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0000025_2
Pancreatic Neuroendocrine Tumors (Islet Cell Tumors)
1
0000025_2-1
information
What is (are) Pancreatic Neuroendocrine Tumors (Islet Cell Tumors) ?
Key Points - Pancreatic neuroendocrine tumors form in hormone-making cells (islet cells) of the pancreas. - Pancreatic NETs may or may not cause signs or symptoms. - There are different kinds of functional pancreatic NETs. - Having certain syndromes can increase the risk of pancreatic NETs. - Different types of pancreatic NETs have different signs and symptoms. - Lab tests and imaging tests are used to detect (find) and diagnose pancreatic NETs. - Other kinds of lab tests are used to check for the specific type of pancreatic NETs. - Certain factors affect prognosis (chance of recovery) and treatment options. Pancreatic neuroendocrine tumors form in hormone-making cells (islet cells) of the pancreas. The pancreas is a gland about 6 inches long that is shaped like a thin pear lying on its side. The wider end of the pancreas is called the head, the middle section is called the body, and the narrow end is called the tail. The pancreas lies behind the stomach and in front of the spine. There are two kinds of cells in the pancreas: - Endocrine pancreas cells make several kinds of hormones (chemicals that control the actions of certain cells or organs in the body), such as insulin to control blood sugar. They cluster together in many small groups (islets) throughout the pancreas. Endocrine pancreas cells are also called islet cells or islets of Langerhans. Tumors that form in islet cells are called islet cell tumors, pancreatic endocrine tumors, or pancreatic neuroendocrine tumors (pancreatic NETs). - Exocrine pancreas cells make enzymes that are released into the small intestine to help the body digest food. Most of the pancreas is made of ducts with small sacs at the end of the ducts, which are lined with exocrine cells. This summary discusses islet cell tumors of the endocrine pancreas. See the PDQ summary on Pancreatic Cancer Treatment for information on exocrine pancreatic cancer. Pancreatic neuroendocrine tumors (NETs) may be benign (not cancer) or malignant (cancer). When pancreatic NETs are malignant, they are called pancreatic endocrine cancer or islet cell carcinoma. Pancreatic NETs are much less common than pancreatic exocrine tumors and have a better prognosis. There are different kinds of functional pancreatic NETs. Pancreatic NETs make different kinds of hormones such as gastrin, insulin, and glucagon. Functional pancreatic NETs include the following: - Gastrinoma: A tumor that forms in cells that make gastrin. Gastrin is a hormone that causes the stomach to release an acid that helps digest food. Both gastrin and stomach acid are increased by gastrinomas. When increased stomach acid, stomach ulcers, and diarrhea are caused by a tumor that makes gastrin, it is called Zollinger-Ellison syndrome. A gastrinoma usually forms in the head of the pancreas and sometimes forms in the small intestine. Most gastrinomas are malignant (cancer). - Insulinoma: A tumor that forms in cells that make insulin. Insulin is a hormone that controls the amount of glucose (sugar) in the blood. It moves glucose into the cells, where it can be used by the body for energy. Insulinomas are usually slow-growing tumors that rarely spread. An insulinoma forms in the head, body, or tail of the pancreas. Insulinomas are usually benign (not cancer). - Glucagonoma: A tumor that forms in cells that make glucagon. Glucagon is a hormone that increases the amount of glucose in the blood. It causes the liver to break down glycogen. Too much glucagon causes hyperglycemia (high blood sugar). A glucagonoma usually forms in the tail of the pancreas. Most glucagonomas are malignant (cancer). - Other types of tumors: There are other rare types of functional pancreatic NETs that make hormones, including hormones that control the balance of sugar, salt, and water in the body. These tumors include: - VIPomas, which make vasoactive intestinal peptide. VIPoma may also be called Verner-Morrison syndrome. - Somatostatinomas, which make somatostatin. These other types of tumors are grouped together because they are treated in much the same way.
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Pancreatic Neuroendocrine Tumors (Islet Cell Tumors)
2
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susceptibility
Who is at risk for Pancreatic Neuroendocrine Tumors (Islet Cell Tumors)? ?
Having certain syndromes can increase the risk of pancreatic NETs. Anything that increases your risk of getting a disease is called a risk factor. Having a risk factor does not mean that you will get cancer; not having risk factors doesn't mean that you will not get cancer. Talk with your doctor if you think you may be at risk. Multiple endocrine neoplasia type 1 (MEN1) syndrome is a risk factor for pancreatic NETs.
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Pancreatic Neuroendocrine Tumors (Islet Cell Tumors)
4
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exams and tests
How to diagnose Pancreatic Neuroendocrine Tumors (Islet Cell Tumors) ?
Lab tests and imaging tests are used to detect (find) and diagnose pancreatic NETs. The following tests and procedures may be used: - Physical exam and history : An exam of the body to check general signs of health, including checking for signs of disease, such as lumps or anything else that seems unusual. A history of the patients health habits and past illnesses and treatments will also be taken. - Blood chemistry studies : A procedure in which a blood sample is checked to measure the amounts of certain substances, such as glucose (sugar), released into the blood by organs and tissues in the body. An unusual (higher or lower than normal) amount of a substance can be a sign of disease. - Chromogranin A test: A test in which a blood sample is checked to measure the amount of chromogranin A in the blood. A higher than normal amount of chromogranin A and normal amounts of hormones such as gastrin, insulin, and glucagon can be a sign of a non-functional pancreatic NET. - Abdominal CT scan (CAT scan): A procedure that makes a series of detailed pictures of the abdomen, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography. - MRI (magnetic resonance imaging): A procedure that uses a magnet, radio waves, and a computer to make a series of detailed pictures of areas inside the body. This procedure is also called nuclear magnetic resonance imaging (NMRI). - Somatostatin receptor scintigraphy : A type of radionuclide scan that may be used to find small pancreatic NETs. A small amount of radioactive octreotide (a hormone that attaches to tumors) is injected into a vein and travels through the blood. The radioactive octreotide attaches to the tumor and a special camera that detects radioactivity is used to show where the tumors are in the body. This procedure is also called octreotide scan and SRS. - Endoscopic ultrasound (EUS): A procedure in which an endoscope is inserted into the body, usually through the mouth or rectum. An endoscope is a thin, tube-like instrument with a light and a lens for viewing. A probe at the end of the endoscope is used to bounce high-energy sound waves (ultrasound) off internal tissues or organs and make echoes. The echoes form a picture of body tissues called a sonogram. This procedure is also called endosonography. - Endoscopic retrograde cholangiopancreatography (ERCP): A procedure used to x-ray the ducts (tubes) that carry bile from the liver to the gallbladder and from the gallbladder to the small intestine. Sometimes pancreatic cancer causes these ducts to narrow and block or slow the flow of bile, causing jaundice. An endoscope is passed through the mouth, esophagus, and stomach into the first part of the small intestine. An endoscope is a thin, tube-like instrument with a light and a lens for viewing. A catheter (a smaller tube) is then inserted through the endoscope into the pancreatic ducts. A dye is injected through the catheter into the ducts and an x-ray is taken. If the ducts are blocked by a tumor, a fine tube may be inserted into the duct to unblock it. This tube (or stent) may be left in place to keep the duct open. Tissue samples may also be taken and checked under a microscope for signs of cancer. - Angiogram : A procedure to look at blood vessels and the flow of blood. A contrast dye is injected into the blood vessel. As the contrast dye moves through the blood vessel, x-rays are taken to see if there are any blockages. - Laparotomy : A surgical procedure in which an incision (cut) is made in the wall of the abdomen to check the inside of the abdomen for signs of disease. The size of the incision depends on the reason the laparotomy is being done. Sometimes organs are removed or tissue samples are taken and checked under a microscope for signs of disease. - Intraoperative ultrasound : A procedure that uses high-energy sound waves (ultrasound) to create images of internal organs or tissues during surgery. A transducer placed directly on the organ or tissue is used to make the sound waves, which create echoes. The transducer receives the echoes and sends them to a computer, which uses the echoes to make pictures called sonograms. - Biopsy : The removal of cells or tissues so they can be viewed under a microscope by a pathologist to check for signs of cancer. There are several ways to do a biopsy for pancreatic NETs. Cells may be removed using a fine or wide needle inserted into the pancreas during an x-ray or ultrasound. Tissue may also be removed during a laparoscopy (a surgical incision made in the wall of the abdomen). - Bone scan : A procedure to check if there are rapidly dividing cells, such as cancer cells, in the bone. A very small amount of radioactive material is injected into a vein and travels through the blood. The radioactive material collects in bones where cancer cells have spread and is detected by a scanner. Other kinds of lab tests are used to check for the specific type of pancreatic NETs. The following tests and procedures may be used: Gastrinoma - Fasting serum gastrin test: A test in which a blood sample is checked to measure the amount of gastrin in the blood. This test is done after the patient has had nothing to eat or drink for at least 8 hours. Conditions other than gastrinoma can cause an increase in the amount of gastrin in the blood. - Basal acid output test: A test to measure the amount of acid made by the stomach. The test is done after the patient has had nothing to eat or drink for at least 8 hours. A tube is inserted through the nose or throat, into the stomach. The stomach contents are removed and four samples of gastric acid are removed through the tube. These samples are used to find out the amount of gastric acid made during the test and the pH level of the gastric secretions. - Secretin stimulation test : If the basal acid output test result is not normal, a secretin stimulation test may be done. The tube is moved into the small intestine and samples are taken from the small intestine after a drug called secretin is injected. Secretin causes the small intestine to make acid. When there is a gastrinoma, the secretin causes an increase in how much gastric acid is made and the level of gastrin in the blood. - Somatostatin receptor scintigraphy: A type of radionuclide scan that may be used to find small pancreatic NETs. A small amount of radioactive octreotide (a hormone that attaches to tumors) is injected into a vein and travels through the blood. The radioactive octreotide attaches to the tumor and a special camera that detects radioactivity is used to show where the tumors are in the body. This procedure is also called octreotide scan and SRS. Insulinoma - Fasting serum glucose and insulin test: A test in which a blood sample is checked to measure the amounts of glucose (sugar) and insulin in the blood. The test is done after the patient has had nothing to eat or drink for at least 24 hours. Glucagonoma - Fasting serum glucagon test: A test in which a blood sample is checked to measure the amount of glucagon in the blood. The test is done after the patient has had nothing to eat or drink for at least 8 hours. Other tumor types - VIPoma - Serum VIP (vasoactive intestinal peptide) test: A test in which a blood sample is checked to measure the amount of VIP. - Blood chemistry studies: A procedure in which a blood sample is checked to measure the amounts of certain substances released into the blood by organs and tissues in the body. An unusual (higher or lower than normal) amount of a substance can be a sign of disease. In VIPoma, there is a lower than normal amount of potassium. - Stool analysis : A stool sample is checked for a higher than normal sodium (salt) and potassium levels. - Somatostatinoma - Fasting serum somatostatin test: A test in which a blood sample is checked to measure the amount of somatostatin in the blood. The test is done after the patient has had nothing to eat or drink for at least 8 hours. - Somatostatin receptor scintigraphy: A type of radionuclide scan that may be used to find small pancreatic NETs. A small amount of radioactive octreotide (a hormone that attaches to tumors) is injected into a vein and travels through the blood. The radioactive octreotide attaches to the tumor and a special camera that detects radioactivity is used to show where the tumors are in the body. This procedure is also called octreotide scan and SRS.
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Pancreatic Neuroendocrine Tumors (Islet Cell Tumors)
7
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outlook
What is the outlook for Pancreatic Neuroendocrine Tumors (Islet Cell Tumors) ?
Certain factors affect prognosis (chance of recovery) and treatment options. Pancreatic NETs can often be cured. The prognosis (chance of recovery) and treatment options depend on the following: - The type of cancer cell. - Where the tumor is found in the pancreas. - Whether the tumor has spread to more than one place in the pancreas or to other parts of the body. - Whether the patient has MEN1 syndrome. - The patient's age and general health. - Whether the cancer has just been diagnosed or has recurred (come back).
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Pancreatic Neuroendocrine Tumors (Islet Cell Tumors)
8
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stages
What are the stages of Pancreatic Neuroendocrine Tumors (Islet Cell Tumors) ?
Key Points - The plan for cancer treatment depends on where the NET is found in the pancreas and whether it has spread. - There are three ways that cancer spreads in the body. - Cancer may spread from where it began to other parts of the body. The plan for cancer treatment depends on where the NET is found in the pancreas and whether it has spread. The process used to find out if cancer has spread within the pancreas or to other parts of the body is called staging. The results of the tests and procedures used to diagnose pancreatic neuroendocrine tumors (NETs) are also used to find out whether the cancer has spread. See the General Information section for a description of these tests and procedures. Although there is a standard staging system for pancreatic NETs, it is not used to plan treatment. Treatment of pancreatic NETs is based on the following: - Whether the cancer is found in one place in the pancreas. - Whether the cancer is found in several places in the pancreas. - Whether the cancer has spread to lymph nodes near the pancreas or to other parts of the body such as the liver, lung, peritoneum, or bone. There are three ways that cancer spreads in the body. Cancer can spread through tissue, the lymph system, and the blood: - Tissue. The cancer spreads from where it began by growing into nearby areas. - Lymph system. The cancer spreads from where it began by getting into the lymph system. The cancer travels through the lymph vessels to other parts of the body. - Blood. The cancer spreads from where it began by getting into the blood. The cancer travels through the blood vessels to other parts of the body. Cancer may spread from where it began to other parts of the body. When cancer spreads to another part of the body, it is called metastasis. Cancer cells break away from where they began (the primary tumor) and travel through the lymph system or blood. - Lymph system. The cancer gets into the lymph system, travels through the lymph vessels, and forms a tumor (metastatic tumor) in another part of the body. - Blood. The cancer gets into the blood, travels through the blood vessels, and forms a tumor (metastatic tumor) in another part of the body. The metastatic tumor is the same type of tumor as the primary tumor. For example, if a pancreatic neuroendocrine tumor spreads to the liver, the tumor cells in the liver are actually neuroendocrine tumor cells. The disease is metastatic pancreatic neuroendocrine tumor, not liver cancer.
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Pancreatic Neuroendocrine Tumors (Islet Cell Tumors)
9
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treatment
What are the treatments for Pancreatic Neuroendocrine Tumors (Islet Cell Tumors) ?
Key Points - There are different types of treatment for patients with pancreatic NETs. - Six types of standard treatment are used: - Surgery - Chemotherapy - Hormone therapy - Hepatic arterial occlusion or chemoembolization - Targeted therapy - Supportive care - New types of treatment are being tested in clinical trials. - Patients may want to think about taking part in a clinical trial. - Patients can enter clinical trials before, during, or after starting their cancer treatment. - Follow-up tests may be needed. There are different types of treatment for patients with pancreatic NETs. Different types of treatments are available for patients with pancreatic neuroendocrine tumors (NETs). Some treatments are standard (the currently used treatment), and some are being tested in clinical trials. A treatment clinical trial is a research study meant to help improve current treatments or obtain information on new treatments for patients with cancer. When clinical trials show that a new treatment is better than the standard treatment, the new treatment may become the standard treatment. Patients may want to think about taking part in a clinical trial. Some clinical trials are open only to patients who have not started treatment. Six types of standard treatment are used: Surgery An operation may be done to remove the tumor. One of the following types of surgery may be used: - Enucleation: Surgery to remove the tumor only. This may be done when cancer occurs in one place in the pancreas. - Pancreatoduodenectomy: A surgical procedure in which the head of the pancreas, the gallbladder, nearby lymph nodes and part of the stomach, small intestine, and bile duct are removed. Enough of the pancreas is left to make digestive juices and insulin. The organs removed during this procedure depend on the patient's condition. This is also called the Whipple procedure. - Distal pancreatectomy: Surgery to remove the body and tail of the pancreas. The spleen may also be removed. - Total gastrectomy: Surgery to remove the whole stomach. - Parietal cell vagotomy: Surgery to cut the nerve that causes stomach cells to make acid. - Liver resection: Surgery to remove part or all of the liver. - Radiofrequency ablation: The use of a special probe with tiny electrodes that kill cancer cells. Sometimes the probe is inserted directly through the skin and only local anesthesia is needed. In other cases, the probe is inserted through an incision in the abdomen. This is done in the hospital with general anesthesia. - Cryosurgical ablation: A procedure in which tissue is frozen to destroy abnormal cells. This is usually done with a special instrument that contains liquid nitrogen or liquid carbon dioxide. The instrument may be used during surgery or laparoscopy or inserted through the skin. This procedure is also called cryoablation. Chemotherapy Chemotherapy is a cancer treatment that uses drugs to stop the growth of cancer cells, either by killing the cells or by stopping them from dividing. When chemotherapy is taken by mouth or injected into a vein or muscle, the drugs enter the bloodstream and can reach cancer cells throughout the body (systemic chemotherapy). When chemotherapy is placed directly into the cerebrospinal fluid, an organ, or a body cavity such as the abdomen, the drugs mainly affect cancer cells in those areas (regional chemotherapy). Combination chemotherapy is the use of more than one anticancer drug. The way the chemotherapy is given depends on the type of the cancer being treated. Hormone therapy Hormone therapy is a cancer treatment that removes hormones or blocks their action and stops cancer cells from growing. Hormones are substances made by glands in the body and circulated in the bloodstream. Some hormones can cause certain cancers to grow. If tests show that the cancer cells have places where hormones can attach (receptors), drugs, surgery, or radiation therapy is used to reduce the production of hormones or block them from working. Hepatic arterial occlusion or chemoembolization Hepatic arterial occlusion uses drugs, small particles, or other agents to block or reduce the flow of blood to the liver through the hepatic artery (the major blood vessel that carries blood to the liver). This is done to kill cancer cells growing in the liver. The tumor is prevented from getting the oxygen and nutrients it needs to grow. The liver continues to receive blood from the hepatic portal vein, which carries blood from the stomach and intestine. Chemotherapy delivered during hepatic arterial occlusion is called chemoembolization. The anticancer drug is injected into the hepatic artery through a catheter (thin tube). The drug is mixed with the substance that blocks the artery and cuts off blood flow to the tumor. Most of the anticancer drug is trapped near the tumor and only a small amount of the drug reaches other parts of the body. The blockage may be temporary or permanent, depending on the substance used to block the artery. Targeted therapy Targeted therapy is a type of treatment that uses drugs or other substances to identify and attack specific cancer cells without harming normal cells. Certain types of targeted therapies are being studied in the treatment of pancreatic NETs. Supportive care Supportive care is given to lessen the problems caused by the disease or its treatment. Supportive care for pancreatic NETs may include treatment for the following: - Stomach ulcers may be treated with drug therapy such as: - Proton pump inhibitor drugs such as omeprazole, lansoprazole, or pantoprazole. - Histamine blocking drugs such as cimetidine, ranitidine, or famotidine. - Somatostatin-type drugs such as octreotide. - Diarrhea may be treated with: - Intravenous (IV) fluids with electrolytes such as potassium or chloride. - Somatostatin-type drugs such as octreotide. - Low blood sugar may be treated by having small, frequent meals or with drug therapy to maintain a normal blood sugar level. - High blood sugar may be treated with drugs taken by mouth or insulin by injection. New types of treatment are being tested in clinical trials. Information about clinical trials is available from the NCI website. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials. Follow-up tests may be needed. Some of the tests that were done to diagnose the cancer or to find out the stage of the cancer may be repeated. Some tests will be repeated in order to see how well the treatment is working. Decisions about whether to continue, change, or stop treatment may be based on the results of these tests. Some of the tests will continue to be done from time to time after treatment has ended. The results of these tests can show if your condition has changed or if the cancer has recurred (come back). These tests are sometimes called follow-up tests or check-ups. Treatment Options for Pancreatic Neuroendocrine Tumors Gastrinoma Treatment of gastrinoma may include supportive care and the following: - For symptoms caused by too much stomach acid, treatment may be a drug that decreases the amount of acid made by the stomach. - For a single tumor in the head of the pancreas: - Surgery to remove the tumor. - Surgery to cut the nerve that causes stomach cells to make acid and treatment with a drug that decreases stomach acid. - Surgery to remove the whole stomach (rare). - For a single tumor in the body or tail of the pancreas, treatment is usually surgery to remove the body or tail of the pancreas. - For several tumors in the pancreas, treatment is usually surgery to remove the body or tail of the pancreas. If tumor remains after surgery, treatment may include either: - Surgery to cut the nerve that causes stomach cells to make acid and treatment with a drug that decreases stomach acid; or - Surgery to remove the whole stomach (rare). - For one or more tumors in the duodenum (the part of the small intestine that connects to the stomach), treatment is usually pancreatoduodenectomy (surgery to remove the head of the pancreas, the gallbladder, nearby lymph nodes and part of the stomach, small intestine, and bile duct). - If no tumor is found, treatment may include the following: - Surgery to cut the nerve that causes stomach cells to make acid and treatment with a drug that decreases stomach acid. - Surgery to remove the whole stomach (rare). - If the cancer has spread to the liver, treatment may include: - Surgery to remove part or all of the liver. - Radiofrequency ablation or cryosurgical ablation. - Chemoembolization. - If cancer has spread to other parts of the body or does not get better with surgery or drugs to decrease stomach acid, treatment may include: - Chemotherapy. - Hormone therapy. - If the cancer mostly affects the liver and the patient has severe symptoms from hormones or from the size of tumor, treatment may include: - Hepatic arterial occlusion, with or without systemic chemotherapy. - Chemoembolization, with or without systemic chemotherapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with gastrinoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Insulinoma Treatment of insulinoma may include the following: - For one small tumor in the head or tail of the pancreas, treatment is usually surgery to remove the tumor. - For one large tumor in the head of the pancreas that cannot be removed by surgery, treatment is usually pancreatoduodenectomy (surgery to remove the head of the pancreas, the gallbladder, nearby lymph nodes and part of the stomach, small intestine, and bile duct). - For one large tumor in the body or tail of the pancreas, treatment is usually a distal pancreatectomy (surgery to remove the body and tail of the pancreas). - For more than one tumor in the pancreas, treatment is usually surgery to remove any tumors in the head of the pancreas and the body and tail of the pancreas. - For tumors that cannot be removed by surgery, treatment may include the following: - Combination chemotherapy. - Palliative drug therapy to decrease the amount of insulin made by the pancreas. - Hormone therapy. - Radiofrequency ablation or cryosurgical ablation. - For cancer that has spread to lymph nodes or other parts of the body, treatment may include the following: - Surgery to remove the cancer. - Radiofrequency ablation or cryosurgical ablation, if the cancer cannot be removed by surgery. - If the cancer mostly affects the liver and the patient has severe symptoms from hormones or from the size of tumor, treatment may include: - Hepatic arterial occlusion, with or without systemic chemotherapy. - Chemoembolization, with or without systemic chemotherapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with insulinoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Glucagonoma Treatment may include the following: - For one small tumor in the head or tail of the pancreas, treatment is usually surgery to remove the tumor. - For one large tumor in the head of the pancreas that cannot be removed by surgery, treatment is usually pancreatoduodenectomy (surgery to remove the head of the pancreas, the gallbladder, nearby lymph nodes and part of the stomach, small intestine, and bile duct). - For more than one tumor in the pancreas, treatment is usually surgery to remove the tumor or surgery to remove the body and tail of the pancreas. - For tumors that cannot be removed by surgery, treatment may include the following: - Combination chemotherapy. - Hormone therapy. - Radiofrequency ablation or cryosurgical ablation. - For cancer that has spread to lymph nodes or other parts of the body, treatment may include the following: - Surgery to remove the cancer. - Radiofrequency ablation or cryosurgical ablation, if the cancer cannot be removed by surgery. - If the cancer mostly affects the liver and the patient has severe symptoms from hormones or from the size of tumor, treatment may include: - Hepatic arterial occlusion, with or without systemic chemotherapy. - Chemoembolization, with or without systemic chemotherapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with glucagonoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Other Pancreatic Neuroendocrine Tumors (Islet Cell Tumors) For VIPoma, treatment may include the following: - Fluids and hormone therapy to replace fluids and electrolytes that have been lost from the body. - Surgery to remove the tumor and nearby lymph nodes. - Surgery to remove as much of the tumor as possible when the tumor cannot be completely removed or has spread to distant parts of the body. This is palliative therapy to relieve symptoms and improve the quality of life. - For tumors that have spread to lymph nodes or other parts of the body, treatment may include the following: - Surgery to remove the tumor. - Radiofrequency ablation or cryosurgical ablation, if the tumor cannot be removed by surgery. - For tumors that continue to grow during treatment or have spread to other parts of the body, treatment may include the following: - Chemotherapy. - Targeted therapy. For somatostatinoma, treatment may include the following: - Surgery to remove the tumor. - For cancer that has spread to distant parts of the body, surgery to remove as much of the cancer as possible to relieve symptoms and improve quality of life. - For tumors that continue to grow during treatment or have spread to other parts of the body, treatment may include the following: - Chemotherapy. - Targeted therapy. Treatment of other types of pancreatic neuroendocrine tumors (NETs) may include the following: - Surgery to remove the tumor. - For cancer that has spread to distant parts of the body, surgery to remove as much of the cancer as possible or hormone therapy to relieve symptoms and improve quality of life. - For tumors that continue to grow during treatment or have spread to other parts of the body, treatment may include the following: - Chemotherapy. - Targeted therapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with islet cell tumor. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Recurrent or Progressive Pancreatic Neuroendocrine Tumors (Islet Cell Tumors) Treatment of pancreatic neuroendocrine tumors (NETs) that continue to grow during treatment or recur (come back) may include the following: - Surgery to remove the tumor. - Chemotherapy. - Hormone therapy. - Targeted therapy. - For liver metastases: - Regional chemotherapy. - Hepatic arterial occlusion or chemoembolization, with or without systemic chemotherapy. - A clinical trial of a new therapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with recurrent islet cell carcinoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website.
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Pancreatic Neuroendocrine Tumors (Islet Cell Tumors)
10
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research
what research (or clinical trials) is being done for Pancreatic Neuroendocrine Tumors (Islet Cell Tumors) ?
New types of treatment are being tested in clinical trials. Information about clinical trials is available from the NCI website. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials.
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Childhood Ependymoma
1
0000006_9-1
information
What is (are) Childhood Ependymoma ?
