have tried to treat myelinolysis with steroid medication or other experimental therapies, but none has been proven effective. Individuals are likely to require extensive and prolonged physical therapy and rehabilitation. Those individuals who develop parkinsonian symptoms may respond to the dopaminergic drugs that work for individuals with Parkinsons disease.</s> |
<s> [INST] What is the outlook for Central Pontine Myelinolysis ?[/INST] The prognosis for myelinolysis varies. Some individuals die and others recover completely. Although the disorder was originally considered to have a mortality rate of 50 percent or more, improved imaging techniques and early diagnosis have led to a better prognosis for many people. Most individuals improve gradually, but still continue to have challenges with speech, walking, emotional ups and downs, and forgetfulness.</s> |
<s> [INST] what research (or clinical trials) is being done for Central Pontine Myelinolysis ?[/INST] The mission of the National Institute of Neurological Disorders and Stroke (NINDS) is to seek fundamental knowledge of the brain and nervous system and to use that knowledge to reduce the burden of neurological disease. The NINDS is a component of the National Institutes of Health, the leading supporter of biomedical research in the world.
The NINDS conducts and supports research to better understand conditions that affect the protective myelin coating around nerve fibers and ways to prevent and treat the destruction of myelin. Scientists hope to develop drugs that can prevent brain cells from dying or help them produce new myelin. Research funded by the NIH's National Institute of Diabetes and Digestive and Kidney Diseases aims to understand the biological mechanisms involved in water balance in the body.</s> |
<s> [INST] What is (are) Von Hippel-Lindau Disease (VHL) ?[/INST] von Hippel-Lindau disease (VHL) is a rare, genetic multi-system disorder in which non-cancerous tumors grow in certain parts of the body. Slow-growing hemgioblastomas -- benign tumors with many blood vessels -- may develop in the brain, spinal cord, the retinas of the eyes, and near the inner ear. Cysts (fluid-filled sacs) may develop around the hemangioblastomas. Other types of tumors develop in the adrenal glands, the kidneys, or the pancreas. Symptoms of VHL vary among individuals and depend on the size and location of the tumors. Symptoms may include headaches, problems with balance and walking, dizziness, weakness of the limbs, vision problems, deafness in one ear, and high blood pressure. Individuals with VHL are also at a higher risk than normal for certain types of cancer, especially kidney cancer.</s> |
<s> [INST] What are the treatments for Von Hippel-Lindau Disease (VHL) ?[/INST] Treatment for VHL varies according to the location and size of the tumor. In general, the objective of treatment is to treat the tumors before they grow to a size large enough to cause permanent problems by putting pressure on the brain or spinal cord. this pressure can block the flow of cerebrospinal fluid in the nervous system, impair vision, or create deafness. Treatment of most cases of VHL usually involves surgery to remove the tumors before they become harmful. Certain tumors can be treated with focused high-dose irradiation. Individuals with VHL need careful monitoring by a physician and/or medical team familiar with the disorder.</s> |
<s> [INST] What is the outlook for Von Hippel-Lindau Disease (VHL) ?[/INST] The prognosis for individuals with VHL depends on then number, location, and complications of the tumors. Untreated, VHL may result in blindness and/or permanent brain damage. With early detection and treatment the prognosis is significantly improved. Death is usually caused by complications of brain tumors or kidney cancer.</s> |
<s> [INST] what research (or clinical trials) is being done for Von Hippel-Lindau Disease (VHL) ?[/INST] The mission of the National Institute of Neurological Disorders and Stroke (NINDS) is to seek fundamental knowledge about the brain and nervous system, and to use that knowledge to reduce the burden of neurological disease. The NINDS pursues a vigorous program of research aimed at preventing and treating disorders that cause tumors in the brain and spinal cord such as VHL. A natural history study hopes to learn more about the growth of brain and spinal cord tumors, as well as cysts that develop in association with them in individuals with VHL. Researchers will examine how fast the tumors grow and try to determine which factors (such as puberty, pregnancy, menopause, or blood proteins) affect tumor growth. Based on laboratory findings, NINDS researchers are planning drug trials for individuals with VHL. For example, NNDS scientists hope to learn if a drug that fights other cancers might slow the growth of hemangioblastomas in some people with VHL. The NIH's National Cancer Institute conducts research aimed at treating kidney tumors in individuals with VHL, as well as studies to identify gene mutations in people who are at risk of developing the disease..</s> |