Key Points - Childhood ependymoma is a disease in which malignant (cancer) cells form in the tissues of the brain and spinal cord. - There are different types of ependymomas. - The part of the brain that is affected depends on where the ependymoma forms. - The cause of most childhood brain tumors is unknown. - The signs and symptoms of childhood ependymoma are not the same in every child. - Tests that examine the brain and spinal cord are used to detect (find) childhood ependymoma. - Childhood ependymoma is diagnosed and removed in surgery. - Certain factors affect prognosis (chance of recovery) and treatment options. Childhood ependymoma is a disease in which malignant (cancer) cells form in the tissues of the brain and spinal cord. The brain controls vital functions such as memory and learning, emotion, and the senses (hearing, sight, smell, taste, and touch). The spinal cord is made up of bundles of nerve fibers that connect the brain with nerves in most parts of the body. Ependymomas form from ependymal cells that line the ventricles and passageways in the brain and the spinal cord. Ependymal cells make cerebrospinal fluid (CSF). This summary is about the treatment of primary brain tumors (tumors that begin in the brain). Treatment of metastatic brain tumors, which are tumors that begin in other parts of the body and spread to the brain, is not discussed in this summary. There are many different types of brain tumors. Brain tumors can occur in both children and adults. However, treatment for children is different than treatment for adults. See the following PDQ summaries for more information: - Childhood Brain and Spinal Cord Tumors Treatment Overview - Adult Central Nervous System Tumors Treatment There are different types of ependymomas. The World Health Organization (WHO) groups ependymal tumors into five main subtypes: - Subependymoma (WHO Grade I). - Myxopapillary ependymoma (WHO Grade I). - Ependymoma (WHO Grade II). - RELA fusionpositive ependymoma (WHO Grade II or Grade III with change in the RELA gene). - Anaplastic ependymoma (WHO Grade III). The grade of a tumor describes how abnormal the cancer cells look under a microscope and how quickly the tumor is likely to grow and spread. Low-grade (Grade I) cancer cells look more like normal cells than high-grade cancer cells (Grade II and III). They also tend to grow and spread more slowly than Grade II and III cancer cells. The part of the brain that is affected depends on where the ependymoma forms. Ependymomas can form anywhere in the fluid -filled ventricles and passageways in the brain and spinal cord. Most ependymomas form in the fourth ventricle and affect the cerebellum and the brain stem. Once an ependymoma forms, areas of the brain that may be affected include: - Cerebrum: The largest part of the brain, at the top of the head. The cerebrum controls thinking, learning, problem-solving, speech, emotions, reading, writing, and voluntary movement. - Cerebellum: The lower, back part of the brain (near the middle of the back of the head). The cerebellum controls movement, balance, and posture. - Brain stem: The part that connects the brain to the spinal cord, in the lowest part of the brain (just above the back of the neck). The brain stem controls breathing, heart rate, and the nerves and muscles used in seeing, hearing, walking, talking, and eating. - Spinal cord: The column of nerve tissue that runs from the brain stem down the center of the back. It is covered by three thin layers of tissue called membranes. The spinal cord and membranes are surrounded by the vertebrae (back bones). Spinal cord nerves carry messages between the brain and the rest of the body, such as a message from the brain to cause muscles to move or a message from the skin to the brain to feel touch.
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Childhood Ependymoma
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causes
What causes Childhood Ependymoma ?
The cause of most childhood brain tumors is unknown.
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Childhood Ependymoma
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symptoms
What are the symptoms of Childhood Ependymoma ?
The signs and symptoms of childhood ependymoma are not the same in every child. Signs and symptoms depend on the following: - The child's age. - Where the tumor has formed. Signs and symptoms may be caused by childhood ependymoma or by other conditions. Check with your child's doctor if your child has any of the following: - Frequent headaches. - Seizures. - Nausea and vomiting. - Pain or stiffness in the neck. - Loss of balance or trouble walking. - Weakness in the legs. - Blurry vision. - Back pain. - A change in bowel function. - Trouble urinating. - Confusion or irritability.
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Childhood Ependymoma
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exams and tests
How to diagnose Childhood Ependymoma ?
Tests that examine the brain and spinal cord are used to detect (find) childhood ependymoma. The following tests and procedures may be used: - Physical exam and history : An exam of the body to check general signs of health, including checking for signs of disease, such as lumps or anything else that seems unusual. A history of the patients health habits and past illnesses and treatments will also be taken. - Neurological exam : A series of questions and tests to check the brain, spinal cord, and nerve function. The exam checks a persons mental status, coordination, and ability to walk normally, and how well the muscles, senses, and reflexes work. This may also be called a neuro exam or a neurologic exam. - MRI (magnetic resonance imaging) with gadolinium : A procedure that uses a magnet, radio waves, and a computer to make a series of detailed pictures of areas inside the brain and spinal cord. A substance called gadolinium is injected into a vein and travels through the bloodstream. The gadolinium collects around the cancer cells so they show up brighter in the picture. This procedure is also called nuclear magnetic resonance imaging (NMRI). - Lumbar puncture : A procedure used to collect cerebrospinal fluid (CSF) from the spinal column. This is done by placing a needle between two bones in the spine and into the CSF around the spinal cord and removing a sample of fluid. The sample of CSF is checked under a microscope for signs of tumor cells. The sample may also be checked for the amounts of protein and glucose. A higher than normal amount of protein or lower than normal amount of glucose may be a sign of a tumor. This procedure is also called an LP or spinal tap. Childhood ependymoma is diagnosed and removed in surgery. If the diagnostic tests show there may be a brain tumor, a biopsy is done by removing part of the skull and using a needle to remove a sample of the brain tissue. A pathologist views the tissue under a microscope to look for cancer cells. If cancer cells are found, the doctor will remove as much tumor as safely possible during the same surgery. The following test may be done on the tissue that was removed: - Immunohistochemistry : A test that uses antibodies to check for certain antigens in a sample of tissue. The antibody is usually linked to a radioactive substance or a dye that causes the tissue to light up under a microscope. This type of test may be used to tell the difference between brain stem glioma and other brain tumors. An MRI is often done after the tumor is removed to find out whether any tumor remains.
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Childhood Ependymoma
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outlook
What is the outlook for Childhood Ependymoma ?
Certain factors affect prognosis (chance of recovery) and treatment options. The prognosis (chance of recovery) and treatment options depend on: - Where the tumor has formed in the central nervous system (CNS). - Whether there are certain changes in the genes or chromosomes. - Whether any cancer cells remain after surgery to remove the tumor. - The type of ependymoma. - The age of the child when the tumor is diagnosed. - Whether the cancer has spread to other parts of the brain or spinal cord. - Whether the tumor has just been diagnosed or has recurred (come back). Prognosis also depends on the type and dose of radiation therapy that is given.
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Childhood Ependymoma
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research
what research (or clinical trials) is being done for Childhood Ependymoma ?
New types of treatment are being tested in clinical trials. Information about clinical trials is available from the NCI website. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials.
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Childhood Ependymoma
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stages
What are the stages of Childhood Ependymoma ?
Key Points - The area where the tumor is found and the childs age are used in place of a staging system to plan cancer treatment. - The information from tests and procedures done to detect (find) childhood ependymoma is used to plan cancer treatment. The area where the tumor is found and the childs age are used in place of a staging system to plan cancer treatment. Staging is the process used to find out how much cancer there is and if cancer has spread. There is no standard staging system for childhood ependymoma. Treatment is based on where the cancer is in the body and the age of the child. The information from tests and procedures done to detect (find) childhood ependymoma is used to plan cancer treatment. Some of the tests used to detect childhood ependymoma are repeated after the tumor is removed by surgery. (See the General Information section.) This is to find out how much tumor remains after surgery.
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Childhood Ependymoma
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treatment
What are the treatments for Childhood Ependymoma ?
Key Points - There are different types of treatment for children with ependymoma. - Children with ependymoma should have their treatment planned by a team of health care providers who are experts in treating childhood brain tumors. - Childhood brain and spinal cord tumors may cause signs or symptoms that begin before the cancer is diagnosed and continue for months or years. - Some cancer treatments cause side effects months or years after treatment has ended. - Four types of standard treatment are used: - Surgery - Radiation therapy - Chemotherapy - Observation - New types of treatment are being tested in clinical trials. - Patients may want to think about taking part in a clinical trial. - Patients can enter clinical trials before, during, or after starting their cancer treatment. - Follow-up tests may be needed. There are different types of treatment for children with ependymoma. Different types of treatment are available for children with ependymoma. Some treatments are standard (the currently used treatment), and some are being tested in clinical trials. A treatment clinical trial is a research study meant to help improve current treatments or obtain information on new treatments for patients with cancer. When clinical trials show that a new treatment is better than the standard treatment, the new treatment may become the standard treatment. Because cancer in children is rare, taking part in a clinical trial should be considered. Some clinical trials are open only to patients who have not started treatment. Children with ependymoma should have their treatment planned by a team of health care providers who are experts in treating childhood brain tumors. Treatment will be overseen by a pediatric oncologist, a doctor who specializes in treating children with cancer. The pediatric oncologist works with other pediatric health care providers who are experts in treating children with brain tumors and who specialize in certain areas of medicine. These may include the following specialists: - Pediatric neurosurgeon. - Neurologist. - Neuropathologist. - Neuroradiologist. - Pediatrician. - Rehabilitation specialist. - Radiation oncologist. - Medical oncologist. - Endocrinologist. - Psychologist. Childhood brain and spinal cord tumors may cause signs or symptoms that begin before the cancer is diagnosed and continue for months or years. Childhood brain and spinal cord tumors may cause signs or symptoms that continue for months or years. Signs or symptoms caused by the tumor may begin before diagnosis. Signs or symptoms caused by treatment may begin during or right after treatment. Some cancer treatments cause side effects months or years after treatment has ended. These are called late effects. Late effects of cancer treatment may include the following: - Physical problems. - Changes in mood, feelings, thinking, learning, or memory. - Second cancers (new types of cancer). Some late effects may be treated or controlled. It is important to talk with your child's doctors about the effects cancer treatment can have on your child. (See the PDQ summary on Late Effects of Treatment for Childhood Cancer for more information). Four types of standard treatment are used: Surgery If the results of diagnostic tests show there may be a brain tumor, a biopsy is done by removing part of the skull and using a needle to remove a sample of the brain tissue. A pathologist views the tissue under a microscope to check for cancer cells. If cancer cells are found, the doctor will remove as much tumor as safely possible during the same surgery. An MRI is often done after the tumor is removed to find out whether any tumor remains. If tumor remains, a second surgery to remove as much of the remaining tumor as possible may be done. Even if the doctor removes all the cancer that can be seen at the time of the surgery, some patients may be given chemotherapy or radiation therapy after surgery to kill any cancer cells that are left. Treatment to lower the risk that the cancer will come back after surgery is called adjuvant therapy. Radiation therapy Radiation therapy is a cancer treatment that uses high-energy x-rays or other types of radiation to kill cancer cells or keep them from growing. There are two types of radiation therapy: - External radiation therapy uses a machine outside the body to send radiation toward the cancer. Certain ways of giving radiation therapy can help keep radiation from damaging nearby healthy tissue. These types of radiation therapy include the following: - Conformal radiation therapy: Conformal radiation therapy is a type of external radiation therapy that uses a computer to make a 3-dimensional (3-D) picture of the tumor and shapes the radiation beams to fit the tumor. - Intensity-modulated radiation therapy (IMRT): IMRT is a type of 3-dimensional (3-D) radiation therapy that uses a computer to make pictures of the size and shape of the tumor. Thin beams of radiation of different intensities (strengths) are aimed at the tumor from many angles. - Proton-beam radiation therapy: Proton-beam therapy is a type of high-energy, external radiation therapy. A radiation therapy machine aims streams of protons (tiny, invisible, positively-charged particles) at the cancer cells to kill them. - Stereotactic radiosurgery: Stereotactic radiosurgery is a type of external radiation therapy. A rigid head frame is attached to the skull to keep the head still during the radiation treatment. A machine aims a single large dose of radiation directly at the tumor. This procedure does not involve surgery. It is also called stereotaxic radiosurgery, radiosurgery, and radiation surgery. - Internal radiation therapy uses a radioactive substance sealed in needles, seeds, wires, or catheters that are placed directly into or near the cancer. The way the radiation therapy is given depends on the type of cancer being treated. External radiation therapy is used to treat childhood ependymoma. Children younger than 3 years who receive radiation therapy to the brain have a higher risk of problems with growth and development than older children. 3-D conformal radiation therapy and proton-beam therapy are being studied in children younger than 3 years to see if the effects of radiation on growth and development are lessened. Chemotherapy Chemotherapy is a cancer treatment that uses drugs to stop the growth of cancer cells, either by killing the cells or by stopping them from dividing. When chemotherapy is taken by mouth or injected into a vein or muscle, the drugs enter the bloodstream and can reach cancer cells throughout the body (systemic chemotherapy). When chemotherapy is placed directly into the cerebrospinal fluid, an organ, or a body cavity such as the abdomen, the drugs mainly affect cancer cells in those areas (regional chemotherapy). The way the chemotherapy is given depends on the type of cancer being treated. Observation Observation is closely monitoring a patients condition without giving any treatment until signs or symptoms appear or change. Observation may be used to treat a child with a subependymoma who has no symptoms and whose tumor is found while treating another condition. New types of treatment are being tested in clinical trials. Information about clinical trials is available from the NCI website. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials. Follow-up tests may be needed. Some of the tests that were done to diagnose the cancer or to find out the stage of the cancer may be repeated. Some tests will be repeated in order to see how well the treatment is working. Decisions about whether to continue, change, or stop treatment may be based on the results of these tests. Some of the tests will continue to be done from time to time after treatment has ended. The results of these tests can show if your child's condition has changed or if the cancer has recurred (come back). These tests are sometimes called follow-up tests or check-ups. Follow-up tests for childhood ependymoma include an MRI (magnetic resonance imaging) of the brain and spinal cord every 3 months for the first 1 or 2 years after treatment. After 2 years, MRIs may be done every 6 months for the next 3 years. Treatment Options for Childhood Ependymoma Newly Diagnosed Childhood Ependymoma A child with a newly diagnosed ependymoma has not had treatment for the tumor. The child may have had treatment to relieve signs or symptoms caused by the tumor. Subependymoma Treatment of newly diagnosed subependymoma (WHO Grade I) is: - Surgery. - Observation (rarely). Myxopapillary ependymoma Treatment of newly diagnosed myxopapillary ependymoma (WHO Grade I) is: - Surgery with or without radiation therapy. Childhood ependymoma, anaplastic ependymoma, or RELA fusionpositive ependymoma Treatment of newly diagnosed childhood ependymoma (WHO Grade II), anaplastic ependymoma (WHO Grade III), or RELA fusionpositive ependymoma (WHO Grade II or Grade III) is: - Surgery. After surgery, the plan for further treatment depends on the following: - Whether any cancer cells remain after surgery. - Whether the cancer has spread to other parts of the brain or spinal cord. - The age of the child. When the tumor is completely removed and cancer cells have not spread, treatment may include the following: - Radiation therapy. - A clinical trial of radiation therapy followed by chemotherapy. - A clinical trial of observation for patients whose tumor is completely removed or who have no sign of cancer after chemotherapy. When part of the tumor remains after surgery, but cancer cells have not spread, treatment may include the following: - A second surgery to remove as much of the remaining tumor as possible. - Radiation therapy. - Chemotherapy followed by radiation therapy. - A clinical trial of chemotherapy given before and after radiation therapy. When cancer cells have spread within the brain and spinal cord, treatment may include the following: - Radiation therapy to the brain and spinal cord. Treatment for children younger than 3 years of age may include the following: - Chemotherapy. - Radiation therapy. - A clinical trial of 3-dimensional (3-D) conformal radiation therapy or proton-beam radiation therapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with newly diagnosed childhood ependymoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your child's doctor about clinical trials that may be right for your child. General information about clinical trials is available from the NCI website. Recurrent Childhood Ependymoma Treatment of recurrent childhood ependymoma may include the following: - Surgery. - Radiation therapy, which may include stereotactic radiosurgery, intensity-modulated radiation therapy, or proton-beam radiation therapy. - Chemotherapy. - A clinical trial of a new treatment. Check the list of NCI-supported cancer clinical trials that are now accepting patients with recurrent childhood ependymoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your child's doctor about clinical trials that may be right for your child. General information about clinical trials is available from the NCI website.
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Chronic Myelomonocytic Leukemia
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information
What is (are) Chronic Myelomonocytic Leukemia ?
Key Points - Chronic myelomonocytic leukemia is a disease in which too many myelocytes and monocytes (immature white blood cells) are made in the bone marrow. - Older age and being male increase the risk of chronic myelomonocytic leukemia. - Signs and symptoms of chronic myelomonocytic leukemia include fever, weight loss, and feeling very tired. - Certain factors affect prognosis (chance of recovery) and treatment options. Chronic myelomonocytic leukemia is a disease in which too many myelocytes and monocytes (immature white blood cells) are made in the bone marrow. In chronic myelomonocytic leukemia (CMML), the body tells too many blood stem cells to become two types of white blood cells called myelocytes and monocytes. Some of these blood stem cells never become mature white blood cells. These immature white blood cells are called blasts. Over time, the myelocytes, monocytes, and blasts crowd out the red blood cells and platelets in the bone marrow. When this happens, infection, anemia, or easy bleeding may occur.
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susceptibility
Who is at risk for Chronic Myelomonocytic Leukemia? ?
Older age and being male increase the risk of chronic myelomonocytic leukemia. Anything that increases your chance of getting a disease is called a risk factor. Possible risk factors for CMML include the following: - Older age. - Being male. - Being exposed to certain substances at work or in the environment. - Being exposed to radiation. - Past treatment with certain anticancer drugs.
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Chronic Myelomonocytic Leukemia
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symptoms
What are the symptoms of Chronic Myelomonocytic Leukemia ?
Signs and symptoms of chronic myelomonocytic leukemia include fever, weight loss, and feeling very tired. These and other signs and symptoms may be caused by CMML or by other conditions. Check with your doctor if you have any of the following: - Fever for no known reason. - Infection. - Feeling very tired. - Weight loss for no known reason. - Easy bruising or bleeding. - Pain or a feeling of fullness below the ribs.
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Chronic Myelomonocytic Leukemia
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outlook
What is the outlook for Chronic Myelomonocytic Leukemia ?
Certain factors affect prognosis (chance of recovery) and treatment options. The prognosis (chance of recovery) and treatment options for CMML depend on the following: - The number of white blood cells or platelets in the blood or bone marrow. - Whether the patient is anemic. - The amount of blasts in the blood or bone marrow. - The amount of hemoglobin in red blood cells. - Whether there are certain changes in the chromosomes.
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Chronic Myelomonocytic Leukemia
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treatment
What are the treatments for Chronic Myelomonocytic Leukemia ?
Treatment of chronic myelomonocytic leukemia (CMML) may include the following: - Chemotherapy with one or more agents. - Stem cell transplant. - A clinical trial of a new treatment. Check the list of NCI-supported cancer clinical trials that are now accepting patients with chronic myelomonocytic leukemia. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website.
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Kaposi Sarcoma
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information
What is (are) Kaposi Sarcoma ?
Key Points - Kaposi sarcoma is a disease in which malignant tumors (cancer) can form in the skin, mucous membranes, lymph nodes, and other organs. - Tests that examine the skin, lungs, and gastrointestinal tract are used to detect (find) and diagnose Kaposi sarcoma. - After Kaposi sarcoma has been diagnosed, tests are done to find out if cancer cells have spread to other parts of the body. - Certain factors affect prognosis (chance of recovery) and treatment options. Kaposi sarcoma is a disease in which malignant tumors (cancer) can form in the skin, mucous membranes, lymph nodes, and other organs. Kaposi sarcoma is a cancer that causes lesions (abnormal tissue) to grow in the skin; the mucous membranes lining the mouth, nose, and throat; lymph nodes; or other organs. The lesions are usually purple and are made of cancer cells, new blood vessels, red blood cells, and white blood cells. Kaposi sarcoma is different from other cancers in that lesions may begin in more than one place in the body at the same time. Human herpesvirus-8 (HHV-8) is found in the lesions of all patients with Kaposi sarcoma. This virus is also called Kaposi sarcoma herpesvirus (KSHV). Most people infected with HHV-8 do not get Kaposi sarcoma. Those infected with HHV-8 who are most likely to develop Kaposi sarcoma have immune systems weakened by disease or by drugs given after an organ transplant. There are several types of Kaposi sarcoma, including: - Classic Kaposi sarcoma. - African Kaposi sarcoma. - Immunosuppressive therapyrelated Kaposi sarcoma. - Epidemic Kaposi sarcoma. - Nonepidemic Kaposi sarcoma. Tests that examine the skin, lungs, and gastrointestinal tract are used to detect (find) and diagnose Kaposi sarcoma. The following tests and procedures may be used: - Physical exam and history : An exam of the body to check general signs of health, including checking skin and lymph nodes for signs of disease, such as lumps or anything else that seems unusual. A history of the patient's health habits and past illnesses and treatments will also be taken. - Chest x-ray : An x-ray of the organs and bones inside the chest. An x-ray is a type of energy beam that can go through the body and onto film, making a picture of areas inside the body. This is used to find Kaposi sarcoma in the lungs. - Biopsy : The removal of cells or tissues so they can be viewed under a microscope by a pathologist to check for signs of cancer. One of the following types of biopsies may be done to check for Kaposi sarcoma lesions in the skin: - Excisional biopsy : A scalpel is used to remove the entire skin growth. - Incisional biopsy : A scalpel is used to remove part of a skin growth. - Core biopsy : A wide needle is used to remove part of a skin growth. - Fine-needle aspiration (FNA) biopsy : A thin needle is used to remove part of a skin growth. An endoscopy or bronchoscopy may be done to check for Kaposi sarcoma lesions in the gastrointestinal tract or lungs. - Endoscopy for biopsy: A procedure to look at organs and tissues inside the body to check for abnormal areas. An endoscope is inserted through an incision (cut) in the skin or opening in the body, such as the mouth. An endoscope is a thin, tube-like instrument with a light and a lens for viewing. It may also have a tool to remove tissue or lymph node samples, which are checked under a microscope for signs of disease. This is used to find Kaposi sarcoma lesions in the gastrointestinal tract. - Bronchoscopy for biopsy: A procedure to look inside the trachea and large airways in the lung for abnormal areas. A bronchoscope is inserted through the nose or mouth into the trachea and lungs. A bronchoscope is a thin, tube-like instrument with a light and a lens for viewing. It may also have a tool to remove tissue samples, which are checked under a microscope for signs of disease. This is used to find Kaposi sarcoma lesions in the lungs. After Kaposi sarcoma has been diagnosed, tests are done to find out if cancer cells have spread to other parts of the body. The following tests and procedures may be used to find out if cancer has spread to other parts of the body: - Blood chemistry studies : A procedure in which a blood sample is checked to measure the amounts of certain substances released into the blood by organs and tissues in the body. An unusual (higher or lower than normal) amount of a substance can be a sign of disease. - CT scan (CAT scan): A procedure that makes a series of detailed pictures of areas inside the body, such as the lung, liver, and spleen, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography. - PET scan (positron emission tomography scan): A procedure to find malignant tumor cells in the body. A small amount of radioactive glucose (sugar) is injected into a vein. The PET scanner rotates around the body and makes a picture of where glucose is being used in the body. Malignant tumor cells show up brighter in the picture because they are more active and take up more glucose than normal cells do. This imaging test checks for signs of cancer in the lung, liver, and spleen. - CD34 lymphocyte count: A procedure in which a blood sample is checked to measure the amount of CD34 cells (a type of white blood cell). A lower than normal amount of CD34 cells can be a sign the immune system is not working well. Certain factors affect prognosis (chance of recovery) and treatment options. The prognosis (chance of recovery) and treatment options depend on the following: - The type of Kaposi sarcoma. - The general health of the patient, especially the patient's immune system. - Whether the cancer has just been diagnosed or has recurred (come back). Classic Kaposi Sarcoma Key Points - Classic Kaposi sarcoma is found most often in older men of Italian or Eastern European Jewish origin. - Signs of classic Kaposi sarcoma may include slow-growing lesions on the legs and feet. - Another cancer may develop. Classic Kaposi sarcoma is found most often in older men of Italian or Eastern European Jewish origin. Classic Kaposi sarcoma is a rare disease that gets worse slowly over many years. Signs of classic Kaposi sarcoma may include slow-growing lesions on the legs and feet. Patients may have one or more red, purple, or brown skin lesions on the legs and feet, most often on the ankles or soles of the feet. Over time, lesions may form in other parts of the body, such as the stomach, intestines, or lymph nodes. The lesions usually don't cause any symptoms, but may grow in size and number over a period of 10 years or more. Pressure from the lesions may block the flow of lymph and blood in the legs and cause painful swelling. Lesions in the digestive tract may cause gastrointestinal bleeding. Another cancer may develop. Some patients with classic Kaposi sarcoma may develop another type of cancer before the Kaposi sarcoma lesions appear or later in life. Most often, this second cancer is non-Hodgkin lymphoma. Frequent follow-up is needed to watch for these second cancers. Epidemic Kaposi Sarcoma Key Points - Epidemic Kaposi sarcoma is found in patients who have acquired immunodeficiency syndrome (AIDS). - Signs of epidemic Kaposi sarcoma can include lesions that form in many parts of the body. - The use of drug therapy called cART reduces the risk of epidemic Kaposi sarcoma in patients infected with HIV. Epidemic Kaposi sarcoma is found in patients who have acquired immunodeficiency syndrome (AIDS). Epidemic Kaposi sarcoma occurs in patients who have acquired immunodeficiency syndrome (AIDS). AIDS is caused by the human immunodeficiency virus (HIV), which attacks and weakens the immune system. When the body's immune system is weakened by HIV, infections and cancers such as Kaposi sarcoma can develop. Most cases of epidemic Kaposi sarcoma in the United States have been diagnosed in homosexual or bisexual men infected with HIV. Signs of epidemic Kaposi sarcoma can include lesions that form in many parts of the body. The signs of epidemic Kaposi sarcoma can include lesions in different parts of the body, including any of the following: - Skin. - Lining of the mouth. - Lymph nodes. - Stomach and intestines. - Lungs and lining of the chest. - Liver. - Spleen. Kaposi sarcoma is sometimes found in the lining of the mouth during a regular dental check-up. In most patients with epidemic Kaposi sarcoma, the disease will spread to other parts of the body over time. Fever, weight loss, or diarrhea can occur. In the later stages of epidemic Kaposi sarcoma, life-threatening infections are common. The use of drug therapy called cART reduces the risk of epidemic Kaposi sarcoma in patients infected with HIV. Combined antiretroviral therapy (cART) is a combination of several drugs that block HIV and slow down the development of AIDS and AIDS-related Kaposi sarcoma. For information about AIDS and its treatment, see the AIDSinfo website. Tests that examine the skin, lungs, and gastrointestinal tract are used to detect (find) and diagnose Kaposi sarcoma. The following tests and procedures may be used: - Physical exam and history : An exam of the body to check general signs of health, including checking skin and lymph nodes for signs of disease, such as lumps or anything else that seems unusual. A history of the patient's health habits and past illnesses and treatments will also be taken. - Chest x-ray : An x-ray of the organs and bones inside the chest. An x-ray is a type of energy beam that can go through the body and onto film, making a picture of areas inside the body. This is used to find Kaposi sarcoma in the lungs. - Biopsy : The removal of cells or tissues so they can be viewed under a microscope by a pathologist to check for signs of cancer. One of the following types of biopsies may be done to check for Kaposi sarcoma lesions in the skin: - Excisional biopsy : A scalpel is used to remove the entire skin growth. - Incisional biopsy : A scalpel is used to remove part of a skin growth. - Core biopsy : A wide needle is used to remove part of a skin growth. - Fine-needle aspiration (FNA) biopsy : A thin needle is used to remove part of a skin growth. An endoscopy or bronchoscopy may be done to check for Kaposi sarcoma lesions in the gastrointestinal tract or lungs. - Endoscopy for biopsy: A procedure to look at organs and tissues inside the body to check for abnormal areas. An endoscope is inserted through an incision (cut) in the skin or opening in the body, such as the mouth. An endoscope is a thin, tube-like instrument with a light and a lens for viewing. It may also have a tool to remove tissue or lymph node samples, which are checked under a microscope for signs of disease. This is used to find Kaposi sarcoma lesions in the gastrointestinal tract. - Bronchoscopy for biopsy: A procedure to look inside the trachea and large airways in the lung for abnormal areas. A bronchoscope is inserted through the nose or mouth into the trachea and lungs. A bronchoscope is a thin, tube-like instrument with a light and a lens for viewing. It may also have a tool to remove tissue samples, which are checked under a microscope for signs of disease. This is used to find Kaposi sarcoma lesions in the lungs. After Kaposi sarcoma has been diagnosed, tests are done to find out if cancer cells have spread to other parts of the body. The following tests and procedures may be used to find out if cancer has spread to other parts of the body: - Blood chemistry studies : A procedure in which a blood sample is checked to measure the amounts of certain substances released into the blood by organs and tissues in the body. An unusual (higher or lower than normal) amount of a substance can be a sign of disease. - CT scan (CAT scan): A procedure that makes a series of detailed pictures of areas inside the body, such as the lung, liver, and spleen, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography. - PET scan (positron emission tomography scan): A procedure to find malignant tumor cells in the body. A small amount of radioactive glucose (sugar) is injected into a vein. The PET scanner rotates around the body and makes a picture of where glucose is being used in the body. Malignant tumor cells show up brighter in the picture because they are more active and take up more glucose than normal cells do. This imaging test checks for signs of cancer in the lung, liver, and spleen. - CD34 lymphocyte count: A procedure in which a blood sample is checked to measure the amount of CD34 cells (a type of white blood cell). A lower than normal amount of CD34 cells can be a sign the immune system is not working well. Certain factors affect prognosis (chance of recovery) and treatment options. The prognosis (chance of recovery) and treatment options depend on the following: - The type of Kaposi sarcoma. - The general health of the patient, especially the patient's immune system. - Whether the cancer has just been diagnosed or has recurred (come back).
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Kaposi Sarcoma
2
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exams and tests
How to diagnose Kaposi Sarcoma ?
Tests that examine the skin, lungs, and gastrointestinal tract are used to detect (find) and diagnose Kaposi sarcoma. The following tests and procedures may be used: - Physical exam and history : An exam of the body to check general signs of health, including checking skin and lymph nodes for signs of disease, such as lumps or anything else that seems unusual. A history of the patient's health habits and past illnesses and treatments will also be taken. - Chest x-ray : An x-ray of the organs and bones inside the chest. An x-ray is a type of energy beam that can go through the body and onto film, making a picture of areas inside the body. This is used to find Kaposi sarcoma in the lungs. - Biopsy : The removal of cells or tissues so they can be viewed under a microscope by a pathologist to check for signs of cancer. One of the following types of biopsies may be done to check for Kaposi sarcoma lesions in the skin: - Excisional biopsy : A scalpel is used to remove the entire skin growth. - Incisional biopsy : A scalpel is used to remove part of a skin growth. - Core biopsy : A wide needle is used to remove part of a skin growth. - Fine-needle aspiration (FNA) biopsy : A thin needle is used to remove part of a skin growth. An endoscopy or bronchoscopy may be done to check for Kaposi sarcoma lesions in the gastrointestinal tract or lungs. - Endoscopy for biopsy: A procedure to look at organs and tissues inside the body to check for abnormal areas. An endoscope is inserted through an incision (cut) in the skin or opening in the body, such as the mouth. An endoscope is a thin, tube-like instrument with a light and a lens for viewing. It may also have a tool to remove tissue or lymph node samples, which are checked under a microscope for signs of disease. This is used to find Kaposi sarcoma lesions in the gastrointestinal tract. - Bronchoscopy for biopsy: A procedure to look inside the trachea and large airways in the lung for abnormal areas. A bronchoscope is inserted through the nose or mouth into the trachea and lungs. A bronchoscope is a thin, tube-like instrument with a light and a lens for viewing. It may also have a tool to remove tissue samples, which are checked under a microscope for signs of disease. This is used to find Kaposi sarcoma lesions in the lungs. - After Kaposi sarcoma has been diagnosed, tests are done to find out if cancer cells have spread to other parts of the body. The following tests and procedures may be used to find out if cancer has spread to other parts of the body: - Blood chemistry studies : A procedure in which a blood sample is checked to measure the amounts of certain substances released into the blood by organs and tissues in the body. An unusual (higher or lower than normal) amount of a substance can be a sign of disease. - CT scan (CAT scan): A procedure that makes a series of detailed pictures of areas inside the body, such as the lung, liver, and spleen, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography. - PET scan (positron emission tomography scan): A procedure to find malignant tumor cells in the body. A small amount of radioactive glucose (sugar) is injected into a vein. The PET scanner rotates around the body and makes a picture of where glucose is being used in the body. Malignant tumor cells show up brighter in the picture because they are more active and take up more glucose than normal cells do. This imaging test checks for signs of cancer in the lung, liver, and spleen. - CD34 lymphocyte count: A procedure in which a blood sample is checked to measure the amount of CD34 cells (a type of white blood cell). A lower than normal amount of CD34 cells can be a sign the immune system is not working well.
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Kaposi Sarcoma
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research
what research (or clinical trials) is being done for Kaposi Sarcoma ?
New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI website. Targeted therapy Targeted therapy is a type of treatment that uses drugs or other substances to identify and attack specific cancer cells without harming normal cells. Monoclonal antibody therapy and tyrosine kinase inhibitors (TKIs) are types of targeted therapy being studied in the treatment of Kaposi sarcoma. Monoclonal antibody therapy is a cancer treatment that uses antibodies made in the laboratory from a single type of immune system cell. These antibodies can identify substances on cancer cells or normal substances that may help cancer cells grow. The antibodies attach to the substances and kill the cancer cells, block their growth, or keep them from spreading. Monoclonal antibodies are given by infusion. These may be used alone or to carry drugs, toxins, or radioactive material directly to cancer cells. Bevacizumab is a monoclonal antibody that is being studied in the treatment of Kaposi sarcoma. TKIs are targeted therapy drugs that block signals needed for tumors to grow. Imatinib mesylate is a TKI being studied in the treatment of Kaposi sarcoma. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials.
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Kaposi Sarcoma
5
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treatment
What are the treatments for Kaposi Sarcoma ?
Key Points - There are different types of treatment for patients with Kaposi sarcoma. - Treatment of epidemic Kaposi sarcoma combines treatment for Kaposi sarcoma with treatment for AIDS. - Four types of standard treatment are used to treat Kaposi sarcoma: - Radiation therapy - Surgery - Chemotherapy - Biologic therapy - New types of treatment are being tested in clinical trials. - Targeted therapy - Treatment for Kaposi sarcoma may cause side effects. - Patients may want to think about taking part in a clinical trial. - Patients can enter clinical trials before, during, or after starting their cancer treatment. - Follow-up tests may be needed. There are different types of treatment for patients with Kaposi sarcoma. Different types of treatments are available for patients with Kaposi sarcoma. Some treatments are standard (the currently used treatment), and some are being tested in clinical trials. A treatment clinical trial is a research study meant to help improve current treatments or obtain information on new treatments for patients with cancer. When clinical trials show that a new treatment is better than the standard treatment, the new treatment may become the standard treatment. Patients may want to think about taking part in a clinical trial. Some clinical trials are open only to patients who have not started treatment. Treatment of epidemic Kaposi sarcoma combines treatment for Kaposi sarcoma with treatment for AIDS. For the treatment of epidemic Kaposi sarcoma, combined antiretroviral therapy (cART) is used to slow the progression of AIDS. cART may be combined with anticancer drugs and medicines that prevent and treat infections. Four types of standard treatment are used to treat Kaposi sarcoma: Radiation therapy Radiation therapy is a cancer treatment that uses high-energy x-rays or other types of radiation to kill cancer cells or keep them from growing. There are two types of radiation therapy: - External radiation therapy uses a machine outside the body to send radiation toward the cancer. - Internal radiation therapy uses a radioactive substance sealed in needles, seeds, wires, or catheters that are placed directly into or near the cancer. The way the radiation therapy is given depends on the type of the cancer being treated. Certain types of external radiation therapy are used to treat Kaposi sarcoma lesions. Photon radiation therapy treats lesions with high-energy light. Electron beam radiation therapy uses tiny negatively charged particles called electrons. Surgery The following surgical procedures may be used for Kaposi sarcoma to treat small, surface lesions: - Local excision: The cancer is cut from the skin along with a small amount of normal tissue around it. - Electrodesiccation and curettage: The tumor is cut from the skin with a curette (a sharp, spoon-shaped tool). A needle-shaped electrode is then used to treat the area with an electric current that stops the bleeding and destroys cancer cells that remain around the edge of the wound. The process may be repeated one to three times during the surgery to remove all of the cancer. - Cryosurgery: A treatment that uses an instrument to freeze and destroy abnormal tissue. This type of treatment is also called cryotherapy. Chemotherapy Chemotherapy is a cancer treatment that uses drugs to stop the growth of cancer cells, either by killing the cells or by stopping them from dividing. When chemotherapy is taken by mouth or injected into a vein or muscle, the drugs enter the bloodstream and can reach cancer cells throughout the body (systemic chemotherapy). When chemotherapy is placed directly into the cerebrospinal fluid, an organ, tissue, or a body cavity such as the abdomen, the drugs mainly affect cancer cells in those areas (regional chemotherapy). In electrochemotherapy, intravenous chemotherapy is given and a probe is used to send electric pulses to the tumor. The pulses make an opening in the membrane around the tumor cell and allow the chemotherapy to get inside. Electrochemotherapy is being studied in the treatment of Kaposi sarcoma. The way the chemotherapy is given depends on where the Kaposi sarcoma lesions occur in the body. In Kaposi sarcoma, chemotherapy may be given in the following ways: - For local Kaposi sarcoma lesions, such as in the mouth, anticancer drugs may be injected directly into the lesion (intralesional chemotherapy). - For local lesions on the skin, a topical agent may be applied to the skin as a gel. Electrochemotherapy may also be used. - For widespread lesions on the skin, intravenous chemotherapy may be given. Liposomal chemotherapy uses liposomes (very tiny fat particles) to carry anticancer drugs. Liposomal doxorubicin is used to treat Kaposi sarcoma. The liposomes build up in Kaposi sarcoma tissue more than in healthy tissue, and the doxorubicin is released slowly. This increases the effect of the doxorubicin and causes less damage to healthy tissue. See Drugs Approved for Kaposi Sarcoma for more information. Biologic therapy Biologic therapy is a treatment that uses the patient's immune system to fight cancer. Substances made by the body or made in a laboratory are used to boost, direct, or restore the body's natural defenses against cancer. This type of cancer treatment is also called biotherapy or immunotherapy. Interferon alfa is a biologic agent used to treat Kaposi sarcoma. See Drugs Approved for Kaposi Sarcoma for more information. Treatment for Kaposi sarcoma may cause side effects. For information about side effects caused by treatment for cancer, see our Side Effects page. New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI website. Targeted therapy Targeted therapy is a type of treatment that uses drugs or other substances to identify and attack specific cancer cells without harming normal cells. Monoclonal antibody therapy and tyrosine kinase inhibitors (TKIs) are types of targeted therapy being studied in the treatment of Kaposi sarcoma. Monoclonal antibody therapy is a cancer treatment that uses antibodies made in the laboratory from a single type of immune system cell. These antibodies can identify substances on cancer cells or normal substances that may help cancer cells grow. The antibodies attach to the substances and kill the cancer cells, block their growth, or keep them from spreading. Monoclonal antibodies are given by infusion. These may be used alone or to carry drugs, toxins, or radioactive material directly to cancer cells. Bevacizumab is a monoclonal antibody that is being studied in the treatment of Kaposi sarcoma. TKIs are targeted therapy drugs that block signals needed for tumors to grow. Imatinib mesylate is a TKI being studied in the treatment of Kaposi sarcoma. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials. Follow-up tests may be needed. Some of the tests that were done to diagnose the cancer or to find out the stage of the cancer may be repeated. Some tests will be repeated in order to see how well the treatment is working. Decisions about whether to continue, change, or stop treatment may be based on the results of these tests. Some of the tests will continue to be done from time to time after treatment has ended. The results of these tests can show if your condition has changed or if the cancer has recurred (come back). These tests are sometimes called follow-up tests or check-ups. Treatment Options for Kaposi Sarcoma Classic Kaposi Sarcoma Treatment for single lesions may include the following: - Radiation therapy. - Surgery. Treatment for lesions all over the body may include the following: - Radiation therapy. - Chemotherapy. - A clinical trial of electrochemotherapy. Treatment for Kaposi sarcoma that affects lymph nodes or the gastrointestinal tract usually includes chemotherapy with or without radiation therapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with classic Kaposi sarcoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Immunosuppressive Therapyrelated Kaposi Sarcoma Treatment for immunosuppressive therapyrelated Kaposi sarcoma may include the following: - Stopping or reducing immunosuppressive drug therapy. - Radiation therapy. - Chemotherapy using one or more anticancer drugs. Check the list of NCI-supported cancer clinical trials that are now accepting patients with immunosuppressive treatment related Kaposi sarcoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Epidemic Kaposi Sarcoma Treatment for epidemic Kaposi sarcoma may include the following: - Surgery, including local excision or electrodesiccation and curettage. - Cryosurgery. - Radiation therapy. - Chemotherapy using one or more anticancer drugs. - Biologic therapy. - A clinical trial of new drug therapy, biologic therapy, or targeted therapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with AIDS-related Kaposi sarcoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Recurrent Kaposi Sarcoma Treatment for recurrent Kaposi sarcoma depends on which type of Kaposi sarcoma the patient has. Treatment may include a clinical trial of a new therapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with recurrent Kaposi sarcoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website.
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Childhood Liver Cancer
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information
What is (are) Childhood Liver Cancer ?
Key Points - Childhood liver cancer is a disease in which malignant (cancer) cells form in the tissues of the liver. - There are different types of childhood liver cancer. - Certain diseases and disorders can increase the risk of childhood liver cancer. - Signs and symptoms of childhood liver cancer include a lump or pain in the abdomen. - Tests that examine the liver and the blood are used to detect (find) and diagnose childhood liver cancer and find out whether the cancer has spread. - Certain factors affect prognosis (chance of recovery) and treatment options. Childhood liver cancer is a disease in which malignant (cancer) cells form in the tissues of the liver. The liver is one of the largest organs in the body. It has four lobes and fills the upper right side of the abdomen inside the rib cage. Three of the many important functions of the liver are: - To filter harmful substances from the blood so they can be passed from the body in stools and urine. - To make bile to help digest fats from food. - To store glycogen (sugar), which the body uses for energy. Liver cancer is rare in children and adolescents. There are different types of childhood liver cancer. There are two main types of childhood liver cancer: - Hepatoblastoma: Hepatoblastoma is the most common type of childhood liver cancer. It usually affects children younger than 3 years of age. In hepatoblastoma, the histology (how the cancer cells look under a microscope) affects the way the cancer is treated. The histology for hepatoblastoma may be one of the following: - Pure fetal histology. - Small cell undifferentiated histology. - Non-pure fetal histology, non-small cell undifferentiated histology. - Hepatocellular carcinoma: Hepatocellular carcinoma usually affects older children and adolescents. It is more common in areas of Asia that have high rates of hepatitis infection than in the U.S. The treatment of two less common types of childhood liver cancer is also discussed in this summary: - Undifferentiated embryonal sarcoma of the liver: This type of liver cancer usually occurs in children between 5 and 10 years of age. It often spreads all through the liver and/or to the lungs. - Infantile choriocarcinoma of the liver is a very rare tumor that starts in the placenta and spreads to the fetus. The tumor is usually found during the first few months of life. Also, the mother of the child may be diagnosed with choriocarcinoma. Choriocarcinoma is a type of gestational trophoblastic disease and needs treatment. See the Gestational Trophoblastic Disease Treatment summary for information on the treatment of choriocarcinoma. This summary is about the treatment of primary liver cancer (cancer that begins in the liver). Treatment of metastatic liver cancer, which is cancer that begins in other parts of the body and spreads to the liver, is not discussed in this summary. Primary liver cancer can occur in both adults and children. However, treatment for children is different than treatment for adults. See the PDQ summary on Adult Primary Liver Cancer Treatment for more information on the treatment of adults.
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Childhood Liver Cancer
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susceptibility
Who is at risk for Childhood Liver Cancer? ?
Certain diseases and disorders can increase the risk of childhood liver cancer. Anything that increases your chance of getting a disease is called a risk factor. Having a risk factor does not mean that you will get cancer; not having risk factors doesnt mean that you will not get cancer. Talk with your childs doctor if you think your child may be at risk. Risk factors for hepatoblastoma include the following syndromes or conditions: - Aicardi syndrome. - Beckwith-Wiedemann syndrome. - Familial adenomatous polyposis (FAP). - Glycogen storage disease. - A very low weight at birth. - Simpson-Golabi-Behmel syndrome. - Certain genetic changes, such as Trisomy 18. Risk factors for hepatocellular carcinoma include the following syndromes or conditions: - Alagille syndrome. - Glycogen storage disease. - Hepatitis B virus infection that was passed from mother to child at birth. - Progressive familial intrahepatic disease. - Tyrosinemia. Some patients with tyrosinemia or progressive familial intrahepatic disease will have a liver transplant before there are signs or symptoms of cancer.
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Childhood Liver Cancer
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symptoms
What are the symptoms of Childhood Liver Cancer ?
Signs and symptoms of childhood liver cancer include a lump or pain in the abdomen. Signs and symptoms are more common after the tumor gets big. Other conditions can cause the same signs and symptoms. Check with your childs doctor if your child has any of the following: - A lump in the abdomen that may be painful. - Swelling in the abdomen. - Weight loss for no known reason. - Loss of appetite. - Nausea and vomiting.
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Childhood Liver Cancer
4
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exams and tests
How to diagnose Childhood Liver Cancer ?
Tests that examine the liver and the blood are used to detect (find) and diagnose childhood liver cancer and find out whether the cancer has spread. The following tests and procedures may be used: - Physical exam and history : An exam of the body to check general signs of health, including checking for signs of disease, such as lumps or anything else that seems unusual. A history of the patient's health habits and past illnesses and treatments will also be taken. - Serum tumor marker test : A procedure in which a blood sample is checked to measure the amounts of certain substances released into the blood by organs, tissues, or tumor cells in the body. Certain substances are linked to specific types of cancer when found in increased levels in the blood. These are called tumor markers. The blood of children who have liver cancer may have increased amounts of a hormone called beta-human chorionic gonadotropin (-hCG) or a protein called alpha-fetoprotein (AFP). Other cancers and certain noncancer conditions, including cirrhosis and hepatitis, can also increase AFP levels. - Complete blood count (CBC): A procedure in which a sample of blood is drawn and checked for the following: - The number of red blood cells, white blood cells, and platelets. - The amount of hemoglobin (the protein that carries oxygen) in the red blood cells. - The portion of the blood sample made up of red blood cells. - Liver function tests : A procedure in which a blood sample is checked to measure the amounts of certain substances released into the blood by the liver. A higher than normal amount of a substance can be a sign of liver damage or cancer. - Blood chemistry studies : A procedure in which a blood sample is checked to measure the amounts of certain substances, such as bilirubin or lactate dehydrogenase (LDH), released into the blood by organs and tissues in the body. An unusual (higher or lower than normal) amount of a substance can be a sign of disease. - Epstein-Barr virus (EBV) test: A blood test to check for antibodies to the EBV and DNA markers of the EBV. These are found in the blood of patients who have been infected with EBV. - Hepatitis assay : A procedure in which a blood sample is checked for pieces of the hepatitis virus. - MRI (magnetic resonance imaging) with gadolinium : A procedure that uses a magnet, radio waves, and a computer to make a series of detailed pictures of areas inside the liver. A substance called gadolinium is injected into a vein. The gadolinium collects around the cancer cells so they show up brighter in the picture. This procedure is also called nuclear magnetic resonance imaging (NMRI). - Ultrasound exam: A procedure in which high-energy sound waves (ultrasound) are bounced off internal tissues or organs and make echoes. The echoes form a picture of body tissues called a sonogram. The picture can be printed to be looked at later. In childhood liver cancer, an ultrasound exam of the abdomen to check the large blood vessels is usually done. - CT scan (CAT scan): A procedure that makes a series of detailed pictures of areas inside the body, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography. In childhood liver cancer, a CT scan of the chest and abdomen is usually done. - Abdominal x-ray : An x-ray of the organs in the abdomen. An x-ray is a type of energy beam that can go through the body onto film, making a picture of areas inside the body. - Biopsy : The removal of a sample of cells or tissues so it can be viewed under a microscope to check for signs of cancer. The sample may be taken during surgery to remove or view the tumor. A pathologist looks at the sample under a microscope to find out the type of liver cancer. The following test may be done on the sample of tissue that is removed: - Immunohistochemistry : A test that uses antibodies to check for certain antigens in a sample of tissue. The antibody is usually linked to a radioactive substance or a dye that causes the tissue to light up under a microscope. This type of test is used to check for a certain gene mutation and to tell the difference between different types of cancer.
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Childhood Liver Cancer
5
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outlook
What is the outlook for Childhood Liver Cancer ?
Certain factors affect prognosis (chance of recovery) and treatment options. The prognosis (chance of recovery) and treatment options for hepatoblastoma depend on the following: - The PRETEXT or POSTTEXT group. - Whether the cancer has spread to other places in the body, such as the lungs or certain large blood vessels. - Whether the cancer can be removed completely by surgery. - How the cancer responds to chemotherapy. - How the cancer cells look under a microscope. - Whether the AFP blood levels go down after treatment. - Whether the cancer has just been diagnosed or has recurred. - Age of the child. The prognosis (chance of recovery) and treatment options for hepatocellular carcinoma depend on the following: - The PRETEXT or POSTTEXT group. - Whether the cancer has spread to other places in the body, such as the lungs. - Whether the cancer can be removed completely by surgery. - How the cancer responds to chemotherapy. - How the cancer cells look under a microscope. - Whether the child has hepatitis B infection. - Whether the cancer has just been diagnosed or has recurred. For childhood liver cancer that recurs (comes back) after initial treatment, the prognosis and treatment options depend on: - Where in the body the tumor recurred. - The type of treatment used to treat the initial cancer. Childhood liver cancer may be cured if the tumor is small and can be completely removed by surgery. Complete removal is possible more often for hepatoblastoma than for hepatocellular carcinoma.
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Childhood Liver Cancer
6
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stages
What are the stages of Childhood Liver Cancer ?
Key Points - After childhood liver cancer has been diagnosed, tests are done to find out if cancer cells have spread within the liver or to other parts of the body. - There are two grouping systems for childhood liver cancer. - There are four PRETEXT and POSTTEXT groups: - PRETEXT and POSTTEXT Group I - PRETEXT and POSTTEXT Group II - PRETEXT and POSTTEXT Group III - PRETEXT and POSTTEXT Group IV - There are three ways that cancer spreads in the body. - Cancer may spread from where it began to other parts of the body. After childhood liver cancer has been diagnosed, tests are done to find out if cancer cells have spread within the liver or to other parts of the body. The process used to find out if cancer has spread within the liver, to nearby tissues or organs, or to other parts of the body is called staging. In childhood liver cancer, the PRETEXT and POSTTEXT groups are used instead of stage to plan treatment. The results of the tests and procedures done to detect, diagnose, and find out whether the cancer has spread are used to determine the PRETEXT and POSTTEXT groups. There are two grouping systems for childhood liver cancer. Two grouping systems are used for childhood liver cancer: - The PRETEXT group describes the tumor before the patient has treatment. - The POSTTEXT group describes the tumor after the patient has treatment. There are four PRETEXT and POSTTEXT groups: The liver is divided into 4 sections. The PRETEXT and POSTTEXT groups depend on which sections of the liver have cancer. PRETEXT and POSTTEXT Group I In group I, the cancer is found in one section of the liver. Three sections of the liver that are next to each other do not have cancer in them. PRETEXT and POSTTEXT Group II In group II, cancer is found in one or two sections of the liver. Two sections of the liver that are next to each other do not have cancer in them. PRETEXT and POSTTEXT Group III In group III, one of the following is true: - Cancer is found in three sections of the liver and one section does not have cancer. - Cancer is found in two sections of the liver and two sections that are not next to each other do not have cancer in them. PRETEXT and POSTTEXT Group IV In group IV, cancer is found in all four sections of the liver. There are three ways that cancer spreads in the body. Cancer can spread through tissue, the lymph system, and the blood: - Tissue. The cancer spreads from where it began by growing into nearby areas. - Lymph system. The cancer spreads from where it began by getting into the lymph system. The cancer travels through the lymph vessels to other parts of the body. - Blood. The cancer spreads from where it began by getting into the blood. The cancer travels through the blood vessels to other parts of the body. Cancer may spread from where it began to other parts of the body. When cancer spreads to another part of the body, it is called metastasis. Cancer cells break away from where they began (the primary tumor) and travel through the lymph system or blood. - Lymph system. The cancer gets into the lymph system, travels through the lymph vessels, and forms a tumor (metastatic tumor) in another part of the body. - Blood. The cancer gets into the blood, travels through the blood vessels, and forms a tumor (metastatic tumor) in another part of the body. The metastatic tumor is the same type of cancer as the primary tumor. For example, if childhood liver cancer spreads to the lung, the cancer cells in the lung are actually liver cancer cells. The disease is metastatic liver cancer, not lung cancer.
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Childhood Liver Cancer
7
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treatment
What are the treatments for Childhood Liver Cancer ?