<s> [INST] What is (are) Neuroaxonal dystrophy ?[/INST] Infantile neuroaxonal dystrophy (INAD) is a rare inherited neurological disorder. It affects axons, the part of a nerve cell that carries messages from the brain to other parts of the body, and causes progressive loss of vision, muscular control, and mental skills. While the basic genetic and metabolic causes are unknown, INAD is the result of an abnormal build-up of toxic substances in nerves that communicate with muscles, skin, and the conjunctive tissue around the eyes. Symptoms usually begin within the first 2 years of life, with the loss of head control and the ability to sit, crawl, or walk, accompanied by deterioration in vision and speech. Some children may have seizures. Distinctive facial deformities may be present at birth, including a prominent forehead, crossed eyes, an unusually small nose or jaw, and large, low-set ears. INAD is an autosomal recessive disorder, which means that both parents must be carriers of the defective gene that causes INAD to pass it on to their child. Electrophysiology (nerve conduction velocities) may be helpful for diagnosis, although diagnosis is usually confirmed by tissue biopsy of skin, rectum, nerve or conjunctive tissue to confirm the presence of characteristic swellings (spheroid bodies) in the nerve axons.</s> |
<s> [INST] What are the treatments for Neuroaxonal dystrophy ?[/INST] There is no cure for INAD and no treatment that can stop the progress of the disease. Treatment is symptomatic and supportive. Doctors can prescribe medications for pain relief and sedation. Physiotherapists and other physical therapists can teach parents and caregivers how to position and seat their child, and to exercise arms and legs to maintain comfort.</s> |
<s> [INST] What is the outlook for Neuroaxonal dystrophy ?[/INST] INAD is a progressive disease. Once symptoms begin, they will worsen over time. Generally, a babys development starts to slow down between the ages of 6 months to 3 years. The first symptoms may be slowing of motor and mental development, followed by loss or regression of previously acquired skills. Rapid, wobbly eye movements and squints may be the first symptoms, followed by floppiness in the body and legs (more than in the arms). For the first few years, a baby with INAD will be alert and responsive, despite being increasingly physically impaired. Eventually, because of deterioration in vision, speech, and mental skills, the child will lose touch with its surroundings. Death usually occurs between the ages of 5 to 10 years.</s> |
<s> [INST] what research (or clinical trials) is being done for Neuroaxonal dystrophy ?[/INST] Researchers continue to search for the defective gene that causes INAD in hopes of developing drugs that can stop the disease. The National Institute of Neurological Disorders and Stroke (NINDS) conducts research related to INAD in its laboratories at the National Institutes of Health (NIH), and also supports additional research through grants to major medical institutions across the country. Much of this research focuses on finding better ways to prevent, treat, and ultimately cure disorders such as INAD.</s> |
<s> [INST] What is (are) Chiari Malformation ?[/INST] Chiari malformations (CMs) are structural defects in the cerebellum, the part of the brain that controls balance. When the indented bony space at the lower rear of the skull is smaller than normal, the cerebellum and brain stem can be pushed downward. The resulting pressure on the cerebellum can block the flow of cerebrospinal fluid (the liquid that surrounds and protects the brain and spinal cord) and can cause a range of symptoms including dizziness, muscle weakness, numbness, vision problems, headache, and problems with balance and coordination. Symptoms may change for some individuals depending on buildup of CNS and any resulting pressure on tissue and nerves. CMs are classified by the severity of the disorder and the parts of the brain that protrude into the spinal canal. The most common is Type I, which may not cause symptoms and is often found by accident during an examination for another condition. Type II (also called Arnold-Chiari malformation) is usually accompanied by a myelomeningocele-a form of spina bifida that occurs when the spinal canal and backbone do not close before birth, causing the spinal cord to protrude through an opening in the back. This can cause partial or complete paralysis below the spinal opening. Type III is the most serious form of CM, and causes severe neurological defects. Other conditions sometimes associated with CM include hydrocephalus, syringomyelia (a fluid-filled cyst in the spinal cord), and spinal curvature.</s> |
<s> [INST] What are the treatments for Chiari Malformation ?[/INST] Medications may ease certain symptoms, such as pain. Surgery is the only treatment available to correct functional disturbances or halt the progression of damage to the central nervous system. More than one surgery may be needed to treat the condition. Some CMs have no noticeable symptoms and do not interfere with the person's activities of daily living.</s> |
<s> [INST] What is the outlook for Chiari Malformation ?[/INST] Many people with Type I CM are asymptomatic and do not know they have the condition. Many individuals with the more severe types of CM and have surgery see a reduction in their symptoms and/or prolonged periods of relative stability, although paralysis is generally permanent.</s> |
<s> [INST] what research (or clinical trials) is being done for Chiari Malformation ?[/INST] The NINDS supports research on disorders of the brain and nervous system such as Chiari malformations. The goals of this research are to increase scientific understanding of these disorders and to find ways to prevent, treat, and, ultimately, cure them. Current NINDS-funded research includes studies to better understand the genetic factors responsible for the malformation, and factors that influence the development, progression, and relief of symptoms among people with syringomyelia, including those with Chiari I malformations.</s> |