Key Points - There are different types of treatment for patients with childhood liver cancer. - Children with liver cancer should have their treatment planned by a team of healthcare providers who are experts in treating this rare childhood cancer. - Some cancer treatments cause side effects months or years after treatment has ended. - Six types of standard treatment are used: - Surgery - Watchful waiting - Chemotherapy - Radiation therapy - Ablation therapy - Antiviral treatment - New types of treatment are being tested in clinical trials. - Targeted therapy - Patients may want to think about taking part in a clinical trial. - Patients can enter clinical trials before, during, or after starting their cancer treatment. - Follow-up tests may be needed. There are different types of treatment for patients with childhood liver cancer. Different types of treatments are available for children with liver cancer. Some treatments are standard (the currently used treatment), and some are being tested in clinical trials. A treatment clinical trial is a research study meant to help improve current treatments or obtain information on new treatments for patients with cancer. When clinical trials show that a new treatment is better than the standard treatment, the new treatment may become the standard treatment. Taking part in a clinical trial should be considered for all children with liver cancer. Some clinical trials are open only to patients who have not started treatment. Children with liver cancer should have their treatment planned by a team of healthcare providers who are experts in treating this rare childhood cancer. Treatment will be overseen by a pediatric oncologist, a doctor who specializes in treating children with cancer. The pediatric oncologist works with other healthcare providers who are experts in treating children with liver cancer and who specialize in certain areas of medicine. It is especially important to have a pediatric surgeon with experience in liver surgery who can send patients to a liver transplant program if needed. Other specialists may include the following: - Pediatrician. - Radiation oncologist. - Pediatric nurse specialist. - Rehabilitation specialist. - Psychologist. - Social worker. Some cancer treatments cause side effects months or years after treatment has ended. Side effects from cancer treatment that begin during or after treatment and continue for months or years are called late effects. Late effects of cancer treatment may include: - Physical problems. - Changes in mood, feelings, thinking, learning, or memory. - Second cancers (new types of cancer). Some late effects may be treated or controlled. It is important to talk with your child's doctors about the effects cancer treatment can have on your child. (See the PDQ summary on Late Effects of Treatment for Childhood Cancer for more information). Six types of standard treatment are used: Surgery When possible, the cancer is removed by surgery. - Partial hepatectomy: Removal of the part of the liver where cancer is found. The part removed may be a wedge of tissue, an entire lobe, or a larger part of the liver, along with a small amount of normal tissue around it. - Total hepatectomy and liver transplant: Removal of the entire liver followed by a transplant of a healthy liver from a donor. A liver transplant may be possible when cancer has not spread beyond the liver and a donated liver can be found. If the patient has to wait for a donated liver, other treatment is given as needed. - Resection of metastases: Surgery to remove cancer that has spread outside of the liver, such as to nearby tissues, the lungs, or the brain. Factors that affect the type of surgery used include the following: - The PRETEXT group and POSTTEXT group. - The size of the primary tumor. - Whether there is more than one tumor in the liver. - Whether the cancer has spread to nearby large blood vessels. - The level of alpha-fetoprotein (AFP) in the blood. - Whether the tumor can be shrunk by chemotherapy so that it can be removed by surgery. - Whether a liver transplant is needed. Chemotherapy is sometimes given before surgery, to shrink the tumor and make it easier to remove. This is called neoadjuvant therapy. Even if the doctor removes all the cancer that can be seen at the time of the surgery, some patients may be given chemotherapy or radiation therapy after surgery to kill any cancer cells that are left. Treatment given after the surgery, to lower the risk that the cancer will come back, is called adjuvant therapy. Watchful waiting Watchful waiting is closely monitoring a patients condition without giving any treatment until signs or symptoms appear or change. In hepatoblastoma, this treatment is only used for small tumors that have been completely removed by surgery. Chemotherapy Chemotherapy is a cancer treatment that uses drugs to stop the growth of cancer cells, either by killing the cells or by stopping them from dividing. When chemotherapy is taken by mouth or injected into a vein or muscle, the drugs enter the bloodstream and can reach cancer cells throughout the body (systemic chemotherapy). When chemotherapy is placed directly into the cerebrospinal fluid, an organ, or a body cavity such as the abdomen, the drugs mainly affect cancer cells in those areas (regional chemotherapy). Treatment using more than one anticancer drug is called combination chemotherapy. Chemoembolization of the hepatic artery (the main artery that supplies blood to the liver) is a type of regional chemotherapy used to treat childhood liver cancer. The anticancer drug is injected into the hepatic artery through a catheter (thin tube). The drug is mixed with a substance that blocks the artery, cutting off blood flow to the tumor. Most of the anticancer drug is trapped near the tumor and only a small amount of the drug reaches other parts of the body. The blockage may be temporary or permanent, depending on the substance used to block the artery. The tumor is prevented from getting the oxygen and nutrients it needs to grow. The liver continues to receive blood from the hepatic portal vein, which carries blood from the stomach and intestine. This procedure is also called transarterial chemoembolization or TACE. The way the chemotherapy is given depends on the type of the cancer being treated and the PRETEXT or POSTTEXT group. Radiation therapy Radiation therapy is a cancer treatment that uses high-energy x-rays or other types of radiation to kill cancer cells or keep them from growing. There are two types of radiation therapy: - External radiation therapy uses a machine outside the body to send radiation toward the cancer. - Internal radiation therapy uses a radioactive substance sealed in needles, seeds, wires, or catheters that are placed directly into or near the cancer. The way the radiation therapy is given depends on the type of the cancer being treated and the PRETEXT or POSTTEXT group. Radioembolization of the hepatic artery (the main artery that supplies blood to the liver) is a type of internal radiation therapy used to treat hepatocellular carcinoma. A very small amount of a radioactive substance is attached to tiny beads that are injected into the hepatic artery through a catheter (thin tube). The beads are mixed with a substance that blocks the artery, cutting off blood flow to the tumor. Most of the radiation is trapped near the tumor to kill the cancer cells. This is done to relieve symptoms and improve quality of life for children with hepatocellular carcinoma. External radiation therapy is used to treat hepatoblastoma that cannot be removed by surgery or has spread to other parts of the body. Ablation therapy Ablation therapy removes or destroys tissue. Different types of ablation therapy are used for liver cancer: - Radiofrequency ablation: The use of special needles that are inserted directly through the skin or through an incision in the abdomen to reach the tumor. High-energy radio waves heat the needles and tumor which kills cancer cells. Radiofrequency ablation is being used to treat recurrent hepatoblastoma. - Percutaneous ethanol injection: A small needle is used to inject ethanol (pure alcohol) directly into a tumor to kill cancer cells. Several treatments may be needed. Percutaneous ethanol injection is being used to treat recurrent hepatoblastoma. Antiviral treatment Hepatocellular carcinoma that is linked to the hepatitis B virus may be treated with antiviral drugs. New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI website. Targeted therapy Targeted therapy is a type of treatment that uses drugs or other substances to attack specific cancer cells. Targeted therapies usually cause less harm to normal cells than chemotherapy or radiation therapy do. Targeted therapy is being studied for the treatment of undifferentiated embryonal sarcoma of the liver and liver cancer that has come back. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials. Follow-up tests may be needed. Some of the tests that were done to diagnose the cancer or to find out the treatment group may be repeated. Some tests will be repeated in order to see how well the treatment is working. Decisions about whether to continue, change, or stop treatment may be based on the results of these tests. Some of the tests will continue to be done from time to time after treatment has ended. The results of these tests can show if your condition has changed or if the cancer has recurred (come back). These tests are sometimes called follow-up tests or check-ups. Treatment Options for Childhood Liver Cancer Hepatoblastoma Treatment options for hepatoblastoma that can be removed by surgery at the time of diagnosis may include the following: - Surgery to remove the tumor, followed by watchful waiting or chemotherapy, for hepatoblastoma with pure fetal histology. - Surgery to remove the tumor, with combination chemotherapy given either before surgery, after surgery, or both, for hepatoblastoma that is not pure fetal histology. For hepatoblastoma with small cell undifferentiated histology, aggressive chemotherapy is given. Treatment options for hepatoblastoma that cannot be removed by surgery or is not removed at the time of diagnosis may include the following: - Combination chemotherapy to shrink the tumor, followed by surgery to remove the tumor. - Combination chemotherapy followed by a liver transplant. - Chemoembolization of the hepatic artery to shrink the tumor, followed by surgery to remove the tumor. For hepatoblastoma that has spread to other parts of the body at the time of diagnosis, combination chemotherapy is given to shrink the cancer in the liver and cancer that has spread to other parts of the body. After chemotherapy, imaging tests are done to check whether the cancer can be removed by surgery. Treatment options may include the following: - If the cancer in the liver and other parts of the body can be removed, surgery will be done to remove the tumors followed by chemotherapy to kill any cancer cells that may remain. - If the cancer in the liver cannot be removed by surgery but there are no signs of cancer in other parts of the body, the treatment may be a liver transplant. - If the cancer in other parts of the body cannot be removed or a liver transplant is not possible, chemotherapy, chemoembolization of the hepatic artery, or radiation therapy may be given. Treatment options in clinical trials for newly diagnosed hepatoblastoma include: - A clinical trial of new treatment regimens based on how likely it is the cancer will recur after initial treatment. Hepatocellular Carcinoma Treatment options for hepatocellular carcinoma that can be removed by surgery at the time of diagnosis may include the following: - Surgery alone to remove the tumor. - Surgery to remove the tumor, followed by chemotherapy. - Combination chemotherapy followed by surgery to remove the tumor. Treatment options for hepatocellular carcinoma that cannot be removed by surgery at the time of diagnosis may include the following: - Chemotherapy to shrink the tumor, followed by surgery to completely remove the tumor. - Chemotherapy to shrink the tumor. If surgery to completely remove the tumor is not possible, further treatment may include the following: - Liver transplant. - Chemoembolization of the hepatic artery to shrink the tumor, followed by surgery to remove as much of the tumor as possible or liver transplant. - Chemoembolization of the hepatic artery alone. - Radioembolization of the hepatic artery as palliative therapy to relieve symptoms and improve the quality of life. Treatment for hepatocellular carcinoma that has spread to other parts of the body at the time of diagnosis may include: - Combination chemotherapy to shrink the tumor, followed by surgery to remove as much of the tumor as possible from the liver and other places where cancer has spread. Studies have not shown that this treatment works well but some patients may have some benefit. Treatment options for hepatocellular carcinoma related to hepatitis B virus (HBV) infection include: - Surgery to remove the tumor. - Antiviral drugs that treat infection caused by the hepatitis B virus. Undifferentiated Embryonal Sarcoma of the Liver Treatment options for undifferentiated embryonal sarcoma of the liver (UESL) may include the following: - Combination chemotherapy to shrink the tumor, followed by surgery to remove as much of the tumor as possible. Chemotherapy may also be given after surgery to remove the tumor. - Surgery to remove the tumor followed by chemotherapy. A second surgery may be done to remove tumor that remains, followed by more chemotherapy. - Liver transplant if surgery to remove the tumor is not possible. - A clinical trial of a combination of targeted therapy, chemotherapy and/or radiation therapy before surgery. Infantile Choriocarcinoma of the Liver Treatment options for choriocarcinoma of the liver in infants may include the following: - Combination chemotherapy to shrink the tumor, followed by surgery to remove the tumor. - Surgery to remove the tumor. Recurrent Childhood Liver Cancer Treatment of recurrent hepatoblastoma may include the following: - Surgery to remove isolated (single and separate) metastatic tumors with or without chemotherapy. - Combination chemotherapy. - Liver transplant. - Ablation therapy (radiofrequency ablation or percutaneous ethanol injection). - A clinical trial of a new treatment. Treatment of progressive or recurrent hepatocellular carcinoma may include the following: - Chemoembolization of the hepatic artery to shrink the tumor before liver transplant. - Liver transplant. - A clinical trial of a new treatment. Treatment Options in Clinical Trials Check the list of NCI-supported cancer clinical trials that are now accepting patients with childhood liver cancer. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your child's doctor about clinical trials that may be right for your child. General information about clinical trials is available from the NCI website.
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Childhood Liver Cancer
8
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research
what research (or clinical trials) is being done for Childhood Liver Cancer ?
New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI website. Targeted therapy Targeted therapy is a type of treatment that uses drugs or other substances to attack specific cancer cells. Targeted therapies usually cause less harm to normal cells than chemotherapy or radiation therapy do. Targeted therapy is being studied for the treatment of undifferentiated embryonal sarcoma of the liver and liver cancer that has come back. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials. Treatment Options in Clinical Trials Check the list of NCI-supported cancer clinical trials that are now accepting patients with childhood liver cancer. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your child's doctor about clinical trials that may be right for your child. General information about clinical trials is available from the NCI website.
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Testicular Cancer
2
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susceptibility
Who is at risk for Testicular Cancer? ?
Health history can affect the risk of testicular cancer. Anything that increases the chance of getting a disease is called a risk factor. Having a risk factor does not mean that you will get cancer; not having risk factors doesnt mean that you will not get cancer. Talk with your doctor if you think you may be at risk. Risk factors for testicular cancer include: - Having had an undescended testicle. - Having had abnormal development of the testicles. - Having a personal history of testicular cancer. - Having a family history of testicular cancer (especially in a father or brother). - Being white. Treatment for testicular cancer can cause infertility. Certain treatments for testicular cancer can cause infertility that may be permanent. Patients who may wish to have children should consider sperm banking before having treatment. Sperm banking is the process of freezing sperm and storing it for later use.
0000021_1
Testicular Cancer
6
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stages
What are the stages of Testicular Cancer ?
Key Points - After testicular cancer has been diagnosed, tests are done to find out if cancer cells have spread within the testicles or to other parts of the body. - There are three ways that cancer spreads in the body. - Cancer may spread from where it began to other parts of the body. - The following stages are used for testicular cancer: - Stage 0 (Testicular Intraepithelial Neoplasia) - Stage I - Stage II - Stage III After testicular cancer has been diagnosed, tests are done to find out if cancer cells have spread within the testicles or to other parts of the body. The process used to find out if cancer has spread within the testicles or to other parts of the body is called staging. The information gathered from the staging process determines the stage of the disease. It is important to know the stage in order to plan treatment. The following tests and procedures may be used in the staging process: - Chest x-ray : An x-ray of the organs and bones inside the chest. An x-ray is a type of energy beam that can go through the body and onto film, making a picture of areas inside the body. - CT scan (CAT scan): A procedure that makes a series of detailed pictures of areas inside the body, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography. - PET scan (positron emission tomography scan): A procedure to find malignant tumor cells in the body. A small amount of radioactive glucose (sugar) is injected into a vein. The PET scanner rotates around the body and makes a picture of where glucose is being used in the body. Malignant tumor cells show up brighter in the picture because they are more active and take up more glucose than normal cells do. - MRI (magnetic resonance imaging): A procedure that uses a magnet, radio waves, and a computer to make a series of detailed pictures of areas inside the body. This procedure is also called nuclear magnetic resonance imaging (NMRI). - Abdominal lymph node dissection : A surgical procedure in which lymph nodes in the abdomen are removed and a sample of tissue is checked under a microscope for signs of cancer. This procedure is also called lymphadenectomy. For patients with nonseminoma, removing the lymph nodes may help stop the spread of disease. Cancer cells in the lymph nodes of seminoma patients can be treated with radiation therapy. - Serum tumor marker test : A procedure in which a sample of blood is examined to measure the amounts of certain substances released into the blood by organs, tissues, or tumor cells in the body. Certain substances are linked to specific types of cancer when found in increased levels in the blood. These are called tumor markers. The following 3 tumor markers are used in staging testicular cancer: - Alpha-fetoprotein (AFP) - Beta-human chorionic gonadotropin (-hCG). - Lactate dehydrogenase (LDH). Tumor marker levels are measured again, after inguinal orchiectomy and biopsy, in order to determine the stage of the cancer. This helps to show if all of the cancer has been removed or if more treatment is needed. Tumor marker levels are also measured during follow-up as a way of checking if the cancer has come back. There are three ways that cancer spreads in the body. Cancer can spread through tissue, the lymph system, and the blood: - Tissue. The cancer spreads from where it began by growing into nearby areas. - Lymph system. The cancer spreads from where it began by getting into the lymph system. The cancer travels through the lymph vessels to other parts of the body. - Blood. The cancer spreads from where it began by getting into the blood. The cancer travels through the blood vessels to other parts of the body. Cancer may spread from where it began to other parts of the body. When cancer spreads to another part of the body, it is called metastasis. Cancer cells break away from where they began (the primary tumor) and travel through the lymph system or blood. - Lymph system. The cancer gets into the lymph system, travels through the lymph vessels, and forms a tumor (metastatic tumor) in another part of the body. - Blood. The cancer gets into the blood, travels through the blood vessels, and forms a tumor (metastatic tumor) in another part of the body. The metastatic tumor is the same type of cancer as the primary tumor. For example, if testicular cancer spreads to the lung, the cancer cells in the lung are actually testicular cancer cells. The disease is metastatic testicular cancer, not lung cancer. The following stages are used for testicular cancer: Stage 0 (Testicular Intraepithelial Neoplasia) In stage 0, abnormal cells are found in the tiny tubules where the sperm cells begin to develop. These abnormal cells may become cancer and spread into nearby normal tissue. All tumor marker levels are normal. Stage 0 is also called testicular intraepithelial neoplasia and testicular intratubular germ cell neoplasia. Stage I In stage I, cancer has formed. Stage I is divided into stage IA, stage IB, and stage IS and is determined after an inguinal orchiectomy is done. - In stage IA, cancer is in the testicle and epididymis and may have spread to the inner layer of the membrane surrounding the testicle. All tumor marker levels are normal. - In stage IB, cancer: - is in the testicle and the epididymis and has spread to the blood vessels or lymph vessels in the testicle; or - has spread to the outer layer of the membrane surrounding the testicle; or - is in the spermatic cord or the scrotum and may be in the blood vessels or lymph vessels of the testicle. All tumor marker levels are normal. - In stage IS, cancer is found anywhere within the testicle, spermatic cord, or the scrotum and either: - all tumor marker levels are slightly above normal; or - one or more tumor marker levels are moderately above normal or high. Stage II Stage II is divided into stage IIA, stage IIB, and stage IIC and is determined after an inguinal orchiectomy is done. - In stage IIA, cancer: - is anywhere within the testicle, spermatic cord, or scrotum; and - has spread to up to 5 lymph nodes in the abdomen, none larger than 2 centimeters. All tumor marker levels are normal or slightly above normal. - In stage IIB, cancer is anywhere within the testicle, spermatic cord, or scrotum; and either: - has spread to up to 5 lymph nodes in the abdomen; at least one of the lymph nodes is larger than 2 centimeters, but none are larger than 5 centimeters; or - has spread to more than 5 lymph nodes; the lymph nodes are not larger than 5 centimeters. All tumor marker levels are normal or slightly above normal. - In stage IIC, cancer: - is anywhere within the testicle, spermatic cord, or scrotum; and - has spread to a lymph node in the abdomen that is larger than 5 centimeters. All tumor marker levels are normal or slightly above normal. Stage III Stage III is divided into stage IIIA, stage IIIB, and stage IIIC and is determined after an inguinal orchiectomy is done. - In stage IIIA, cancer: - is anywhere within the testicle, spermatic cord, or scrotum; and - may have spread to one or more lymph nodes in the abdomen; and - has spread to distant lymph nodes or to the lungs. Tumor marker levels may range from normal to slightly above normal. - In stage IIIB, cancer: - is anywhere within the testicle, spermatic cord, or scrotum; and - may have spread to one or more lymph nodes in the abdomen, to distant lymph nodes, or to the lungs. The level of one or more tumor markers is moderately above normal. - In stage IIIC, cancer: - is anywhere within the testicle, spermatic cord, or scrotum; and - may have spread to one or more lymph nodes in the abdomen, to distant lymph nodes, or to the lungs. The level of one or more tumor markers is high. or Cancer: - is anywhere within the testicle, spermatic cord, or scrotum; and - may have spread to one or more lymph nodes in the abdomen; and - has not spread to distant lymph nodes or the lung but has spread to other parts of the body. Tumor marker levels may range from normal to high.
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Testicular Cancer
7
0000021_1-7
treatment
What are the treatments for Testicular Cancer ?
Key Points - There are different types of treatment for patients with testicular cancer. - Testicular tumors are divided into 3 groups, based on how well the tumors are expected to respond to treatment. - Good Prognosis - Intermediate Prognosis - Poor Prognosis - Five types of standard treatment are used: - Surgery - Radiation therapy - Chemotherapy - Surveillance - High-dose chemotherapy with stem cell transplant - New types of treatment are being tested in clinical trials. - Patients may want to think about taking part in a clinical trial. - Patients can enter clinical trials before, during, or after starting their cancer treatment. - Follow-up tests may be needed. There are different types of treatment for patients with testicular cancer. Different types of treatments are available for patients with testicular cancer. Some treatments are standard (the currently used treatment), and some are being tested in clinical trials. A treatment clinical trial is a research study meant to help improve current treatments or obtain information on new treatments for patients with cancer. When clinical trials show that a new treatment is better than the standard treatment, the new treatment may become the standard treatment. Patients may want to think about taking part in a clinical trial. Some clinical trials are open only to patients who have not started treatment. Testicular tumors are divided into 3 groups, based on how well the tumors are expected to respond to treatment. Good Prognosis For nonseminoma, all of the following must be true: - The tumor is found only in the testicle or in the retroperitoneum (area outside or behind the abdominal wall); and - The tumor has not spread to organs other than the lungs; and - The levels of all the tumor markers are slightly above normal. For seminoma, all of the following must be true: - The tumor has not spread to organs other than the lungs; and - The level of alpha-fetoprotein (AFP) is normal. Beta-human chorionic gonadotropin (-hCG) and lactate dehydrogenase (LDH) may be at any level. Intermediate Prognosis For nonseminoma, all of the following must be true: - The tumor is found in one testicle only or in the retroperitoneum (area outside or behind the abdominal wall); and - The tumor has not spread to organs other than the lungs; and - The level of any one of the tumor markers is more than slightly above normal. For seminoma, all of the following must be true: - The tumor has spread to organs other than the lungs; and - The level of AFP is normal. -hCG and LDH may be at any level. Poor Prognosis For nonseminoma, at least one of the following must be true: - The tumor is in the center of the chest between the lungs; or - The tumor has spread to organs other than the lungs; or - The level of any one of the tumor markers is high. There is no poor prognosis grouping for seminoma testicular tumors. Five types of standard treatment are used: Surgery Surgery to remove the testicle (inguinal orchiectomy) and some of the lymph nodes may be done at diagnosis and staging. (See the General Information and Stages sections of this summary.) Tumors that have spread to other places in the body may be partly or entirely removed by surgery. Even if the doctor removes all the cancer that can be seen at the time of the surgery, some patients may be given chemotherapy or radiation therapy after surgery to kill any cancer cells that are left. Treatment given after the surgery, to lower the risk that the cancer will come back, is called adjuvant therapy. Radiation therapy Radiation therapy is a cancer treatment that uses high-energy x-rays or other types of radiation to kill cancer cells or keep them from growing. There are two types of radiation therapy: - External radiation therapy uses a machine outside the body to send radiation toward the cancer. - Internal radiation therapy uses a radioactive substance sealed in needles, seeds, wires, or catheters that are placed directly into or near the cancer. The way the radiation therapy is given depends on the type and stage of the cancer being treated. External radiation therapy is used to treat testicular cancer. Chemotherapy Chemotherapy is a cancer treatment that uses drugs to stop the growth of cancer cells, either by killing the cells or by stopping the cells from dividing. When chemotherapy is taken by mouth or injected into a vein or muscle, the drugs enter the bloodstream and can reach cancer cells throughout the body (systemic chemotherapy). When chemotherapy is placed directly into the cerebrospinal fluid, an organ, or a body cavity such as the abdomen, the drugs mainly affect cancer cells in those areas (regional chemotherapy). The way the chemotherapy is given depends on the type and stage of the cancer being treated. See Drugs Approved for Testicular Cancer for more information. Surveillance Surveillance is closely following a patient's condition without giving any treatment unless there are changes in test results. It is used to find early signs that the cancer has recurred (come back). In surveillance, patients are given certain exams and tests on a regular schedule. High-dose chemotherapy with stem cell transplant High-dose chemotherapy with stem cell transplant is a method of giving high doses of chemotherapy and replacing blood -forming cells destroyed by the cancer treatment. Stem cells (immature blood cells) are removed from the blood or bone marrow of the patient or a donor and are frozen and stored. After the chemotherapy is completed, the stored stem cells are thawed and given back to the patient through an infusion. These reinfused stem cells grow into (and restore) the bodys blood cells. See Drugs Approved for Testicular Cancer for more information. New types of treatment are being tested in clinical trials. Information about clinical trials is available from the NCI website. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials. Follow-up tests may be needed. Some of the tests that were done to diagnose the cancer or to find out the stage of the cancer may be repeated. Some tests will be repeated in order to see how well the treatment is working. Decisions about whether to continue, change, or stop treatment may be based on the results of these tests. Some of the tests will continue to be done from time to time after treatment has ended. The results of these tests can show if your condition has changed or if the cancer has recurred (come back). These tests are sometimes called follow-up tests or check-ups. Men who have had testicular cancer have an increased risk of developing cancer in the other testicle. A patient is advised to regularly check the other testicle and report any unusual symptoms to a doctor right away. Long-term clinical exams are very important. The patient will probably have check-ups frequently during the first year after surgery and less often after that. Treatment Options by Stage Stage 0 (Testicular Intraepithelial Neoplasia) Treatment of stage 0 may include the following: - Radiation therapy. - Surveillance. - Surgery to remove the testicle. Check the list of NCI-supported cancer clinical trials that are now accepting patients with testicular cancer. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Stage I Testicular Cancer Treatment of stage I testicular cancer depends on whether the cancer is a seminoma or a nonseminoma. Treatment of seminoma may include the following: - Surgery to remove the testicle, followed by surveillance. - For patients who want active treatment rather than surveillance, treatment may include: - - Surgery to remove the testicle, followed by chemotherapy. Treatment of nonseminoma may include the following: - Surgery to remove the testicle, with long-term follow-up. - Surgery to remove the testicle and lymph nodes in the abdomen, with long-term follow-up. - Surgery followed by chemotherapy for patients at high risk of recurrence, with long-term follow-up. Check the list of NCI-supported cancer clinical trials that are now accepting patients with stage I testicular cancer. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Stage II Testicular Cancer Treatment of stage II testicular cancer depends on whether the cancer is a seminoma or a nonseminoma. Treatment of seminoma may include the following: - When the tumor is 5 centimeters or smaller: - Surgery to remove the testicle, followed by radiation therapy to lymph nodes in the abdomen and pelvis. - Combination chemotherapy. - Surgery to remove the testicle and lymph nodes in the abdomen. - When the tumor is larger than 5 centimeters: - Surgery to remove the testicle, followed by combination chemotherapy or radiation therapy to lymph nodes in the abdomen and pelvis, with long-term follow-up. Treatment of nonseminoma may include the following: - Surgery to remove the testicle and lymph nodes, with long-term follow-up. - Surgery to remove the testicle and lymph nodes, followed by combination chemotherapy and long-term follow-up. - Surgery to remove the testicle, followed by combination chemotherapy and a second surgery if cancer remains, with long-term follow-up. - Combination chemotherapy before surgery to remove the testicle, for cancer that has spread and is thought to be life-threatening. Check the list of NCI-supported cancer clinical trials that are now accepting patients with stage II testicular cancer. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Stage III Testicular Cancer Treatment of stage III testicular cancer depends on whether the cancer is a seminoma or a nonseminoma. Treatment of seminoma may include the following: - Surgery to remove the testicle, followed by combination chemotherapy. If there are tumors remaining after chemotherapy, treatment may be one of the following: - Surveillance with no treatment unless tumors grow. - Surveillance for tumors smaller than 3 centimeters and surgery to remove tumors larger than 3 centimeters. - A PET scan two months after chemotherapy and surgery to remove tumors that show up with cancer on the scan. - A clinical trial of chemotherapy. Treatment of nonseminoma may include the following: - Surgery to remove the testicle, followed by combination chemotherapy. - Combination chemotherapy followed by surgery to remove the testicle and all remaining tumors. Additional chemotherapy may be given if the tumor tissue removed contains cancer cells that are growing or if follow-up tests show that cancer is progressing. - Combination chemotherapy before surgery to remove the testicle, for cancer that has spread and is thought to be life-threatening. - A clinical trial of chemotherapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with stage III testicular cancer. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website.
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Testicular Cancer
8
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research
what research (or clinical trials) is being done for Testicular Cancer ?
New types of treatment are being tested in clinical trials. Information about clinical trials is available from the NCI website. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials.
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Penile Cancer
1
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information
What is (are) Penile Cancer ?
Key Points - Penile cancer is a disease in which malignant (cancer) cells form in the tissues of the penis. - Human papillomavirus infection may increase the risk of developing penile cancer. - Signs of penile cancer include sores, discharge, and bleeding. - Tests that examine the penis are used to detect (find) and diagnose penile cancer. - Certain factors affect prognosis (chance of recovery) and treatment options. Penile cancer is a disease in which malignant (cancer) cells form in the tissues of the penis. The penis is a rod-shaped male reproductive organ that passes sperm and urine from the body. It contains two types of erectile tissue (spongy tissue with blood vessels that fill with blood to make an erection): - Corpora cavernosa: The two columns of erectile tissue that form most of the penis. - Corpus spongiosum: The single column of erectile tissue that forms a small portion of the penis. The corpus spongiosum surrounds the urethra (the tube through which urine and sperm pass from the body). The erectile tissue is wrapped in connective tissue and covered with skin. The glans (head of the penis) is covered with loose skin called the foreskin.
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Penile Cancer
2
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susceptibility
Who is at risk for Penile Cancer? ?
Human papillomavirus infection may increase the risk of developing penile cancer. Anything that increases your chance of getting a disease is called a risk factor. Having a risk factor does not mean that you will get cancer; not having risk factors doesn't mean that you will not get cancer. Talk with your doctor if you think you may be at risk. Risk factors for penile cancer include the following: Circumcision may help prevent infection with the human papillomavirus (HPV). A circumcision is an operation in which the doctor removes part or all of the foreskin from the penis. Many boys are circumcised shortly after birth. Men who were not circumcised at birth may have a higher risk of developing penile cancer. Other risk factors for penile cancer include the following: - Being age 60 or older. - Having phimosis (a condition in which the foreskin of the penis cannot be pulled back over the glans). - Having poor personal hygiene. - Having many sexual partners. - Using tobacco products.
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Penile Cancer
3
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symptoms
What are the symptoms of Penile Cancer ?
Signs of penile cancer include sores, discharge, and bleeding. These and other signs may be caused by penile cancer or by other conditions. Check with your doctor if you have any of the following: - Redness, irritation, or a sore on the penis. - A lump on the penis.
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Penile Cancer
4
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exams and tests
How to diagnose Penile Cancer ?
Tests that examine the penis are used to detect (find) and diagnose penile cancer. The following tests and procedures may be used: - Physical exam and history : An exam of the body to check general signs of health, including checking the penis for signs of disease, such as lumps or anything else that seems unusual. A history of the patients health habits and past illnesses and treatments will also be taken. - Biopsy : The removal of cells or tissues so they can be viewed under a microscope by a pathologist to check for signs of cancer. The tissue sample is removed during one of the following procedures: - Fine-needle aspiration (FNA) biopsy : The removal of tissue or fluid using a thin needle. - Incisional biopsy : The removal of part of a lump or a sample of tissue that doesn't look normal. - Excisional biopsy : The removal of an entire lump or area of tissue that doesnt look normal.
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Penile Cancer
5
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outlook
What is the outlook for Penile Cancer ?
Certain factors affect prognosis (chance of recovery) and treatment options. The prognosis (chance of recovery) and treatment options depend on the following: - The stage of the cancer. - The location and size of the tumor. - Whether the cancer has just been diagnosed or has recurred (come back).
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Penile Cancer
6
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stages
What are the stages of Penile Cancer ?
Key Points - After penile cancer has been diagnosed, tests are done to find out if cancer cells have spread within the penis or to other parts of the body. - There are three ways that cancer spreads in the body. - Cancer may spread from where it began to other parts of the body. - The following stages are used for penile cancer: - Stage 0 (Carcinoma in Situ) - Stage I - Stage II - Stage III - Stage IV After penile cancer has been diagnosed, tests are done to find out if cancer cells have spread within the penis or to other parts of the body. The process used to find out if cancer has spread within the penis or to other parts of the body is called staging. The information gathered from the staging process determines the stage of the disease. It is important to know the stage in order to plan treatment. The following tests and procedures may be used in the staging process: - CT scan (CAT scan): A procedure that makes a series of detailed pictures of areas inside the body, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography. - MRI (magnetic resonance imaging): A procedure that uses a magnet, radio waves, and a computer to make a series of detailed pictures of areas inside the body. A substance called gadolinium is injected into a vein. The gadolinium collects around the cancer cells so they show up brighter in the picture. This procedure is also called nuclear magnetic resonance imaging (NMRI). - Ultrasound exam: A procedure in which high-energy sound waves (ultrasound) are bounced off internal tissues or organs and make echoes. The echoes form a picture of body tissues called a sonogram. - Chest x-ray : An x-ray of the organs and bones inside the chest. An x-ray is a type of energy beam that can go through the body and onto film, making a picture of areas inside the body. - Biopsy : The removal of cells or tissues so they can be viewed under a microscope by a pathologist to check for signs of cancer. The tissue sample is removed during one of the following procedures: - Sentinel lymph node biopsy : The removal of the sentinel lymph node during surgery. The sentinel lymph node is the first lymph node to receive lymphatic drainage from a tumor. It is the first lymph node the cancer is likely to spread to from the tumor. A radioactive substance and/or blue dye is injected near the tumor. The substance or dye flows through the lymph ducts to the lymph nodes. The first lymph node to receive the substance or dye is removed. A pathologist views the tissue under a microscope to look for cancer cells. If cancer cells are not found, it may not be necessary to remove more lymph nodes. - Lymph node dissection : A procedure to remove one or more lymph nodes during surgery. A sample of tissue is checked under a microscope for signs of cancer. This procedure is also called a lymphadenectomy. There are three ways that cancer spreads in the body. Cancer can spread through tissue, the lymph system, and the blood: - Tissue. The cancer spreads from where it began by growing into nearby areas. - Lymph system. The cancer spreads from where it began by getting into the lymph system. The cancer travels through the lymph vessels to other parts of the body. - Blood. The cancer spreads from where it began by getting into the blood. The cancer travels through the blood vessels to other parts of the body. Cancer may spread from where it began to other parts of the body. When cancer spreads to another part of the body, it is called metastasis. Cancer cells break away from where they began (the primary tumor) and travel through the lymph system or blood. - Lymph system. The cancer gets into the lymph system, travels through the lymph vessels, and forms a tumor (metastatic tumor) in another part of the body. - Blood. The cancer gets into the blood, travels through the blood vessels, and forms a tumor (metastatic tumor) in another part of the body. The metastatic tumor is the same type of cancer as the primary tumor. For example, if penile cancer spreads to the lung, the cancer cells in the lung are actually penile cancer cells. The disease is metastatic penile cancer, not lung cancer. The following stages are used for penile cancer: Stage 0 (Carcinoma in Situ) In stage 0, abnormal cells or growths that look like warts are found on the surface of the skin of the penis. These abnormal cells or growths may become cancer and spread into nearby normal tissue. Stage 0 is also called carcinoma in situ. Stage I In stage I, cancer has formed and spread to connective tissue just under the skin of the penis. Cancer has not spread to lymph vessels or blood vessels. The tumor cells look a lot like normal cells under a microscope. Stage II In stage II, cancer has spread: - to connective tissue just under the skin of the penis. Also, cancer has spread to lymph vessels or blood vessels or the tumor cells may look very different from normal cells under a microscope; or - through connective tissue to erectile tissue (spongy tissue that fills with blood to make an erection); or - beyond erectile tissue to the urethra. Stage III Stage III is divided into stage IIIa and stage IIIb. In stage IIIa, cancer has spread to one lymph node in the groin. Cancer has also spread: - to connective tissue just under the skin of the penis. Also, cancer may have spread to lymph vessels or blood vessels or the tumor cells may look very different from normal cells under a microscope; or - through connective tissue to erectile tissue (spongy tissue that fills with blood to make an erection); or - beyond erectile tissue to the urethra. In stage IIIb, cancer has spread to more than one lymph node on one side of the groin or to lymph nodes on both sides of the groin. Cancer has also spread: - to connective tissue just under the skin of the penis. Also, cancer may have spread to lymph vessels or blood vessels or the tumor cells may look very different from normal cells under a microscope; or - through connective tissue to erectile tissue (spongy tissue that fills with blood to make an erection); or - beyond erectile tissue to the urethra. Stage IV In stage IV, cancer has spread: - to tissues near the penis such as the prostate, and may have spread to lymph nodes in the groin or pelvis; or - to one or more lymph nodes in the pelvis, or cancer has spread from the lymph nodes to the tissues around the lymph nodes; or - to distant parts of the body.
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Penile Cancer
7
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treatment
What are the treatments for Penile Cancer ?
Key Points - There are different types of treatment for patients with penile cancer. - Four types of standard treatment are used: - Surgery - Radiation therapy - Chemotherapy - Biologic therapy - New types of treatment are being tested in clinical trials. - Radiosensitizers - Sentinel lymph node biopsy followed by surgery - Patients may want to think about taking part in a clinical trial. - Patients can enter clinical trials before, during, or after starting their cancer treatment. - Follow-up tests may be needed. There are different types of treatment for patients with penile cancer. Different types of treatments are available for patients with penile cancer. Some treatments are standard (the currently used treatment), and some are being tested in clinical trials. A treatment clinical trial is a research study meant to help improve current treatments or obtain information on new treatments for patients with cancer. When clinical trials show that a new treatment is better than the standard treatment, the new treatment may become the standard treatment. Patients may want to think about taking part in a clinical trial. Some clinical trials are open only to patients who have not started treatment. Four types of standard treatment are used: Surgery Surgery is the most common treatment for all stages of penile cancer. A doctor may remove the cancer using one of the following operations: - Mohs microsurgery: A procedure in which the tumor is cut from the skin in thin layers. During the surgery, the edges of the tumor and each layer of tumor removed are viewed through a microscope to check for cancer cells. Layers continue to be removed until no more cancer cells are seen. This type of surgery removes as little normal tissue as possible and is often used to remove cancer on the skin. It is also called Mohs surgery. - Laser surgery: A surgical procedure that uses a laser beam (a narrow beam of intense light) as a knife to make bloodless cuts in tissue or to remove a surface lesion such as a tumor. - Cryosurgery: A treatment that uses an instrument to freeze and destroy abnormal tissue. This type of treatment is also called cryotherapy. - Circumcision: Surgery to remove part or all of the foreskin of the penis. - Wide local excision: Surgery to remove only the cancer and some normal tissue around it. - Amputation of the penis: Surgery to remove part or all of the penis. If part of the penis is removed, it is a partial penectomy. If all of the penis is removed, it is a total penectomy. Lymph nodes in the groin may be taken out during surgery. Even if the doctor removes all the cancer that can be seen at the time of the surgery, some patients may be given chemotherapy or radiation therapy after surgery to kill any cancer cells that are left. Treatment given after the surgery, to lower the risk that the cancer will come back, is called adjuvant therapy. Radiation therapy Radiation therapy is a cancer treatment that uses high-energy x-rays or other types of radiation to kill cancer cells or keep them from growing. There are two types of radiation therapy: - External radiation therapy uses a machine outside the body to send radiation toward the cancer. - Internal radiation therapy uses a radioactive substance sealed in needles, seeds, wires, or catheters that are placed directly into or near the cancer. The way the radiation therapy is given depends on the type and stage of the cancer being treated. External and internal radiation therapy are used to treat penile cancer. Chemotherapy Chemotherapy is a cancer treatment that uses drugs to stop the growth of cancer cells, either by killing the cells or by stopping them from dividing. When chemotherapy is taken by mouth or injected into a vein or muscle, the drugs enter the bloodstream and can reach cancer cells throughout the body (systemic chemotherapy). When chemotherapy is placed directly onto the skin (topical chemotherapy) or into the cerebrospinal fluid, an organ, or a body cavity such as the abdomen, the drugs mainly affect cancer cells in those areas (regional chemotherapy). The way the chemotherapy is given depends on the type and stage of the cancer being treated. Topical chemotherapy may be used to treat stage 0 penile cancer. See Drugs Approved for Penile Cancer for more information. Biologic therapy Biologic therapy is a treatment that uses the patient's immune system to fight cancer. Substances made by the body or made in a laboratory are used to boost, direct, or restore the body's natural defenses against cancer. This type of cancer treatment is also called biotherapy or immunotherapy. Topical biologic therapy with imiquimod may be used to treat stage 0 penile cancer. New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI website. Radiosensitizers Radiosensitizers are drugs that make tumor cells more sensitive to radiation therapy. Combining radiation therapy with radiosensitizers helps kill more tumor cells. Sentinel lymph node biopsy followed by surgery Sentinel lymph node biopsy is the removal of the sentinel lymph node during surgery. The sentinel lymph node is the first lymph node to receive lymphatic drainage from a tumor. It is the first lymph node the cancer is likely to spread to from the tumor. A radioactive substance and/or blue dye is injected near the tumor. The substance or dye flows through the lymph ducts to the lymph nodes. The first lymph node to receive the substance or dye is removed. A pathologist views the tissue under a microscope to look for cancer cells. If cancer cells are not found, it may not be necessary to remove more lymph nodes. After the sentinel lymph node biopsy, the surgeon removes the cancer. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials. Follow-up tests may be needed. Some of the tests that were done to diagnose the cancer or to find out the stage of the cancer may be repeated. Some tests will be repeated in order to see how well the treatment is working. Decisions about whether to continue, change, or stop treatment may be based on the results of these tests. Some of the tests will continue to be done from time to time after treatment has ended. The results of these tests can show if your condition has changed or if the cancer has recurred (come back). These tests are sometimes called follow-up tests or check-ups. Treatment Options by Stage Stage 0 (Carcinoma in Situ) Treatment of stage 0 may be one of the following: - Mohs microsurgery. - Topical chemotherapy. - Topical biologic therapy with imiquimod. - Laser surgery. - Cryosurgery. Check the list of NCI-supported cancer clinical trials that are now accepting patients with stage 0 penile cancer. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Stage I Penile Cancer If the cancer is only in the foreskin, wide local excision and circumcision may be the only treatment needed. Treatment of stage I penile cancer may include the following: - Surgery (partial or total penectomy with or without removal of lymph nodes in the groin. - External or internal radiation therapy. - Mohs microsurgery. - A clinical trial of laser therapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with stage I penile cancer. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Stage II Penile Cancer Treatment of stage II penile cancer may include the following: - Surgery (partial or total penectomy, with or without removal of lymph nodes in the groin). - External or internal radiation therapy followed by surgery. - A clinical trial of sentinel lymph node biopsy followed by surgery. - A clinical trial of laser surgery. Check the list of NCI-supported cancer clinical trials that are now accepting patients with stage II penile cancer. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Stage III Penile Cancer Treatment of stage III penile cancer may include the following: - Surgery (penectomy and removal of lymph nodes in the groin) with or without radiation therapy. - Radiation therapy. - A clinical trial of sentinel lymph node biopsy followed by surgery. - A clinical trial of radiosensitizers. - A clinical trial of chemotherapy before or after surgery. - A clinical trial of new drugs, biologic therapy, or new kinds of surgery. Check the list of NCI-supported cancer clinical trials that are now accepting patients with stage III penile cancer. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Stage IV Penile Cancer Treatment of stage IV penile cancer is usually palliative (to relieve symptoms and improve the quality of life). Treatment may include the following: - Surgery (wide local excision and removal of lymph nodes in the groin). - Radiation therapy. - A clinical trial of chemotherapy before or after surgery. - A clinical trial of new drugs, biologic therapy, or new kinds of surgery. Check the list of NCI-supported cancer clinical trials that are now accepting patients with stage IV penile cancer. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website.
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Penile Cancer
8
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research
what research (or clinical trials) is being done for Penile Cancer ?
New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI website. Radiosensitizers Radiosensitizers are drugs that make tumor cells more sensitive to radiation therapy. Combining radiation therapy with radiosensitizers helps kill more tumor cells. Sentinel lymph node biopsy followed by surgery Sentinel lymph node biopsy is the removal of the sentinel lymph node during surgery. The sentinel lymph node is the first lymph node to receive lymphatic drainage from a tumor. It is the first lymph node the cancer is likely to spread to from the tumor. A radioactive substance and/or blue dye is injected near the tumor. The substance or dye flows through the lymph ducts to the lymph nodes. The first lymph node to receive the substance or dye is removed. A pathologist views the tissue under a microscope to look for cancer cells. If cancer cells are not found, it may not be necessary to remove more lymph nodes. After the sentinel lymph node biopsy, the surgeon removes the cancer. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials.
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Childhood Acute Lymphoblastic Leukemia
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information
What is (are) Childhood Acute Lymphoblastic Leukemia ?
Key Points - Childhood acute lymphoblastic leukemia (ALL) is a type of cancer in which the bone marrow makes too many immature lymphocytes (a type of white blood cell). - Leukemia may affect red blood cells, white blood cells, and platelets. - Past treatment for cancer and certain genetic conditions affect the risk of having childhood ALL. - Signs of childhood ALL include fever and bruising. - Tests that examine the blood and bone marrow are used to detect (find) and diagnose childhood ALL. - Certain factors affect prognosis (chance of recovery) and treatment options. Childhood acute lymphoblastic leukemia (ALL) is a type of cancer in which the bone marrow makes too many immature lymphocytes (a type of white blood cell). Childhood acute lymphoblastic leukemia (also called ALL or acute lymphocytic leukemia) is a cancer of the blood and bone marrow. This type of cancer usually gets worse quickly if it is not treated. ALL is the most common type of cancer in children. Leukemia may affect red blood cells, white blood cells, and platelets. In a healthy child, the bone marrow makes blood stem cells (immature cells) that become mature blood cells over time. A blood stem cell may become a myeloid stem cell or a lymphoid stem cell. A myeloid stem cell becomes one of three types of mature blood cells: - Red blood cells that carry oxygen and other substances to all tissues of the body. - Platelets that form blood clots to stop bleeding. - White blood cells that fight infection and disease. A lymphoid stem cell becomes a lymphoblast cell and then one of three types of lymphocytes (white blood cells): - B lymphocytes that make antibodies to help fight infection. - T lymphocytes that help B lymphocytes make the antibodies that help fight infection. - Natural killer cells that attack cancer cells and viruses. In a child with ALL, too many stem cells become lymphoblasts, B lymphocytes, or T lymphocytes. The cells do not work like normal lymphocytes and are not able to fight infection very well. These cells are cancer (leukemia) cells. Also, as the number of leukemia cells increases in the blood and bone marrow, there is less room for healthy white blood cells, red blood cells, and platelets. This may lead to infection, anemia, and easy bleeding. This summary is about acute lymphoblastic leukemia in children, adolescents, and young adults. See the following PDQ summaries for information about other types of leukemia: - Childhood Acute Myeloid Leukemia/Other Myeloid Malignancies Treatment - Adult Acute Lymphoblastic Leukemia Treatment - Chronic Lymphocytic Leukemia Treatment - Adult Acute Myeloid Leukemia Treatment - Chronic Myelogenous Leukemia Treatment - Hairy Cell Leukemia Treatment
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Childhood Acute Lymphoblastic Leukemia
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symptoms
What are the symptoms of Childhood Acute Lymphoblastic Leukemia ?
Signs of childhood ALL include fever and bruising. These and other signs and symptoms may be caused by childhood ALL or by other conditions. Check with your child's doctor if your child has any of the following: - Fever. - Easy bruising or bleeding. - Petechiae (flat, pinpoint, dark-red spots under the skin caused by bleeding). - Bone or joint pain. - Painless lumps in the neck, underarm, stomach, or groin. - Pain or feeling of fullness below the ribs. - Weakness, feeling tired, or looking pale. - Loss of appetite.
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Childhood Acute Lymphoblastic Leukemia
3
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exams and tests
How to diagnose Childhood Acute Lymphoblastic Leukemia ?
Tests that examine the blood and bone marrow are used to detect (find) and diagnose childhood ALL. The following tests and procedures may be used to diagnose childhood ALL and find out if leukemia cells have spread to other parts of the body such as the brain or testicles: - Physical exam and history : An exam of the body to check general signs of health, including checking for signs of disease, such as lumps or anything else that seems unusual. A history of the patient's health habits and past illnesses and treatments will also be taken. - Complete blood count (CBC) with differential : A procedure in which a sample of blood is drawn and checked for the following: - The number of red blood cells and platelets. - The number and type of white blood cells. - The amount of hemoglobin (the protein that carries oxygen) in the red blood cells. - The portion of the sample made up of red blood cells. - Blood chemistry studies : A procedure in which a blood sample is checked to measure the amounts of certain substances released into the blood by organs and tissues in the body. An unusual (higher or lower than normal) amount of a substance can be a sign of disease. - Bone marrow aspiration and biopsy : The removal of bone marrow and a small piece of bone by inserting a hollow needle into the hipbone or breastbone. A pathologist views the bone marrow and bone under a microscope to look for signs of cancer. The following tests are done on blood or the bone marrow tissue that is removed: - Cytogenetic analysis : A laboratory test in which the cells in a sample of blood or bone marrow are viewed under a microscope to look for certain changes in the chromosomes of lymphocytes. For example, in Philadelphia chromosome positive ALL, part of one chromosome switches places with part of another chromosome. This is called the Philadelphia chromosome. - Immunophenotyping : A laboratory test in which the antigens or markers on the surface of a blood or bone marrow cell are checked to see if they are lymphocytes or myeloid cells. If the cells are malignant lymphocytes (cancer) they are checked to see if they are B lymphocytes or T lymphocytes. - Lumbar puncture : A procedure used to collect a sample of cerebrospinal fluid (CSF) from the spinal column. This is done by placing a needle between two bones in the spine and into the CSF around the spinal cord and removing a sample of the fluid. The sample of CSF is checked under a microscope for signs that leukemia cells have spread to the brain and spinal cord. This procedure is also called an LP or spinal tap. This procedure is done after leukemia is diagnosed to find out if leukemia cells have spread to the brain and spinal cord. Intrathecal chemotherapy is given after the sample of fluid is removed to treat any leukemia cells that may have spread to the brain and spinal cord. - Chest x-ray : An x-ray of the organs and bones inside the chest. An x-ray is a type of energy beam that can go through the body and onto film, making a picture of areas inside the body. The chest x-ray is done to see if leukemia cells have formed a mass in the middle of the chest.
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Childhood Acute Lymphoblastic Leukemia
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outlook
What is the outlook for Childhood Acute Lymphoblastic Leukemia ?
Certain factors affect prognosis (chance of recovery) and treatment options. The prognosis (chance of recovery) depends on: - How quickly and how low the leukemia cell count drops after the first month of treatment. - Age at the time of diagnosis, gender, race, and ethnic background. - The number of white blood cells in the blood at the time of diagnosis. - Whether the leukemia cells began from B lymphocytes or T lymphocytes. - Whether there are certain changes in the chromosomes or genes of the lymphocytes with cancer. - Whether the child has Down syndrome. - Whether leukemia cells are found in the cerebrospinal fluid. - The child's weight at the time of diagnosis and during treatment. Treatment options depend on: - Whether the leukemia cells began from B lymphocytes or T lymphocytes. - Whether the child has standard-risk, high-risk, or very highrisk ALL. - The age of the child at the time of diagnosis. - Whether there are certain changes in the chromosomes of lymphocytes, such as the Philadelphia chromosome. - Whether the child was treated with steroids before the start of induction therapy. - How quickly and how low the leukemia cell count drops during treatment. For leukemia that relapses (comes back) after treatment, the prognosis and treatment options depend partly on the following: - How long it is between the time of diagnosis and when the leukemia comes back. - Whether the leukemia comes back in the bone marrow or in other parts of the body.
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Childhood Acute Lymphoblastic Leukemia
5
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research
what research (or clinical trials) is being done for Childhood Acute Lymphoblastic Leukemia ?
New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI website. Chimeric antigen receptor (CAR) T-cell therapy CAR T-cell therapy is a type of immunotherapy that changes the patient's T cells (a type of immune system cell) so they will attack certain proteins on the surface of cancer cells. T cells are taken from the patient and special receptors are added to their surface in the laboratory. The changed cells are called chimeric antigen receptor (CAR) T cells. The CAR T cells are grown in the laboratory and given to the patient by infusion. The CAR T cells multiply in the patient's blood and attack cancer cells. CAR T-cell therapy is being studied in the treatment of childhood ALL that has relapsed (come back) a second time. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials.
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Childhood Acute Lymphoblastic Leukemia
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susceptibility
Who is at risk for Childhood Acute Lymphoblastic Leukemia? ?
Key Points Past treatment for cancer and certain genetic conditions affect the risk of having childhood ALL. Anything that increases your risk of getting a disease is called a risk factor. Having a risk factor does not mean that you will get cancer; not having risk factors doesnt mean that you will not get cancer. Talk with your child's doctor if you think your child may be at risk. Possible risk factors for ALL include the following: - Being exposed to x-rays before birth. - Being exposed to radiation. - Past treatment with chemotherapy. - Having certain genetic conditions, such as: - Down syndrome. - Neurofibromatosis type 1. - Bloom syndrome. - Fanconi anemia. - Ataxia-telangiectasia. - Li-Fraumeni syndrome. - Constitutional mismatch repair deficiency (mutations in certain genes that stop DNA from repairing itself, which leads to the growth of cancers at an early age). - Having certain changes in the chromosomes or genes. Risk Groups - In childhood ALL, risk groups are used to plan treatment. - Relapsed childhood ALL is cancer that has come back after it has been treated. In childhood ALL, risk groups are used to plan treatment. There are three risk groups in childhood ALL. They are described as: - Standard (low) risk: Includes children aged 1 to younger than 10 years who have a white blood cell count of less than 50,000/L at the time of diagnosis. - High risk: Includes children 10 years and older and/or children who have a white blood cell count of 50,000/L or more at the time of diagnosis. - Very high risk: Includes children younger than age 1, children with certain changes in the genes, children who have a slow response to initial treatment, and children who have signs of leukemia after the first 4 weeks of treatment. Other factors that affect the risk group include the following: - Whether the leukemia cells began from B lymphocytes or T lymphocytes. - Whether there are certain changes in the chromosomes or genes of the lymphocytes. - How quickly and how low the leukemia cell count drops after initial treatment. - Whether leukemia cells are found in the cerebrospinal fluid at the time of diagnosis. It is important to know the risk group in order to plan treatment. Children with high-risk or very highrisk ALL usually receive more anticancer drugs and/or higher doses of anticancer drugs than children with standard-risk ALL. Relapsed childhood ALL is cancer that has come back after it has been treated. The leukemia may come back in the blood and bone marrow, brain, spinal cord, testicles, or other parts of the body. Refractory childhood ALL is cancer that does not respond to treatment.
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Childhood Acute Lymphoblastic Leukemia
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treatment
What are the treatments for Childhood Acute Lymphoblastic Leukemia ?