<s> [INST] What is (are) Neurotoxicity ?[/INST] Neurotoxicity occurs when the exposure to natural or manmade toxic substances (neurotoxicants) alters the normal activity of the nervous system. This can eventually disrupt or even kill neurons, key cells that transmit and process signals in the brain and other parts of the nervous system. Neurotoxicity can result from exposure to substances used in chemotherapy, radiation treatment, drug therapies, and organ transplants, as well as exposure to heavy metals such as lead and mercury, certain foods and food additives, pesticides, industrial and/or cleaning solvents, cosmetics, and some naturally occurring substances. Symptoms may appear immediately after exposure or be delayed. They may include limb weakness or numbness; loss of memory, vision, and/or intellect; headache; cognitive and behavioral problems; and sexual dysfunction. Individuals with certain disorders may be especially vulnerable to neurotoxicants.</s> |
<s> [INST] What are the treatments for Neurotoxicity ?[/INST] Treatment involves eliminating or reducing exposure to the toxic substance, followed by symptomatic and supportive therapy.</s> |
<s> [INST] What is the outlook for Neurotoxicity ?[/INST] The prognosis depends upon the length and degree of exposure and the severity of neurological injury. In some instances, exposure to neurotoxicants can be fatal. In others, patients may survive but not fully recover. In other situations, many individuals recover completely after treatment.</s> |
<s> [INST] what research (or clinical trials) is being done for Neurotoxicity ?[/INST] The NINDS supports research on disorders of the brain and nervous system such as neurotoxicity, aimed at learning more about these disorders and finding ways to prevent and treat them. Scientists are investigating the role occupational or environmental toxicants have on progressive neurodegenerative disorders such as Parkinson's disease, amyotrophic lateral sclerosis, multiple sclerosis, and dementia. Also being studied are the mechanisms that trigger neuroimmune responses in the central nervous system and the possibility that some brain disorders in children may occur when environmental triggers interact with genes.</s> |
<s> [INST] What is (are) Congenital Myasthenia ?[/INST] All forms of myasthenia are due to problems in the communication between nerve cells and muscles. Most involve the activities of neurotransmitters. Neurotransmitters are chemicals that allow neurons to relay information from one cell to the next. For neurotransmitters to be effective, the nerve cell must release the neurotransmitter properly, and the muscle cell must be able to detect the neurotransmitter and respond to its signal properly.
The most common type of myasthenia, myasthenia gravis, is caused by an abnormal immune response in which antibodies block the ability of the muscle to detect the neurotransmitter. Congenital myasthenia, however, differs from myasthenia gravis because the disrupted communication isn't caused by antibodies, but by genetic defects.
There are several different subtypes of congenital myasthenia, each the result of a specific genetic mutation. Since all types of myasthenia are due to the inability of nerves to trigger muscle activity, they all involve weakness, although there is some variability in the specific muscles affected.
Symptoms of congenital myasthenia usually appear in the first few years of childhood, but may not be noticeable until much later, occasionally remaining unrecognized until adulthood. If the symptoms begin in infancy, they usually appear as "floppiness" and a failure to meet developmental milestones, such as rolling over or sitting up. Some infants may also have episodes of choking or pauses in breathing. If the symptoms begin in toddlers or preschool children, they appear as weakness during physical activities or an inability to perform age-appropriate actions, such as running or climbing. In addition, if eye muscles are involved, children may have droopy eyelids, "lazy eye," or double vision. If mouth or throat muscles are involved, children may have difficulty speaking or swallowing. An important characteristic of myasthenia is that the weakness worsens during continuous activity, with strength returning, at least partially, after resting.
Congenital myasthenia is an inherited (genetic) disorder. All but one known subtype are recessive disorders, which means that a child will have to have two copies of the abnormal gene (one from each parent) in order to develop the disease. To diagnose congenital myasthenia, a neurologist will test various muscles to determine if they grow weaker with repeated activity. The doctor will also test the electrical activity of nerves and muscles using electromyography (EMG) and nerve conduction tests (NCS). Blood tests are often used to determine if antibodies could be causing the symptoms. Genetic tests may be ordered.</s> |
<s> [INST] What are the treatments for Congenital Myasthenia ?[/INST] The possibilities for treatment depend on the specific subtype of congenital myasthenia. Most treatments attempt to improve the signaling between nerve cell and muscle. These drugs include pyridostigmine, fluoxetine, ephedrine, and 3,4-diaminopyridine. Treatments to alter the immune system are not used for this form of myasthenia. There are no treatments to cure the underlying genetic abnormality.</s> |