Key Points - There are different types of treatment for childhood acute lymphoblastic leukemia (ALL). - Children with ALL should have their treatment planned by a team of doctors who are experts in treating childhood leukemia. - Children and adolescents may have treatment-related side effects that appear months or years after treatment for acute lymphoblastic leukemia. - The treatment of childhood ALL usually has three phases. - Four types of standard treatment are used: - Chemotherapy - Radiation therapy - Chemotherapy with stem cell transplant - Targeted therapy - Treatment is given to kill leukemia cells that have spread or may spread to the brain, spinal cord, or testicles. - New types of treatment are being tested in clinical trials. - Chimeric antigen receptor (CAR) T-cell therapy - Patients may want to think about taking part in a clinical trial. - Patients can enter clinical trials before, during, or after starting their cancer treatment. - Follow-up tests may be needed. There are different types of treatment for childhood acute lymphoblastic leukemia (ALL). Different types of treatment are available for children with acute lymphoblastic leukemia (ALL). Some treatments are standard (the currently used treatment), and some are being tested in clinical trials. A treatment clinical trial is a research study meant to help improve current treatments or obtain information on new treatments for patients with cancer. When clinical trials show that a new treatment is better than the standard treatment, the new treatment may become the standard treatment. Because cancer in children is rare, taking part in a clinical trial should be considered. Some clinical trials are open only to patients who have not started treatment. Children with ALL should have their treatment planned by a team of doctors who are experts in treating childhood leukemia. Treatment will be overseen by a pediatric oncologist, a doctor who specializes in treating children with cancer. The pediatric oncologist works with other pediatric health professionals who are experts in treating children with leukemia and who specialize in certain areas of medicine. These may include the following specialists: - Pediatrician. - Hematologist. - Medical oncologist. - Pediatric surgeon. - Radiation oncologist. - Neurologist. - Pathologist. - Radiologist. - Pediatric nurse specialist. - Social worker. - Rehabilitation specialist. - Psychologist. - Child-life specialist. Children and adolescents may have treatment-related side effects that appear months or years after treatment for acute lymphoblastic leukemia. Regular follow-up exams are very important. Treatment can cause side effects long after it has ended. These are called late effects. Late effects of cancer treatment may include: - Physical problems, including problems with the heart, blood vessels, liver, or bones, and fertility. When dexrazoxane is given with chemotherapy drugs called anthracyclines, the risk of late heart effects is lessened. - Changes in mood, feelings, thinking, learning, or memory. Children younger than 4 years who have received radiation therapy to the brain have a higher risk of these effects. - Second cancers (new types of cancer) or other conditions, such as brain tumors, thyroid cancer, acute myeloid leukemia, and myelodysplastic syndrome. Some late effects may be treated or controlled. It is important to talk with your child's doctors about the possible late effects caused by some treatments. See the PDQ summary on Late Effects of Treatment for Childhood Cancer. The treatment of childhood ALL usually has three phases. The treatment of childhood ALL is done in phases: - Remission induction: This is the first phase of treatment. The goal is to kill the leukemia cells in the blood and bone marrow. This puts the leukemia into remission. - Consolidation /intensification: This is the second phase of treatment. It begins once the leukemia is in remission. The goal of consolidation/intensification therapy is to kill any leukemia cells that remain in the body and may cause a relapse. - Maintenance: This is the third phase of treatment. The goal is to kill any remaining leukemia cells that may regrow and cause a relapse. Often the cancer treatments are given in lower doses than those used during the remission induction and consolidation/intensification phases. Not taking medication as ordered by the doctor during maintenance therapy increases the chance the cancer will come back. This is also called the continuation therapy phase. Four types of standard treatment are used: Chemotherapy Chemotherapy is a cancer treatment that uses drugs to stop the growth of cancer cells, either by killing the cells or by stopping them from dividing. When chemotherapy is taken by mouth or injected into a vein or muscle, the drugs enter the bloodstream and can reach cancer cells throughout the body (systemic chemotherapy). When chemotherapy is placed directly into the cerebrospinal fluid (intrathecal), an organ, or a body cavity such as the abdomen, the drugs mainly affect cancer cells in those areas (regional chemotherapy). Combination chemotherapy is treatment using more than one anticancer drug. The way the chemotherapy is given depends on the child's risk group. Children with high-risk ALL receive more anticancer drugs and higher doses of anticancer drugs than children with standard-risk ALL. Intrathecal chemotherapy may be used to treat childhood ALL that has spread, or may spread, to the brain and spinal cord. See Drugs Approved for Acute Lymphoblastic Leukemia for more information. Radiation therapy Radiation therapy is a cancer treatment that uses high-energy x-rays or other types of radiation to kill cancer cells or keep them from growing. There are two types of radiation therapy: - External radiation therapy uses a machine outside the body to send radiation toward the cancer. - Internal radiation therapy uses a radioactive substance sealed in needles, seeds, wires, or catheters that are placed directly into or near the cancer. The way the radiation therapy is given depends on the type of cancer being treated. External radiation therapy may be used to treat childhood ALL that has spread, or may spread, to the brain, spinal cord, or testicles. It may also be used to prepare the bone marrow for a stem cell transplant. Chemotherapy with stem cell transplant Stem cell transplant is a method of giving high doses of chemotherapy and sometimes total-body irradiation, and then replacing the blood-forming cells destroyed by the cancer treatment. Stem cells (immature blood cells) are removed from the blood or bone marrow of a donor. After the patient receives treatment, the donor's stem cells are given to the patient through an infusion. These reinfused stem cells grow into (and restore) the patient's blood cells. The stem cell donor doesn't have to be related to the patient. Stem cell transplant is rarely used as initial treatment for children and adolescents with ALL. It is used more often as part of treatment for ALL that relapses (comes back after treatment). See Drugs Approved for Acute Lymphoblastic Leukemia for more information. Targeted therapy Targeted therapy is a treatment that uses drugs or other substances to identify and attack specific cancer cells without harming normal cells. Tyrosine kinase inhibitors (TKIs) are targeted therapy drugs that block the enzyme, tyrosine kinase, which causes stem cells to become more white blood cells or blasts than the body needs. Imatinib mesylate is a TKI used in the treatment of children with Philadelphia chromosome positive ALL. Dasatinib and ruxolitinib are TKIs that are being studied in the treatment of newly diagnosed high-risk ALL. Monoclonal antibody therapy is a cancer treatment that uses antibodies made in the laboratory, from a single type of immune system cell. These antibodies can identify substances on cancer cells or normal substances that may help cancer cells grow. The antibodies attach to the substances and kill the cancer cells, block their growth, or keep them from spreading. Monoclonal antibodies are given by infusion. They may be used alone or to carry drugs, toxins, or radioactive material directly to cancer cells. Blinatumomab and inotuzumab are monoclonal antibodies being studied in the treatment of refractory childhood ALL. New kinds of targeted therapies are also being studied in the treatment of childhood ALL. See Drugs Approved for Acute Lymphoblastic Leukemia for more information. Treatment is given to kill leukemia cells that have spread or may spread to the brain, spinal cord, or testicles. Treatment to kill leukemia cells or prevent the spread of leukemia cells to the brain and spinal cord (central nervous system; CNS) is called CNS-directed therapy. Chemotherapy may be used to treat leukemia cells that have spread, or may spread, to the brain and spinal cord. Because standard doses of chemotherapy may not reach leukemia cells in the CNS, the cells are able to hide in the CNS. Systemic chemotherapy given in high doses or intrathecal chemotherapy (into the cerebrospinal fluid) is able to reach leukemia cells in the CNS. Sometimes external radiation therapy to the brain is also given. These treatments are given in addition to treatment that is used to kill leukemia cells in the rest of the body. All children with ALL receive CNS-directed therapy as part of induction therapy and consolidation/intensification therapy and sometimes during maintenance therapy. If the leukemia cells spread to the testicles, treatment includes high doses of systemic chemotherapy and sometimes radiation therapy. New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI website. Chimeric antigen receptor (CAR) T-cell therapy CAR T-cell therapy is a type of immunotherapy that changes the patient's T cells (a type of immune system cell) so they will attack certain proteins on the surface of cancer cells. T cells are taken from the patient and special receptors are added to their surface in the laboratory. The changed cells are called chimeric antigen receptor (CAR) T cells. The CAR T cells are grown in the laboratory and given to the patient by infusion. The CAR T cells multiply in the patient's blood and attack cancer cells. CAR T-cell therapy is being studied in the treatment of childhood ALL that has relapsed (come back) a second time. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials. Follow-up tests may be needed. Some of the tests that were done to diagnose the cancer or to find out the stage of the cancer may be repeated. Some tests will be repeated in order to see how well the treatment is working. Decisions about whether to continue, change, or stop treatment may be based on the results of these tests. Some of the tests will continue to be done from time to time after treatment has ended. The results of these tests can show if your child's condition has changed or if the cancer has recurred (come back). These tests are sometimes called follow-up tests or check-ups. Bone marrow aspiration and biopsy is done during all phases of treatment to see how well the treatment is working. Treatment Options for Childhood Acute Lymphoblastic Leukemia Newly Diagnosed Childhood Acute Lymphoblastic Leukemia (Standard Risk) The treatment of standard-risk childhood acute lymphoblastic leukemia (ALL) during the remission induction, consolidation /intensification, and maintenance phases always includes combination chemotherapy. When children are in remission after remission induction therapy, a stem cell transplant using stem cells from a donor may be done. When children are not in remission after remission induction therapy, further treatment is usually the same treatment given to children with high-risk ALL. Intrathecal chemotherapy is given to prevent the spread of leukemia cells to the brain and spinal cord. Treatments being studied in clinical trials for standard-risk ALL include new chemotherapy regimens. Check the list of NCI-supported cancer clinical trials that are now accepting patients with untreated childhood acute lymphoblastic leukemia. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your child's doctor about clinical trials that may be right for your child. General information about clinical trials is available from the NCI website. Newly Diagnosed Childhood Acute Lymphoblastic Leukemia (High Risk) The treatment of high-risk childhood acute lymphoblastic leukemia (ALL) during the remission induction, consolidation /intensification, and maintenance phases always includes combination chemotherapy. Children in the high-risk ALL group are given more anticancer drugs and higher doses of anticancer drugs, especially during the consolidation/intensification phase, than children in the standard-risk group. Intrathecal and systemic chemotherapy are given to prevent or treat the spread of leukemia cells to the brain and spinal cord. Sometimes radiation therapy to the brain is also given. Treatments being studied in clinical trials for high-risk ALL include new chemotherapy regimens with or without targeted therapy or stem cell transplant. Check the list of NCI-supported cancer clinical trials that are now accepting patients with untreated childhood acute lymphoblastic leukemia. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your child's doctor about clinical trials that may be right for your child. General information about clinical trials is available from the NCI website. Newly Diagnosed Childhood Acute Lymphoblastic Leukemia (Very High Risk) The treatment of very highrisk childhood acute lymphoblastic leukemia (ALL) during the remission induction, consolidation /intensification, and maintenance phases always includes combination chemotherapy. Children in the very highrisk ALL group are given more anticancer drugs than children in the high-risk group. It is not clear whether a stem cell transplant during first remission will help the child live longer. Intrathecal and systemic chemotherapy are given to prevent or treat the spread of leukemia cells to the brain and spinal cord. Sometimes radiation therapy to the brain is also given. Treatments being studied in clinical trials for very highrisk ALL include new chemotherapy regimens with or without targeted therapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with untreated childhood acute lymphoblastic leukemia. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your child's doctor about clinical trials that may be right for your child. General information about clinical trials is available from the NCI website. Newly Diagnosed Childhood Acute Lymphoblastic Leukemia (Special Groups) T-cell childhood acute lymphoblastic leukemia The treatment of T-cell childhood acute lymphoblastic leukemia (ALL) during the remission induction, consolidation /intensification, and maintenance phases always includes combination chemotherapy. Children with T-cell ALL are given more anticancer drugs and higher doses of anticancer drugs than children in the newly diagnosed standard-risk group. Intrathecal and systemic chemotherapy are given to prevent the spread of leukemia cells to the brain and spinal cord. Sometimes radiation therapy to the brain is also given. Treatments being studied in clinical trials for T-cell ALL include new anticancer agents and chemotherapy regimens with or without targeted therapy. Infants with ALL The treatment of infants with ALL during the remission induction, consolidation /intensification, and maintenance phases always includes combination chemotherapy. Infants with ALL are given different anticancer drugs and higher doses of anticancer drugs than children 1 year and older in the standard-risk group. It is not clear whether a stem cell transplant during first remission will help the child live longer. Intrathecal and systemic chemotherapy are given to prevent the spread of leukemia cells to the brain and spinal cord. Treatments being studied in clinical trials for infants with ALL include the following: - A clinical trial of chemotherapy followed by a donor stem cell transplant for infants with certain gene changes. Children 10 years and older and adolescents with ALL The treatment of ALL in children and adolescents (10 years and older) during the remission induction, consolidation /intensification, and maintenance phases always includes combination chemotherapy. Children 10 years and older and adolescents with ALL are given more anticancer drugs and higher doses of anticancer drugs than children in the standard-risk group. Intrathecal and systemic chemotherapy are given to prevent the spread of leukemia cells to the brain and spinal cord. Sometimes radiation therapy to the brain is also given. Treatments being studied in clinical trials for children 10 years and older and adolescents with ALL include new anticancer agents and chemotherapy regimens with or without targeted therapy. Philadelphia chromosomepositive ALL The treatment of Philadelphia chromosome positive childhood ALL during the remission induction, consolidation /intensification, and maintenance phases may include the following: - Combination chemotherapy and targeted therapy with a tyrosine kinase inhibitor (imatinib mesylate) with or without a stem cell transplant using stem cells from a donor. Check the list of NCI-supported cancer clinical trials that are now accepting patients with T-cell childhood acute lymphoblastic leukemia and Philadelphia chromosome positive childhood precursor acute lymphoblastic leukemia. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your child's doctor about clinical trials that may be right for your child. General information about clinical trials is available from the NCI website. Refractory Childhood Acute Lymphoblastic Leukemia There is no standard treatment for the treatment of refractory childhood acute lymphoblastic leukemia (ALL). Some of the treatments being studied in clinical trials for refractory childhood ALL include: - Targeted therapy (blinatumomab or inotuzumab). - Chimeric antigen receptor (CAR) T-cell therapy. Relapsed Childhood Acute Lymphoblastic Leukemia Standard treatment of relapsed childhood acute lymphoblastic leukemia (ALL) that comes back in the bone marrow may include the following: - Combination chemotherapy. - Chemotherapy with or without total-body irradiation followed by a stem cell transplant, using stem cells from a donor. Standard treatment of relapsed childhood acute lymphoblastic leukemia (ALL) that comes back outside the bone marrow may include the following: - Systemic chemotherapy and intrathecal chemotherapy with radiation therapy to the brain and/or spinal cord for cancer that comes back in the brain and spinal cord only. - Combination chemotherapy and radiation therapy for cancer that comes back in the testicles only. - Stem cell transplant for cancer that has recurred in the brain and/or spinal cord. Some of the treatments being studied in clinical trials for relapsed childhood ALL include: - New anticancer drugs and new combination chemotherapy treatments. - Combination chemotherapy and new kinds of targeted therapies (blinatumomab or inotuzumab). - Chimeric antigen receptor (CAR) T-cell therapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with recurrent childhood acute lymphoblastic leukemia. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your child's doctor about clinical trials that may be right for your child. General information about clinical trials is available from the NCI website.
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Plasma Cell Neoplasms (Including Multiple Myeloma)
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information
What is (are) Plasma Cell Neoplasms (Including Multiple Myeloma) ?
Key Points - Plasma cell neoplasms are diseases in which the body makes too many plasma cells. - Plasma cell neoplasms can be benign (not cancer) or malignant (cancer). - There are several types of plasma cell neoplasms. - Monoclonal gammopathy of undetermined significance (MGUS) - Plasmacytoma - Multiple myeloma - Multiple myeloma and other plasma cell neoplasms may cause a condition called amyloidosis. - Age can affect the risk of plasma cell neoplasms. - Tests that examine the blood, bone marrow, and urine are used to detect (find) and diagnose multiple myeloma and other plasma cell neoplasms. - Certain factors affect prognosis (chance of recovery) and treatment options. Plasma cell neoplasms are diseases in which the body makes too many plasma cells. Plasma cells develop from B lymphocytes (B cells), a type of white blood cell that is made in the bone marrow. Normally, when bacteria or viruses enter the body, some of the B cells will change into plasma cells. The plasma cells make antibodies to fight bacteria and viruses, to stop infection and disease. Plasma cell neoplasms are diseases in which abnormal plasma cells or myeloma cells form tumors in the bones or soft tissues of the body. The plasma cells also make an antibody protein, called M protein, that is not needed by the body and does not help fight infection. These antibody proteins build up in the bone marrow and can cause the blood to thicken or can damage the kidneys. Plasma cell neoplasms can be benign (not cancer) or malignant (cancer). Monoclonal gammopathy of undetermined significance (MGUS) is not cancer but can become cancer. The following types of plasma cell neoplasms are cancer: - Lymphoplasmacytic lymphoma. (See Adult Non-Hodgkin Lymphoma Treatment for more information.) - Plasmacytoma. - Multiple myeloma. There are several types of plasma cell neoplasms. Plasma cell neoplasms include the following: Monoclonal gammopathy of undetermined significance (MGUS) In this type of plasma cell neoplasm, less than 10% of the bone marrow is made up of abnormal plasma cells and there is no cancer. The abnormal plasma cells make M protein, which is sometimes found during a routine blood or urine test. In most patients, the amount of M protein stays the same and there are no signs, symptoms, or health problems. In some patients, MGUS may later become a more serious condition, such as amyloidosis, or cause problems with the kidneys, heart, or nerves. MGUS can also become cancer, such as multiple myeloma, lymphoplasmacytic lymphoma, or chronic lymphocytic leukemia. Plasmacytoma In this type of plasma cell neoplasm, the abnormal plasma cells (myeloma cells) are in one place and form one tumor, called a plasmacytoma. Sometimes plasmacytoma can be cured. There are two types of plasmacytoma. - In isolated plasmacytoma of bone, one plasma cell tumor is found in the bone, less than 10% of the bone marrow is made up of plasma cells, and there are no other signs of cancer. Plasmacytoma of the bone often becomes multiple myeloma. - In extramedullary plasmacytoma, one plasma cell tumor is found in soft tissue but not in the bone or the bone marrow. Extramedullary plasmacytomas commonly form in tissues of the throat, tonsil, and paranasal sinuses. Signs and symptoms depend on where the tumor is. - In bone, the plasmacytoma may cause pain or broken bones. - In soft tissue, the tumor may press on nearby areas and cause pain or other problems. For example, a plasmacytoma in the throat can make it hard to swallow. Multiple myeloma In multiple myeloma, abnormal plasma cells (myeloma cells) build up in the bone marrow and form tumors in many bones of the body. These tumors may keep the bone marrow from making enough healthy blood cells. Normally, the bone marrow makes stem cells (immature cells) that become three types of mature blood cells: - Red blood cells that carry oxygen and other substances to all tissues of the body. - White blood cells that fight infection and disease. - Platelets that form blood clots to help prevent bleeding. As the number of myeloma cells increases, fewer red blood cells, white blood cells, and platelets are made. The myeloma cells also damage and weaken the bone. Sometimes multiple myeloma does not cause any signs or symptoms. This is called smoldering multiple myeloma. It may be found when a blood or urine test is done for another condition. Signs and symptoms may be caused by multiple myeloma or other conditions. Check with your doctor if you have any of the following: - Bone pain, especially in the back or ribs. - Bones that break easily. - Fever for no known reason or frequent infections. - Easy bruising or bleeding. - Trouble breathing. - Weakness of the arms or legs. - Feeling very tired. A tumor can damage the bone and cause hypercalcemia (too much calcium in the blood). This can affect many organs in the body, including the kidneys, nerves, heart, muscles, and digestive tract, and cause serious health problems. Hypercalcemia may cause the following signs and symptoms: - Loss of appetite. - Nausea or vomiting. - Feeling thirsty. - Frequent urination. - Constipation. - Feeling very tired. - Muscle weakness. - Restlessness. - Confusion or trouble thinking. Multiple myeloma and other plasma cell neoplasms may cause a condition called amyloidosis. In rare cases, multiple myeloma can cause peripheral nerves (nerves that are not in the brain or spinal cord) and organs to fail. This may be caused by a condition called amyloidosis. Antibody proteins build up and stick together in peripheral nerves and organs, such as the kidney and heart. This can cause the nerves and organs to become stiff and unable to work the way they should. Amyloidosis may cause the following signs and symptoms: - Feeling very tired. - Purple spots on the skin. - Enlarged tongue. - Diarrhea. - Swelling caused by fluid in your body's tissues. - Tingling or numbness in your legs and feet.
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Plasma Cell Neoplasms (Including Multiple Myeloma)
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susceptibility
Who is at risk for Plasma Cell Neoplasms (Including Multiple Myeloma)? ?
Age can affect the risk of plasma cell neoplasms. Anything that increases your risk of getting a disease is called a risk factor. Having a risk factor does not mean that you will get cancer; not having risk factors doesn't mean that you will not get cancer. Talk with your doctor if you think you may be at risk. Plasma cell neoplasms are most common in people who are middle aged or older. For multiple myeloma and plasmacytoma, other risk factors include the following: - Being black. - Being male. - Having a personal history of MGUS or plasmacytoma. - Being exposed to radiation or certain chemicals.
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Plasma Cell Neoplasms (Including Multiple Myeloma)
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exams and tests
How to diagnose Plasma Cell Neoplasms (Including Multiple Myeloma) ?
Tests that examine the blood, bone marrow, and urine are used to detect (find) and diagnose multiple myeloma and other plasma cell neoplasms. The following tests and procedures may be used: - Physical exam and history : An exam of the body to check general signs of health, including checking for signs of disease, such as lumps or anything else that seems unusual. A history of the patients health habits and past illnesses and treatments will also be taken. - Blood and urine immunoglobulin studies: A procedure in which a blood or urine sample is checked to measure the amounts of certain antibodies (immunoglobulins). For multiple myeloma, beta-2-microglobulin, M protein, free light chains, and other proteins made by the myeloma cells are measured. A higher-than-normal amount of these substances can be a sign of disease. - Bone marrow aspiration and biopsy : The removal of bone marrow, blood, and a small piece of bone by inserting a hollow needle into the hipbone or breastbone. A pathologist views the bone marrow, blood, and bone under a microscope to look for abnormal cells. The following test may be done on the sample of tissue removed during the bone marrow aspiration and biopsy: - Cytogenetic analysis : A test in which cells in a sample of bone marrow are viewed under a microscope to look for certain changes in the chromosomes. Other tests, such as fluorescence in situ hybridization (FISH) and flow cytometry, may also be done to look for certain changes in the chromosomes. - Skeletal bone survey: In a skeletal bone survey, x-rays of all the bones in the body are taken. The x-rays are used to find areas where the bone is damaged. An x-ray is a type of energy beam that can go through the body and onto film, making a picture of areas inside the body. - Complete blood count (CBC) with differential : A procedure in which a sample of blood is drawn and checked for the following: - The number of red blood cells and platelets. - The number and type of white blood cells. - The amount of hemoglobin (the protein that carries oxygen) in the red blood cells. - The portion of the blood sample made up of red blood cells. - Blood chemistry studies : A procedure in which a blood sample is checked to measure the amounts of certain substances, such as calcium or albumin, released into the blood by organs and tissues in the body. An unusual (higher or lower than normal) amount of a substance can be a sign of disease. - Twenty-four-hour urine test: A test in which urine is collected for 24 hours to measure the amounts of certain substances. An unusual (higher or lower than normal) amount of a substance can be a sign of disease in the organ or tissue that makes it. A higher than normal amount of protein may be a sign of multiple myeloma. - MRI (magnetic resonance imaging): A procedure that uses a magnet, radio waves, and a computer to make a series of detailed pictures of areas inside the body. This procedure is also called nuclear magnetic resonance imaging (NMRI). An MRI of the spine and pelvis may be used to find areas where the bone is damaged. - CT scan (CAT scan): A procedure that makes a series of detailed pictures of areas inside the body, such as the spine, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography. - PET-CT scan : A procedure that combines the pictures from a positron emission tomography (PET) scan and a computed tomography (CT) scan. The PET and CT scans are done at the same time with the same machine. The combined scans give more detailed pictures of areas inside the body, such as the spine, than either scan gives by itself.
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Plasma Cell Neoplasms (Including Multiple Myeloma)
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outlook
What is the outlook for Plasma Cell Neoplasms (Including Multiple Myeloma) ?
Certain factors affect prognosis (chance of recovery) and treatment options. The prognosis (chance of recovery) depends on the following: - The type of plasma cell neoplasm. - The stage of the disease. - Whether a certain immunoglobulin (antibody) is present. - Whether there are certain genetic changes. - Whether the kidney is damaged. - Whether the cancer responds to initial treatment or recurs (comes back). Treatment options depend on the following: - The type of plasma cell neoplasm. - The age and general health of the patient. - Whether there are signs, symptoms, or health problems, such as kidney failure or infection, related to the disease. - Whether the cancer responds to initial treatment or recurs (comes back).
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Plasma Cell Neoplasms (Including Multiple Myeloma)
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stages
What are the stages of Plasma Cell Neoplasms (Including Multiple Myeloma) ?
Key Points - There are no standard staging systems for monoclonal gammopathy of undetermined significance (MGUS), macroglobulinemia, and plasmacytoma. - After multiple myeloma has been diagnosed, tests are done to find out the amount of cancer in the body. - The stage of multiple myeloma is based on the levels of beta-2-microglobulin and albumin in the blood. - The following stages are used for multiple myeloma: - Stage I multiple myeloma - Stage II multiple myeloma - Stage III multiple myeloma There are no standard staging systems for monoclonal gammopathy of undetermined significance (MGUS), macroglobulinemia, and plasmacytoma. After multiple myeloma has been diagnosed, tests are done to find out the amount of cancer in the body. The process used to find out the amount of cancer in the body is called staging. It is important to know the stage in order to plan treatment. The following tests and procedures may be used in the staging process: - Skeletal bone survey: In a skeletal bone survey, x-rays of all the bones in the body are taken. The x-rays are used to find areas where the bone is damaged. An x-ray is a type of energy beam that can go through the body and onto film, making a picture of areas inside the body. - MRI (magnetic resonance imaging): A procedure that uses a magnet, radio waves, and a computer to make a series of detailed pictures of areas inside the body, such as the bone marrow. This procedure is also called nuclear magnetic resonance imaging (NMRI). - Bone densitometry: A procedure that uses a special type of x-ray to measure bone density. The stage of multiple myeloma is based on the levels of beta-2-microglobulin and albumin in the blood. Beta-2-microglobulin and albumin are found in the blood. Beta-2-microglobulin is a protein found on plasma cells. Albumin makes up the biggest part of the blood plasma. It keeps fluid from leaking out of blood vessels. It also brings nutrients to tissues, and carries hormones, vitamins, drugs, and other substances, such as calcium, all through the body. In the blood of patients with multiple myeloma, the amount of beta-2-microglobulin is increased and the amount of albumin is decreased. The following stages are used for multiple myeloma: Stage I multiple myeloma In stage I multiple myeloma, the blood levels are as follows: - beta-2-microglobulin level is lower than 3.5 mg/L; and - albumin level is 3.5 g/dL or higher. Stage II multiple myeloma In stage II multiple myeloma, the blood levels are in between the levels for stage I and stage III. Stage III multiple myeloma In stage III multiple myeloma, the blood level of beta-2-microglobulin is 5.5 mg/L or higher and the patient also has one of the following: - high levels of lactate dehydrogenase (LDH); or - certain changes in the chromosomes.
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Plasma Cell Neoplasms (Including Multiple Myeloma)
6
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treatment
What are the treatments for Plasma Cell Neoplasms (Including Multiple Myeloma) ?
Key Points - There are different types of treatment for patients with plasma cell neoplasms. - Eight types of treatment are used: - Chemotherapy - Other drug therapy - Targeted therapy - High-dose chemotherapy with stem cell transplant - Biologic therapy - Radiation therapy - Surgery - Watchful waiting - New types of treatment are being tested in clinical trials. - New combinations of therapies - Supportive care is given to lessen the problems caused by the disease or its treatment. - Patients may want to think about taking part in a clinical trial. - Patients can enter clinical trials before, during, or after starting their cancer treatment. - Follow-up tests may be needed. There are different types of treatment for patients with plasma cell neoplasms. Different types of treatments are available for patients with plasma cell neoplasms. Some treatments are standard (the currently used treatment), and some are being tested in clinical trials. A treatment clinical trial is a research study meant to help improve current treatments or obtain information on new treatments for patients with cancer. When clinical trials show that a new treatment is better than the standard treatment, the new treatment may become the standard treatment. Patients may want to think about taking part in a clinical trial. Some clinical trials are open only to patients who have not started treatment. Eight types of treatment are used: Chemotherapy Chemotherapy is a cancer treatment that uses drugs to stop the growth of cancer cells, either by killing the cells or by stopping them from dividing. When chemotherapy is taken by mouth or injected into a vein or muscle, the drugs enter the bloodstream and can reach cancer cells throughout the body (systemic chemotherapy). When chemotherapy is placed directly into the cerebrospinal fluid, an organ, or a body cavity such as the abdomen, the drugs mainly affect cancer cells in those areas (regional chemotherapy). The way the chemotherapy is given depends on the type and stage of the cancer being treated. See Drugs Approved for Multiple Myeloma and Other Plasma Cell Neoplasms for more information. Other drug therapy Corticosteroids are steroids that have antitumor effects in multiple myeloma. Targeted therapy Targeted therapy is a treatment that uses drugs or other substances to identify and attack specific cancer cells without harming normal cells. Several types of targeted therapy may be used to treat multiple myeloma and other plasma cell neoplasms. Proteasome inhibitor therapy is a type of targeted therapy that blocks the action of proteasomes in cancer cells and may prevent the growth of tumors. Bortezomib, carfilzomib, ixazomib, daratumumab, and elotuzumab are proteasome inhibitors used in the treatment of multiple myeloma and other plasma cell neoplasms. Histone deacetylase (HDAC) inhibitor therapy is a type of targeted therapy that blocks enzymes needed for cell division and may stop the growth of cancer cells. Panobinostat is an HDAC inhibitor used in the treatment of multiple myeloma and other plasma cell neoplasms. See Drugs Approved for Multiple Myeloma and Other Plasma Cell Neoplasms for more information. High-dose chemotherapy with stem cell transplant This treatment is a way of giving high doses of chemotherapy and replacing blood -forming cells destroyed by the cancer treatment. Stem cells (immature blood cells) are removed from the blood or bone marrow of the patient (autologous transplant) or a donor (allogeneic transplant) and are frozen and stored. After the chemotherapy is completed, the stored stem cells are thawed and given back to the patient through an infusion. These reinfused stem cells grow into (and restore) the body's blood cells. Biologic therapy Biologic therapy is a treatment that uses the patient's immune system to fight cancer. Substances made by the body or made in a laboratory are used to boost, direct, or restore the body's natural defenses against cancer. This type of cancer treatment is also called biotherapy or immunotherapy. Immunomodulators are a type of biologic therapy. Thalidomide, lenalidomide, and pomalidomide are immunomodulators used to treat multiple myeloma and other plasma cell neoplasms. Interferon is a type of biologic therapy. It affects the division of cancer cells and can slow tumor growth. See Drugs Approved for Multiple Myeloma and Other Plasma Cell Neoplasms for more information. Radiation therapy Radiation therapy is a cancer treatment that uses high-energy x-rays or other types of radiation to kill cancer cells or keep them from growing. There are two types of radiation therapy: - External radiation therapy uses a machine outside the body to send radiation toward the cancer. - Internal radiation therapy uses a radioactive substance sealed in needles, seeds, wires, or catheters that are placed directly into or near the cancer. The way the radiation therapy is given depends on the type and stage of the cancer being treated. External radiation therapy is used to treat plasma cell neoplasms. Surgery Surgery to remove the tumor may be done and is usually followed by radiation therapy. Treatment given after the surgery, to lower the risk that the cancer will come back, is called adjuvant therapy. Watchful waiting Watchful waiting is closely monitoring a patients condition without giving any treatment until signs or symptoms appear or change. New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI website. New combinations of therapies Clinical trials are studying different combinations of biologic therapy, chemotherapy, steroid therapy, and drugs. New treatment regimens using thalidomide or lenalidomide are also being studied. Supportive care is given to lessen the problems caused by the disease or its treatment. This therapy controls problems or side effects caused by the disease or its treatment, and improves quality of life. Supportive care is given to treat problems caused by multiple myeloma and other plasma cell neoplasms. Supportive care may include the following: - Plasmapheresis: If the blood becomes thick with extra antibody proteins and interferes with circulation, plasmapheresis is done to remove extra plasma and antibody proteins from the blood. In this procedure blood is removed from the patient and sent through a machine that separates the plasma (the liquid part of the blood) from the blood cells. The patient's plasma contains the unneeded antibodies and is not returned to the patient. The normal blood cells are returned to the bloodstream along with donated plasma or a plasma replacement. Plasmapheresis does not keep new antibodies from forming. - High-dose chemotherapy with stem cell transplant: If amyloidosis occurs, treatment may include high-dose chemotherapy followed by stem cell transplant using the patient's own stem cells. - Biologic therapy: Biologic therapy with thalidomide, lenalidomide, or pomalidomide is given to treat amyloidosis. - Targeted therapy: Targeted therapy with proteasome inhibitors is given to treat amyloidosis. - Radiation therapy: Radiation therapy is given for bone lesions of the spine. - Chemotherapy: Chemotherapy is given to reduce back pain from osteoporosis or compression fractures of the spine. - Bisphosphonate therapy: Bisphosphonate therapy is given to slow bone loss and reduce bone pain. See the following PDQ summaries for more information on bisphosphonates and problems related to their use: - Cancer Pain - Oral Complications of Chemotherapy and Head/Neck Radiation Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials. Follow-up tests may be needed. Some of the tests that were done to diagnose the cancer or to find out the stage of the cancer may be repeated. Some tests will be repeated in order to see how well the treatment is working. Decisions about whether to continue, change, or stop treatment may be based on the results of these tests. Some of the tests will continue to be done from time to time after treatment has ended. The results of these tests can show if your condition has changed or if the cancer has recurred (come back). These tests are sometimes called follow-up tests or check-ups. Treatment Options for Plasma Cell Neoplasms Monoclonal Gammopathy of Undetermined Significance Treatment of monoclonal gammopathy of undetermined significance (MGUS) is usually watchful waiting. Regular blood tests to check the level of M protein in the blood and physical exams to check for signs or symptoms of cancer will be done. Check the list of NCI-supported cancer clinical trials that are now accepting patients with monoclonal gammopathy of undetermined significance. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Isolated Plasmacytoma of Bone Treatment of isolated plasmacytoma of bone is usually radiation therapy to the bone lesion. Check the list of NCI-supported cancer clinical trials that are now accepting patients with isolated plasmacytoma of bone. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Extramedullary Plasmacytoma Treatment of extramedullary plasmacytoma may include the following: - Radiation therapy to the tumor and nearby lymph nodes. - Surgery, usually followed by radiation therapy. - Watchful waiting after initial treatment, followed by radiation therapy, surgery, or chemotherapy if the tumor grows or causes signs or symptoms. Check the list of NCI-supported cancer clinical trials that are now accepting patients with extramedullary plasmacytoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Multiple Myeloma Patients without signs or symptoms may not need treatment. When signs or symptoms appear, the treatment of multiple myeloma may be done in phases: - Induction therapy : This is the first phase of treatment. Its goal is to reduce the amount of disease, and may include one or more of the following: - Corticosteroid therapy. - Biologic therapy with lenalidomide, pomalidomide, or thalidomide therapy. - Targeted therapy with proteasome inhibitors (bortezomib, carfilzomib, ixazomib, daratumumab, and elotuzumab). - Chemotherapy. - Histone deacetylase inhibitor therapy with panobinostat. - A clinical trial of different combinations of treatment. - Consolidation chemotherapy : This is the second phase of treatment. Treatment in the consolidation phase is to kill any remaining cancer cells. High-dose chemotherapy is followed by either: - one autologous stem cell transplant, in which the patient's stem cells from the blood or bone marrow are used; or - two autologous stem cell transplants followed by an autologous or allogeneic stem cell transplant, in which the patient receives stem cells from the blood or bone marrow of a donor; or - one allogeneic stem cell transplant. - Maintenance therapy : After the initial treatment, maintenance therapy is often given to help keep the disease in remission for a longer time. Several types of treatment are being studied for this use, including the following: - Chemotherapy. - Biologic therapy with interferon. - Corticosteroid therapy. - Lenalidomide therapy. - Targeted therapy with a proteasome inhibitor (bortezomib). Check the list of NCI-supported cancer clinical trials that are now accepting patients with multiple myeloma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Refractory Multiple Myeloma Treatment of refractory multiple myeloma may include the following: - Watchful waiting for patients whose disease is stable. - A different treatment than treatment already given, for patients whose tumor kept growing during treatment. (See Multiple Myeloma treatment options.) - A clinical trial of a new therapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with refractory multiple myeloma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website.
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Plasma Cell Neoplasms (Including Multiple Myeloma)
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research
what research (or clinical trials) is being done for Plasma Cell Neoplasms (Including Multiple Myeloma) ?
New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI website. New combinations of therapies Clinical trials are studying different combinations of biologic therapy, chemotherapy, steroid therapy, and drugs. New treatment regimens using thalidomide or lenalidomide are also being studied. Supportive care is given to lessen the problems caused by the disease or its treatment. This therapy controls problems or side effects caused by the disease or its treatment, and improves quality of life. Supportive care is given to treat problems caused by multiple myeloma and other plasma cell neoplasms. Supportive care may include the following: - Plasmapheresis: If the blood becomes thick with extra antibody proteins and interferes with circulation, plasmapheresis is done to remove extra plasma and antibody proteins from the blood. In this procedure blood is removed from the patient and sent through a machine that separates the plasma (the liquid part of the blood) from the blood cells. The patient's plasma contains the unneeded antibodies and is not returned to the patient. The normal blood cells are returned to the bloodstream along with donated plasma or a plasma replacement. Plasmapheresis does not keep new antibodies from forming. - High-dose chemotherapy with stem cell transplant: If amyloidosis occurs, treatment may include high-dose chemotherapy followed by stem cell transplant using the patient's own stem cells. - Biologic therapy: Biologic therapy with thalidomide, lenalidomide, or pomalidomide is given to treat amyloidosis. - Targeted therapy: Targeted therapy with proteasome inhibitors is given to treat amyloidosis. - Radiation therapy: Radiation therapy is given for bone lesions of the spine. - Chemotherapy: Chemotherapy is given to reduce back pain from osteoporosis or compression fractures of the spine. - Bisphosphonate therapy: Bisphosphonate therapy is given to slow bone loss and reduce bone pain. See the following PDQ summaries for more information on bisphosphonates and problems related to their use: - Cancer Pain - Oral Complications of Chemotherapy and Head/Neck Radiation Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials.
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Adult Soft Tissue Sarcoma
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information
What is (are) Adult Soft Tissue Sarcoma ?
Key Points - Adult soft tissue sarcoma is a disease in which malignant (cancer) cells form in the soft tissues of the body. - Having certain inherited disorders can increase the risk of adult soft tissue sarcoma. - A sign of adult soft tissue sarcoma is a lump or swelling in soft tissue of the body. - Adult soft tissue sarcoma is diagnosed with a biopsy. - Certain factors affect treatment options and prognosis (chance of recovery). Adult soft tissue sarcoma is a disease in which malignant (cancer) cells form in the soft tissues of the body. The soft tissues of the body include the muscles, tendons (bands of fiber that connect muscles to bones), fat, blood vessels, lymph vessels, nerves, and tissues around joints. Adult soft tissue sarcomas can form almost anywhere in the body, but are most common in the head, neck, arms, legs, trunk, and abdomen. There are many types of soft tissue sarcoma. The cells of each type of sarcoma look different under a microscope, based on the type of soft tissue in which the cancer began. See the following PDQ summaries for more information on soft tissue sarcomas: - Childhood Soft Tissue Sarcoma Treatment - Ewing Sarcoma Family of Tumors Treatment - Gastrointestinal Stromal Tumors Treatment - Kaposi Sarcoma Treatment - Uterine Sarcoma Treatment
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Adult Soft Tissue Sarcoma
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susceptibility
Who is at risk for Adult Soft Tissue Sarcoma? ?
Having certain inherited disorders can increase the risk of adult soft tissue sarcoma. Anything that increases your risk of getting a disease is called a risk factor. Having a risk factor does not mean that you will get cancer; not having risk factors doesn't mean that you will not get cancer. Talk with your doctor if you think you may be at risk. Risk factors for soft tissue sarcoma include the following inherited disorders: - Retinoblastoma. - Neurofibromatosis type 1 (NF1; von Recklinghausen disease). - Tuberous sclerosis (Bourneville disease). - Familial adenomatous polyposis (FAP; Gardner syndrome). - Li-Fraumeni syndrome. - Werner syndrome (adult progeria). - Nevoid basal cell carcinoma syndrome (Gorlin syndrome). Other risk factors for soft tissue sarcoma include the following: - Past treatment with radiation therapy for certain cancers. - Being exposed to certain chemicals, such as Thorotrast (thorium dioxide), vinyl chloride, or arsenic. - Having swelling (lymphedema) in the arms or legs for a long time.
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Adult Soft Tissue Sarcoma
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symptoms
What are the symptoms of Adult Soft Tissue Sarcoma ?
A sign of adult soft tissue sarcoma is a lump or swelling in soft tissue of the body. A sarcoma may appear as a painless lump under the skin, often on an arm or a leg. Sarcomas that begin in the abdomen may not cause signs or symptoms until they get very big. As the sarcoma grows bigger and presses on nearby organs, nerves, muscles, or blood vessels, signs and symptoms may include: - Pain. - Trouble breathing. Other conditions may cause the same signs and symptoms. Check with your doctor if you have any of these problems.
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Adult Soft Tissue Sarcoma
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exams and tests
How to diagnose Adult Soft Tissue Sarcoma ?
Adult soft tissue sarcoma is diagnosed with a biopsy. If your doctor thinks you may have a soft tissue sarcoma, a biopsy will be done. The type of biopsy will be based on the size of the tumor and where it is in the body. There are three types of biopsy that may be used: - Incisional biopsy : The removal of part of a lump or a sample of tissue. - Core biopsy : The removal of tissue using a wide needle. - Excisional biopsy : The removal of an entire lump or area of tissue that doesnt look normal. Samples will be taken from the primary tumor, lymph nodes, and other suspicious areas. A pathologist views the tissue under a microscope to look for cancer cells and to find out the grade of the tumor. The grade of a tumor depends on how abnormal the cancer cells look under a microscope and how quickly the cells are dividing. High-grade tumors usually grow and spread more quickly than low-grade tumors. Because soft tissue sarcoma can be hard to diagnose, patients should ask to have tissue samples checked by a pathologist who has experience in diagnosing soft tissue sarcoma. The following tests may be done on the tissue that was removed: - Immunohistochemistry : A test that uses antibodies to check for certain antigens in a sample of tissue. The antibody is usually linked to a radioactive substance or a dye that causes the tissue to light up under a microscope. This type of test may be used to tell the difference between different types of cancer. - Light and electron microscopy : A laboratory test in which cells in a sample of tissue are viewed under regular and high-powered microscopes to look for certain changes in the cells. - Cytogenetic analysis : A laboratory test in which cells in a sample of tissue are viewed under a microscope to look for certain changes in the chromosomes. - FISH (fluorescence in situ hybridization): A laboratory test used to look at genes or chromosomes in cells and tissues. Pieces of DNA that contain a fluorescent dye are made in the laboratory and added to cells or tissues on a glass slide. When these pieces of DNA attach to certain genes or areas of chromosomes on the slide, they light up when viewed under a microscope with a special light. - Flow cytometry : A laboratory test that measures the number of cells in a sample, the percentage of live cells in a sample, and certain characteristics of cells, such as size, shape, and the presence of tumor markers on the cell surface. The cells are stained with a light-sensitive dye, placed in a fluid, and passed in a stream before a laser or other type of light. The measurements are based on how the light-sensitive dye reacts to the light.
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Adult Soft Tissue Sarcoma
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outlook
What is the outlook for Adult Soft Tissue Sarcoma ?
Certain factors affect treatment options and prognosis (chance of recovery). The treatment options and prognosis (chance of recovery) depend on the following: - The type of soft tissue sarcoma. - The size, grade, and stage of the tumor. - How fast the cancer cells are growing and dividing. - Where the tumor is in the body. - Whether all of the tumor is removed by surgery. - The patient's age and general health. - Whether the cancer has recurred (come back).
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Adult Soft Tissue Sarcoma
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stages
What are the stages of Adult Soft Tissue Sarcoma ?
Key Points - After adult soft tissue sarcoma has been diagnosed, tests are done to find out if cancer cells have spread within the soft tissue or to other parts of the body. - There are three ways that cancer spreads in the body. - Cancer may spread from where it began to other parts of the body. - The following stages are used for adult soft tissue sarcoma: - Stage I - Stage II - Stage III - Stage IV After adult soft tissue sarcoma has been diagnosed, tests are done to find out if cancer cells have spread within the soft tissue or to other parts of the body. The process used to find out if cancer has spread within the soft tissue or to other parts of the body is called staging. Staging of soft tissue sarcoma is also based on the grade and size of the tumor, whether it is superficial (close to the skin's surface) or deep, and whether it has spread to the lymph nodes or other parts of the body. The information gathered from the staging process determines the stage of the disease. It is important to know the stage in order to plan treatment. The following tests and procedures may be used in the staging process: - Physical exam and history : An exam of the body to check general signs of health, including checking for signs of disease, such as lumps or anything else that seems unusual. A history of the patients health habits and past illnesses and treatments will also be taken. - Chest x-ray : An x-ray of the organs and bones inside the chest. An x-ray is a type of energy beam that can go through the body and onto film, making a picture of areas inside the body. - Blood chemistry studies : A procedure in which a blood sample is checked to measure the amounts of certain substances released into the blood by organs and tissues in the body. An unusual (higher or lower than normal) amount of a substance can be a sign of disease. - Complete blood count (CBC): A procedure in which a sample of blood is drawn and checked for the following: - The number of red blood cells, white blood cells, and platelets. - The amount of hemoglobin (the protein that carries oxygen) in the red blood cells. - The portion of the blood sample made up of red blood cells. - CT scan (CAT scan): A procedure that makes a series of detailed pictures of areas inside of the body, such as the lung and abdomen, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography. - MRI (magnetic resonance imaging): A procedure that uses a magnet, radio waves, and a computer to make a series of detailed pictures of areas inside the body. This procedure is also called nuclear magnetic resonance imaging (NMRI). - PET scan (positron emission tomography scan): A procedure to find malignant tumor cells in the body. A small amount of radioactive glucose (sugar) is injected into a vein. The PET scanner rotates around the body and makes a picture of where glucose is being used in the body. Malignant tumor cells show up brighter in the picture because they are more active and take up more glucose than normal cells do. The results of these tests are viewed together with the results of the tumor biopsy to find out the stage of the soft tissue sarcoma before treatment is given. Sometimes chemotherapy or radiation therapy is given as the initial treatment and afterwards the soft tissue sarcoma is staged again. There are three ways that cancer spreads in the body. Cancer can spread through tissue, the lymph system, and the blood: - Tissue. The cancer spreads from where it began by growing into nearby areas. - Lymph system. The cancer spreads from where it began by getting into the lymph system. The cancer travels through the lymph vessels to other parts of the body. - Blood. The cancer spreads from where it began by getting into the blood. The cancer travels through the blood vessels to other parts of the body. Cancer may spread from where it began to other parts of the body. When cancer spreads to another part of the body, it is called metastasis. Cancer cells break away from where they began (the primary tumor) and travel through the lymph system or blood. - Lymph system. The cancer gets into the lymph system, travels through the lymph vessels, and forms a tumor (metastatic tumor) in another part of the body. - Blood. The cancer gets into the blood, travels through the blood vessels, and forms a tumor (metastatic tumor) in another part of the body. The metastatic tumor is the same type of cancer as the primary tumor. For example, if soft tissue sarcoma spreads to the lung, the cancer cells in the lung are actually soft tissue sarcoma cells. The disease is metastatic soft tissue sarcoma, not lung cancer. The following stages are used for adult soft tissue sarcoma: Stage I Stage I is divided into stages IA and IB: - In stage IA, the tumor is low-grade (likely to grow and spread slowly) and 5 centimeters or smaller. It may be either superficial (in subcutaneous tissue with no spread into connective tissue or muscle below) or deep (in the muscle and may be in connective or subcutaneous tissue). - In stage IB, the tumor is low-grade (likely to grow and spread slowly) and larger than 5 centimeters. It may be either superficial (in subcutaneous tissue with no spread into connective tissue or muscle below) or deep (in the muscle and may be in connective or subcutaneous tissue). Stage II Stage II is divided into stages IIA and IIB: - In stage IIA, the tumor is mid-grade (somewhat likely to grow and spread quickly) or high-grade (likely to grow and spread quickly) and 5 centimeters or smaller. It may be either superficial (in subcutaneous tissue with no spread into connective tissue or muscle below) or deep (in the muscle and may be in connective or subcutaneous tissue). - In stage IIB, the tumor is mid-grade (somewhat likely to grow and spread quickly) and larger than 5 centimeters. It may be either superficial (in subcutaneous tissue with no spread into connective tissue or muscle below) or deep (in the muscle and may be in connective or subcutaneous tissue). Stage III In stage III, the tumor is either: - high-grade (likely to grow and spread quickly), larger than 5 centimeters, and either superficial (in subcutaneous tissue with no spread into connective tissue or muscle below) or deep (in the muscle and may be in connective or subcutaneous tissue); or - any grade, any size, and has spread to nearby lymph nodes. Stage III cancer that has spread to the lymph nodes is advanced stage III. Stage IV In stage IV, the tumor is any grade, any size, and may have spread to nearby lymph nodes. Cancer has spread to distant parts of the body, such as the lungs.
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Adult Soft Tissue Sarcoma
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research
what research (or clinical trials) is being done for Adult Soft Tissue Sarcoma ?
Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials.
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Adult Soft Tissue Sarcoma
8
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treatment
What are the treatments for Adult Soft Tissue Sarcoma ?
Key Points - There are different types of treatment for patients with adult soft tissue sarcoma. - Three types of standard treatment are used: - Surgery - Radiation therapy - Chemotherapy - New types of treatment are being tested in clinical trials. - Regional chemotherapy - Treatment for adult soft tissue sarcoma may cause side effects. - Patients may want to think about taking part in a clinical trial. - Patients can enter clinical trials before, during, or after starting their cancer treatment. - Follow-up tests may be needed. There are different types of treatment for patients with adult soft tissue sarcoma. Different types of treatments are available for patients with adult soft tissue sarcoma. Some treatments are standard (the currently used treatment), and some are being tested in clinical trials. A treatment clinical trial is a research study meant to help improve current treatments or obtain information on new treatments for patients with cancer. When clinical trials show that a new treatment is better than the standard treatment, the new treatment may become the standard treatment. Patients may want to think about taking part in a clinical trial. Some clinical trials are open only to patients who have not started treatment. Three types of standard treatment are used: Surgery Surgery is the most common treatment for adult soft tissue sarcoma. For some soft-tissue sarcomas, removal of the tumor in surgery may be the only treatment needed. The following surgical procedures may be used: - Mohs microsurgery: A procedure in which the tumor is cut from the skin in thin layers. During surgery, the edges of the tumor and each layer of tumor removed are viewed through a microscope to check for cancer cells. Layers continue to be removed until no more cancer cells are seen. This type of surgery removes as little normal tissue as possible and is often used where appearance is important, such as on the skin. - Wide local excision: Removal of the tumor along with some normal tissue around it. For tumors of the head, neck, abdomen, and trunk, as little normal tissue as possible is removed. - Limb-sparing surgery: Removal of the tumor in an arm or leg without amputation, so the use and appearance of the limb is saved. Radiation therapy or chemotherapy may be given first to shrink the tumor. The tumor is then removed in a wide local excision. Tissue and bone that are removed may be replaced with a graft using tissue and bone taken from another part of the patient's body, or with an implant such as artificial bone. - Amputation: Surgery to remove part or all of a limb or appendage, such as an arm or leg. Amputation is rarely used to treat soft tissue sarcoma of the arm or leg. - Lymphadenectomy: A surgical procedure in which lymph nodes are removed and a sample of tissue is checked under a microscope for signs of cancer. This procedure is also called a lymph node dissection. Radiation therapy or chemotherapy may be given before or after surgery to remove the tumor. When given before surgery, radiation therapy or chemotherapy will make the tumor smaller and reduce the amount of tissue that needs to be removed during surgery. Treatment given before surgery is called neoadjuvant therapy. When given after surgery, radiation therapy or chemotherapy will kill any remaining cancer cells. Treatment given after the surgery, to lower the risk that the cancer will come back, is called adjuvant therapy. Radiation therapy Radiation therapy is a cancer treatment that uses high-energy x-rays or other types of radiation to kill cancer cells or keep them from growing. There are two types of radiation therapy: - External radiation therapy uses a machine outside the body to send radiation toward the cancer. - Internal radiation therapy uses a radioactive substance sealed in needles, seeds, wires, or catheters that are placed directly into or near the cancer. Intensity-modulated radiation therapy (IMRT) is a type of 3-dimensional (3-D) radiation therapy that uses a computer to make pictures of the size and shape of the tumor. Thin beams of radiation of different intensities (strengths) are aimed at the tumor from many angles. This type of external radiation therapy causes less damage to nearby healthy tissue and is less likely to cause dry mouth, trouble swallowing, and damage to the skin. The way the radiation therapy is given depends on the type and stage of the cancer being treated. External radiation therapy and internal radiation therapy may be used to treat adult soft tissue sarcoma. Chemotherapy Chemotherapy is a cancer treatment that uses drugs to stop the growth of cancer cells, either by killing the cells or by stopping them from dividing. When chemotherapy is taken by mouth or injected into a vein or muscle, the drugs enter the bloodstream and can reach cancer cells throughout the body (systemic chemotherapy). The way the chemotherapy is given depends on the type and stage of the cancer being treated. See Drugs Approved for Soft Tissue Sarcoma for more information. New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI website. Regional chemotherapy Clinical trials are studying ways to improve the effect of chemotherapy on tumor cells, including the following: - Regional hyperthermia therapy: A treatment in which tissue around the tumor is exposed to high temperatures to damage and kill cancer cells or to make cancer cells more sensitive to chemotherapy. - Isolated limb perfusion: A procedure that sends chemotherapy directly to an arm or leg in which the cancer has formed. The flow of blood to and from the limb is temporarily stopped with a tourniquet, and anticancer drugs are put directly into the blood of the limb. This sends a high dose of drugs to the tumor. Treatment for adult soft tissue sarcoma may cause side effects. For information about side effects caused by treatment for cancer, see our Side Effects page. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials. Follow-up tests may be needed. Some of the tests that were done to diagnose the cancer or to find out the stage of the cancer may be repeated. Some tests will be repeated in order to see how well the treatment is working. Decisions about whether to continue, change, or stop treatment may be based on the results of these tests. Some of the tests will continue to be done from time to time after treatment has ended. The results of these tests can show if your condition has changed or if the cancer has recurred (come back). These tests are sometimes called follow-up tests or check-ups. Treatment Options for Adult Soft Tissue Sarcoma Stage I Adult Soft Tissue Sarcoma Treatment of stage I soft tissue sarcoma may include the following: - Surgery to remove the tumor, such as Mohs microsurgery for small sarcomas of the skin, wide local excision, or limb-sparing surgery. - Radiation therapy before and/or after surgery. Check the list of NCI-supported cancer clinical trials that are now accepting patients with stage I adult soft tissue sarcoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Stage II Adult Soft Tissue Sarcoma and Stage III Adult Soft Tissue Sarcoma That Has Not Spread to Lymph Nodes Treatment of stage II adult soft tissue sarcoma and stage III adult soft tissue sarcoma that has not spread to lymph nodes may include the following: - Surgery to remove the tumor, such as wide local excision or limb-sparing surgery. - Radiation therapy before or after surgery. - Radiation therapy or chemotherapy before limb-sparing surgery. Radiation therapy may also be given after surgery. - High-dose radiation therapy for tumors that cannot be removed by surgery. Check the list of NCI-supported cancer clinical trials that are now accepting patients with stage II adult soft tissue sarcoma and stage III adult soft tissue sarcoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Stage III Adult Soft Tissue Sarcoma That Has Spread to Lymph Nodes (Advanced) Treatment of stage III adult soft tissue sarcoma that has spread to lymph nodes (advanced) may include the following: - Surgery (wide local excision) with lymphadenectomy. Radiation therapy may also be given after surgery. - A clinical trial of surgery followed by chemotherapy. - A clinical trial of regional hyperthermia therapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with stage III adult soft tissue sarcoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Stage IV Adult Soft Tissue Sarcoma Treatment of stage IV adult soft tissue sarcoma may include the following: - Chemotherapy. - Surgery to remove cancer that has spread to the lungs. Check the list of NCI-supported cancer clinical trials that are now accepting patients with stage IV adult soft tissue sarcoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website.
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Juvenile Myelomonocytic Leukemia
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information
What is (are) Juvenile Myelomonocytic Leukemia ?
Key Points - Juvenile myelomonocytic leukemia is a childhood disease in which too many myelocytes and monocytes (immature white blood cells) are made in the bone marrow. - Signs and symptoms of juvenile myelomonocytic leukemia include fever, weight loss, and feeling very tired. - Certain factors affect prognosis (chance of recovery) and treatment options. Juvenile myelomonocytic leukemia is a childhood disease in which too many myelocytes and monocytes (immature white blood cells) are made in the bone marrow. Juvenile myelomonocytic leukemia (JMML) is a rare childhood cancer that occurs more often in children younger than 2 years. Children who have neurofibromatosis type 1 and males have an increased risk of juvenile myelomonocytic leukemia. In JMML, the body tells too many blood stem cells to become two types of white blood cells called myelocytes and monocytes. Some of these blood stem cells never become mature white blood cells. These immature white blood cells are called blasts. Over time, the myelocytes, monocytes, and blasts crowd out the red blood cells and platelets in the bone marrow. When this happens, infection, anemia, or easy bleeding may occur.
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Juvenile Myelomonocytic Leukemia
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symptoms
What are the symptoms of Juvenile Myelomonocytic Leukemia ?
Signs and symptoms of juvenile myelomonocytic leukemia include fever, weight loss, and feeling very tired. These and other signs and symptoms may be caused by JMML or by other conditions. Check with your doctor if you have any of the following: - Fever for no known reason. - Having infections, such as bronchitis or tonsillitis. - Feeling very tired. - Easy bruising or bleeding. - Skin rash. - Painless swelling of the lymph nodes in the neck, underarm, stomach, or groin. - Pain or a feeling of fullness below the ribs.
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Juvenile Myelomonocytic Leukemia
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outlook
What is the outlook for Juvenile Myelomonocytic Leukemia ?
Certain factors affect prognosis (chance of recovery) and treatment options. The prognosis (chance of recovery) and treatment options for JMML depend on the following: - The age of the child at diagnosis. - The number of platelets in the blood. - The amount of a certain type of hemoglobin in red blood cells.
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Juvenile Myelomonocytic Leukemia
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treatment
What are the treatments for Juvenile Myelomonocytic Leukemia ?
Treatment of juvenile myelomonocytic leukemia (JMML) may include the following: - Combination chemotherapy. - Stem cell transplant. - 13-cis-retinoic acid therapy. - A clinical trial of a new treatment, such as targeted therapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with juvenile myelomonocytic leukemia. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website.
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Intraocular (Uveal) Melanoma
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information
What is (are) Intraocular (Uveal) Melanoma ?
Key Points - Intraocular melanoma is a disease in which malignant (cancer) cells form in the tissues of the eye. - Being older and having fair skin may increase the risk of intraocular melanoma. - Signs of intraocular melanoma include blurred vision or a dark spot on the iris. - Tests that examine the eye are used to help detect (find) and diagnose intraocular melanoma. - A biopsy of the tumor is rarely needed to diagnose intraocular melanoma. - Certain factors affect prognosis (chance of recovery) and treatment options. Intraocular melanoma is a disease in which malignant (cancer) cells form in the tissues of the eye. Intraocular melanoma begins in the middle of three layers of the wall of the eye. The outer layer includes the white sclera (the "white of the eye") and the clear cornea at the front of the eye. The inner layer has a lining of nerve tissue, called the retina, which senses light and sends images along the optic nerve to the brain. The middle layer, where intraocular melanoma forms, is called the uvea or uveal tract, and has three main parts: - Iris The iris is the colored area at the front of the eye (the "eye color"). It can be seen through the clear cornea. The pupil is in the center of the iris and it changes size to let more or less light into the eye. Intraocular melanoma of the iris is usually a small tumor that grows slowly and rarely spreads to other parts of the body. - Ciliary body The ciliary body is a ring of tissue with muscle fibers that change the size of the pupil and the shape of the lens. It is found behind the iris. Changes in the shape of the lens help the eye focus. The ciliary body also makes the clear fluid that fills the space between the cornea and the iris. Intraocular melanoma of the ciliary body is often larger and more likely to spread to other parts of the body than intraocular melanoma of the iris. - Choroid The choroid is a layer of blood vessels that bring oxygen and nutrients to the eye. Most intraocular melanomas begin in the choroid. Intraocular melanoma of the choroid is often larger and more likely to spread to other parts of the body than intraocular melanoma of the iris. Intraocular melanoma is a rare cancer that forms from cells that make melanin in the iris, ciliary body, and choroid. It is the most common eye cancer in adults.
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Intraocular (Uveal) Melanoma
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susceptibility
Who is at risk for Intraocular (Uveal) Melanoma? ?
Being older and having fair skin may increase the risk of intraocular melanoma. Anything that increases your risk of getting a disease is called a risk factor. Having a risk factor does not mean that you will get cancer; not having risk factors doesnt mean that you will not get cancer. Talk with your doctor if you think you may be at risk. Risk factors for intraocular melanoma include the following: - Having a fair complexion, which includes the following: - Fair skin that freckles and burns easily, does not tan, or tans poorly. - Blue or green or other light-colored eyes. - Older age. - Being white.
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Intraocular (Uveal) Melanoma
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symptoms
What are the symptoms of Intraocular (Uveal) Melanoma ?
Signs of intraocular melanoma include blurred vision or a dark spot on the iris. Intraocular melanoma may not cause early signs or symptoms. It is sometimes found during a regular eye exam when the doctor dilates the pupil and looks into the eye. Signs and symptoms may be caused by intraocular melanoma or by other conditions. Check with your doctor if you have any of the following: - Blurred vision or other change in vision. - Floaters (spots that drift in your field of vision) or flashes of light. - A dark spot on the iris. - A change in the size or shape of the pupil. - A change in the position of the eyeball in the eye socket.
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Intraocular (Uveal) Melanoma
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exams and tests
How to diagnose Intraocular (Uveal) Melanoma ?
Tests that examine the eye are used to help detect (find) and diagnose intraocular melanoma. The following tests and procedures may be used: - Physical exam and history : An exam of the body to check general signs of health, including checking for signs of disease, such as lumps or anything else that seems unusual. A history of the patients health habits and past illnesses and treatments will also be taken. - Eye exam with dilated pupil: An exam of the eye in which the pupil is dilated (enlarged) with medicated eye drops to allow the doctor to look through the lens and pupil to the retina. The inside of the eye, including the retina and the optic nerve, is checked. Pictures may be taken over time to keep track of changes in the size of the tumor. There are several types of eye exams: - Ophthalmoscopy : An exam of the inside of the back of the eye to check the retina and optic nerve using a small magnifying lens and a light. - Slit-lamp biomicroscopy : An exam of the inside of the eye to check the retina, optic nerve, and other parts of the eye using a strong beam of light and a microscope. - Gonioscopy : An exam of the front part of the eye between the cornea and iris. A special instrument is used to see if the area where fluid drains out of the eye is blocked. - Ultrasound exam of the eye: A procedure in which high-energy sound waves (ultrasound) are bounced off the internal tissues of the eye to make echoes. Eye drops are used to numb the eye and a small probe that sends and receives sound waves is placed gently on the surface of the eye. The echoes make a picture of the inside of the eye and the distance from the cornea to the retina is measured. The picture, called a sonogram, shows on the screen of the ultrasound monitor. - High-resolution ultrasound biomicroscopy : A procedure in which high-energy sound waves (ultrasound) are bounced off the internal tissues of the eye to make echoes. Eye drops are used to numb the eye and a small probe that sends and receives sound waves is placed gently on the surface of the eye. The echoes make a more detailed picture of the inside of the eye than a regular ultrasound. The tumor is checked for its size, shape, and thickness, and for signs that the tumor has spread to nearby tissue. - Transillumination of the globe and iris: An exam of the iris, cornea, lens, and ciliary body with a light placed on either the upper or lower lid. - Fluorescein angiography : A procedure to look at blood vessels and the flow of blood inside the eye. An orange fluorescent dye (fluorescein) is injected into a blood vessel in the arm and goes into the bloodstream. As the dye travels through blood vessels of the eye, a special camera takes pictures of the retina and choroid to find any areas that are blocked or leaking. - Indocyanine green angiography: A procedure to look at blood vessels in the choroid layer of the eye. A green dye (indocyanine green) is injected into a blood vessel in the arm and goes into the bloodstream. As the dye travels through blood vessels of the eye, a special camera takes pictures of the retina and choroid to find any areas that are blocked or leaking. - Ocular coherence tomography : An imaging test that uses light waves to take cross-section pictures of the retina, and sometimes the choroid, to see if there is swelling or fluid beneath the retina. A biopsy of the tumor is rarely needed to diagnose intraocular melanoma. A biopsy is the removal of cells or tissues so they can be viewed under a microscope to check for signs of cancer. Rarely, a biopsy of the tumor is needed to diagnose intraocular melanoma. Tissue that is removed during a biopsy or surgery to remove the tumor may be tested to get more information about prognosis and which treatment options are best. The following tests may be done on the sample of tissue: - Cytogenetic analysis: A laboratory test in which cells in a sample of tissue are viewed under a microscope to look for certain changes in the chromosomes. - Gene expression profiling : A laboratory test in which cells in a sample of tissue are checked for certain types of RNA. A biopsy may result in retinal detachment (the retina separates from other tissues in the eye). This can be repaired by surgery.
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Intraocular (Uveal) Melanoma
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outlook
What is the outlook for Intraocular (Uveal) Melanoma ?
Certain factors affect prognosis (chance of recovery) and treatment options. The prognosis (chance of recovery) and treatment options depend on the following: - How the melanoma cells look under a microscope. - The size and thickness of the tumor. - The part of the eye the tumor is in (the iris, ciliary body, or choroid). - Whether the tumor has spread within the eye or to other places in the body. - Whether there are certain changes in the genes linked to intraocular melanoma. - The patient's age and general health. - Whether the tumor has recurred (come back) after treatment.
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Intraocular (Uveal) Melanoma
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stages
What are the stages of Intraocular (Uveal) Melanoma ?
Key Points - After intraocular melanoma has been diagnosed, tests are done to find out if cancer cells have spread to other parts of the body. - The following sizes are used to describe intraocular melanoma: - Small - Medium - Large - There are three ways that cancer spreads in the body. - Cancer may spread from where it began to other parts of the body. - There are two staging systems for intraocular melanoma. - The following stages are used for intraocular melanoma of the iris: - Stage I - Stage II - Stage III - Stage IV - The following stages are used for intraocular melanoma of the ciliary body and choroid: - Stage I - Stage II - Stage III - Stage IV After intraocular melanoma has been diagnosed, tests are done to find out if cancer cells have spread to other parts of the body. The process used to find out if cancer has spread to other parts of the body is called staging. The information gathered from the staging process determines the stage of the disease. It is important to know the stage in order to plan treatment. The following tests and procedures may be used in the staging process: - Blood chemistry studies : A procedure in which a blood sample is checked to measure the amounts of certain substances released into the blood by organs and tissues in the body. An unusual (higher or lower than normal) amount of a substance can be a sign of disease. - Liver function tests : A procedure in which a blood sample is checked to measure the amounts of certain substances released into the blood by the liver. A higher than normal amount of a substance can be a sign the cancer has spread to the liver. - Ultrasound exam: A procedure in which high-energy sound waves (ultrasound) are bounced off internal tissues or organs, such as the liver, and make echoes. The echoes form a picture of body tissues called a sonogram. - Chest x-ray : An x-ray of the organs and bones inside the chest. An x-ray is a type of energy beam that can go through the body and onto film, making a picture of areas inside the body. - MRI (magnetic resonance imaging): A procedure that uses a magnet, radio waves, and a computer to make a series of detailed pictures of areas inside the body. This procedure is also called nuclear magnetic resonance imaging (NMRI). - CT scan (CAT scan): A procedure that makes a series of detailed pictures of areas inside the body, such as the chest, abdomen, or pelvis, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography. - PET scan (positron emission tomography scan): A procedure to find malignant tumor cells in the body. A very small amount of radioactive glucose (sugar) is injected into a vein. The PET scanner rotates around the body and makes a picture of where glucose is being used in the body. Malignant tumor cells show up brighter in the picture because they are more active and take up more glucose than normal cells do. Sometimes a PET scan and a CT scan are done at the same time. If there is any cancer, this increases the chance that it will be found. The following sizes are used to describe intraocular melanoma: Small The tumor is 5 to 16 millimeters in diameter and from 1 to 3 millimeters thick. Medium The tumor is 16 millimeters or smaller in diameter and from 3.1 to 8 millimeters thick. Large The tumor is: - more than 8 millimeters thick and any diameter; or - at least 2 millimeters thick and more than 16 millimeters in diameter. Though most intraocular melanoma tumors are raised, some are flat. These diffuse tumors grow widely across the uvea. There are three ways that cancer spreads in the body. Cancer can spread through tissue, the lymph system, and the blood: - Tissue. The cancer spreads from where it began by growing into nearby areas. - Lymph system. The cancer spreads from where it began by getting into the lymph system. The cancer travels through the lymph vessels to other parts of the body. - Blood. The cancer spreads from where it began by getting into the blood. The cancer travels through the blood vessels to other parts of the body. Cancer may spread from where it began to other parts of the body. When cancer spreads to another part of the body, it is called metastasis. Cancer cells break away from where they began (the primary tumor) and travel through the lymph system or blood. - Lymph system. The cancer gets into the lymph system, travels through the lymph vessels, and forms a tumor (metastatic tumor) in another part of the body. - Blood. The cancer gets into the blood, travels through the blood vessels, and forms a tumor (metastatic tumor) in another part of the body. The metastatic tumor is the same type of cancer as the primary tumor. For example, if intraocular melanoma spreads to the liver, the cancer cells in the liver are actually intraocular melanoma cells. The disease is metastatic intraocular melanoma, not liver cancer. There are two staging systems for intraocular melanoma. Intraocular melanoma has two staging systems. The staging system used depends on where in the eye the cancer first formed: - Iris. - Ciliary body and choroid. If intraocular melanoma spreads to the optic nerve or nearby tissue of the eye socket, it is called extraocular extension. The following stages are used for intraocular melanoma of the iris: Stage I In stage I, the tumor is in the iris only and is not more than one fourth the size of the iris. Stage II Stage II is divided into stages IIA and IIB. - In stage IIA, the tumor: - is in the iris only and is more than one fourth the size of the iris; or - is in the iris only and has caused glaucoma; or - has spread next to and/or into the ciliary body, choroid, or both. The tumor has caused glaucoma. - In stage IIB, the tumor has spread next to and/or into the ciliary body, choroid, or both, and has also spread into the sclera. The tumor has caused glaucoma. Stage III Stage III is divided into stages IIIA and IIIB. - In stage IIIA, the tumor has spread through the sclera to the outside of the eyeball. The part of the tumor outside the eyeball is not more than 5 millimeters thick. - In stage IIIB, the tumor has spread through the sclera to the outside of the eyeball. The part of the tumor outside the eyeball is more than 5 millimeters thick. Stage IV In stage IV, the tumor may be any size and has spread: - to nearby lymph nodes; or - to other parts of the body, such as the liver, lung, or bone, or to areas under the skin. The following stages are used for intraocular melanoma of the ciliary body and choroid: Intraocular melanoma of the ciliary body and choroid is grouped into four size categories. The category depends on how wide and thick the tumor is. Category 1 tumors are the smallest and category 4 tumors are the biggest. Category 1: - The tumor is not more than 12 millimeters wide and not more than 3 millimeters thick; or - the tumor is not more than 9 millimeters wide and 3.1 to 6 millimeters thick. Category 2: - The tumor is 12.1 to 18 millimeters wide and not more than 3 millimeters thick; or - the tumor is 9.1 to 15 millimeters wide and 3.1 to 6 millimeters thick; or - the tumor is not more than 12 millimeters wide and 6.1 to 9 millimeters thick. Category 3: - The tumor is 15.1 to 18 millimeters wide and 3.1 to 6 millimeters thick; or - the tumor is 12.1 to 18 millimeters wide and 6.1 to 9 millimeters thick; or - the tumor is 3.1 to 18 millimeters wide and 9.1 to 12 millimeters thick; or - the tumor is 9.1 to 15 millimeters wide and 12.1 to 15 millimeters thick. Category 4: - The tumor is more than 18 millimeters wide and may be any thickness; or - the tumor is 15.1 to 18 millimeters wide and more than 12 millimeters thick; or - the tumor is 12.1 to 15 millimeters wide and more than 15 millimeters thick. Stage I In stage I, the tumor is size category 1 and is in the choroid only. Stage II Stage II is divided into stages IIA and IIB. - In stage IIA, the tumor: - is size category 1 and has spread to the ciliary body; or - is size category 1 and has spread through the sclera to the outside of the eyeball. The part of the tumor outside the eyeball is not more than 5 millimeters thick. The tumor may have spread to the ciliary body; or - is size category 2 and is in the choroid only. - In stage IIB, the tumor: - is size category 2 and has spread to the ciliary body; or - is size category 3 and is in the choroid only. Stage III Stage III is divided into stages IIIA, IIIB, and IIIC. - In stage IIIA, the tumor: - is size category 2 and has spread through the sclera to the outside of the eyeball. The part of the tumor outside the eyeball is not more than 5 millimeters thick. The tumor may have spread to the ciliary body; or - is size category 3 and has spread to the ciliary body; or - is size category 3 and has spread through the sclera to the outside of the eyeball. The part of the tumor outside the eyeball is not more than 5 millimeters thick. The tumor has not spread to the ciliary body; or - is size category 4 and is in the choroid only. - In stage IIIB, the tumor: - is size category 3 and has spread through the sclera to the outside of the eyeball. The part of the tumor outside the eyeball is not more than 5 millimeters thick. The tumor has spread to the ciliary body; or - is size category 4 and has spread to the ciliary body; or - is size category 4 and has spread through the sclera to the outside of the eyeball. The part of the tumor outside the eyeball is not more than 5 millimeters thick. The tumor has not spread to the ciliary body. - In stage IIIC, the tumor: - is size category 4 and has spread through the sclera to the outside of the eyeball. The part of the tumor outside the eyeball is not more than 5 millimeters thick. The tumor has spread to the ciliary body; or - may be any size and has spread through the sclera to the outside of the eyeball. The part of the tumor outside the eyeball is more than 5 millimeters thick. The tumor has not spread to the ciliary body. Stage IV In stage IV, the tumor may be any size and has spread: - to nearby lymph nodes; or - to other parts of the body, such as the liver, lung, or bone, or to areas under the skin.
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Intraocular (Uveal) Melanoma
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treatment
What are the treatments for Intraocular (Uveal) Melanoma ?
Key Points - There are different types of treatments for patients with intraocular melanoma. - Five types of standard treatment are used: - Surgery - Watchful Waiting - Radiation therapy - Photocoagulation - Thermotherapy - New types of treatment are being tested in clinical trials. - Treatment for intraocular (uveal) melanoma may cause side effects. - Patients may want to think about taking part in a clinical trial. - Patients can enter clinical trials before, during, or after starting their cancer treatment. - Follow-up tests may be needed. There are different types of treatments for patients with intraocular melanoma. Different types of treatments are available for patients with intraocular melanoma. Some treatments are standard (the currently used treatment), and some are being tested in clinical trials. A treatment clinical trial is a research study meant to help improve current treatments or obtain information on new treatments for patients with cancer. When clinical trials show that a new treatment is better than the standard treatment, the new treatment may become the standard treatment. Patients may want to think about taking part in a clinical trial. Some clinical trials are open only to patients who have not started treatment. Five types of standard treatment are used: Surgery Surgery is the most common treatment for intraocular melanoma. The following types of surgery may be used: - Resection: Surgery to remove the tumor and a small amount of healthy tissue around it. - Enucleation: Surgery to remove the eye and part of the optic nerve. This is done if vision cannot be saved and the tumor is large, has spread to the optic nerve, or causes high pressure inside the eye. After surgery, the patient is usually fitted for an artificial eye to match the size and color of the other eye. - Exenteration: Surgery to remove the eye and eyelid, and muscles, nerves, and fat in the eye socket. After surgery, the patient may be fitted for an artificial eye to match the size and color of the other eye or a facial prosthesis. Watchful Waiting Watchful waiting is closely monitoring a patients condition without giving any treatment until signs or symptoms appear or change. Pictures are taken over time to keep track of changes in the size of the tumor and how fast it is growing. Watchful waiting is used for patients who do not have signs or symptoms and the tumor is not growing. It is also used when the tumor is in the only eye with useful vision. Radiation therapy Radiation therapy is a cancer treatment that uses high-energy x-rays or other types of radiation to kill cancer cells or keep them from growing. There are two types of radiation therapy: - External radiation therapy uses a machine outside the body to send radiation toward the cancer. Certain ways of giving radiation therapy can help keep radiation from damaging nearby healthy tissue. These types of external radiation therapy include the following: - Charged-particle external beam radiation therapy is a type of external-beam radiation therapy. A special radiation therapy machine aims tiny, invisible particles, called protons or helium ions, at the cancer cells to kill them with little damage to nearby normal tissues. Charged-particle radiation therapy uses a different type of radiation than the x-ray type of radiation therapy. - Gamma Knife therapy is a type of stereotactic radiosurgery used for some melanomas. This treatment can be given in one treatment. It aims tightly focused gamma rays directly at the tumor so there is little damage to healthy tissue. Gamma Knife therapy does not use a knife to remove the tumor and is not an operation. - Internal radiation therapy uses a radioactive substance sealed in needles, seeds, wires, or catheters that are placed directly into or near the cancer. Certain ways of giving radiation therapy can help keep radiation from damaging healthy tissue. This type of internal radiation therapy may include the following: - Localized plaque radiation therapy is a type of internal radiation therapy that may be used for tumors of the eye. Radioactive seeds are attached to one side of a disk, called a plaque, and placed directly on the outside wall of the eye near the tumor. The side of the plaque with the seeds on it faces the eyeball, aiming radiation at the tumor. The plaque helps protect other nearby tissue from the radiation. The way the radiation therapy is given depends on the type and stage of the cancer being treated. External and internal radiation therapy are used to treat intraocular melanoma. Photocoagulation Photocoagulation is a procedure that uses laser light to destroy blood vessels that bring nutrients to the tumor, causing the tumor cells to die. Photocoagulation may be used to treat small tumors. This is also called light coagulation. Thermotherapy Thermotherapy is the use of heat from a laser to destroy cancer cells and shrink the tumor. New types of treatment are being tested in clinical trials. Information about clinical trials is available from the NCI website. Treatment for intraocular (uveal) melanoma may cause side effects. For information about side effects caused by treatment for cancer, see our Side Effects page. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials. Follow-up tests may be needed. Some of the tests that were done to diagnose the cancer or to find out the stage of the cancer may be repeated. Some tests will be repeated in order to see how well the treatment is working. Decisions about whether to continue, change, or stop treatment may be based on the results of these tests. Some of the tests will continue to be done from time to time after treatment has ended. The results of these tests can show if your condition has changed or if the cancer has recurred (come back). These tests are sometimes called follow-up tests or check-ups. Treatment Options for Intraocular (Uveal) Melanoma Iris Melanoma Treatment of iris melanoma may include the following: - Watchful waiting. - Surgery (resection or enucleation). - Plaque radiation therapy, for tumors that cannot be removed by surgery. Check the list of NCI-supported cancer clinical trials that are now accepting patients with iris melanoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Ciliary Body Melanoma Treatment of tumors in the ciliary body and choroid may include the following: - Plaque radiation therapy. - Charged-particle external-beam radiation therapy. - Surgery (resection or enucleation). Check the list of NCI-supported cancer clinical trials that are now accepting patients with ciliary body and choroid melanoma, small size. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Choroid Melanoma Treatment of small choroid melanoma may include the following: - Watchful waiting. - Plaque radiation therapy. - Charged-particle external-beam radiation therapy. - Gamma Knife therapy. - Thermotherapy. - Surgery (resection or enucleation). Treatment of medium choroid melanoma may include the following: - Plaque radiation therapy with or without photocoagulation or thermotherapy. - Charged-particle external-beam radiation therapy. - Surgery (resection or enucleation). Treatment of large choroid melanoma may include the following: - Enucleation when the tumor is too large for treatments that save the eye. Check the list of NCI-supported cancer clinical trials that are now accepting patients with ciliary body and choroid melanoma, small size. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Extraocular Extension Melanoma and Metastatic Intraocular (Uveal) Melanoma Treatment of extraocular extension melanoma that has spread to the bone around the eye may include the following: - Surgery (exenteration). - A clinical trial. An effective treatment for metastatic intraocular melanoma has not been found. A clinical trial may be a treatment option. Talk with your doctor about your treatment options. Check the list of NCI-supported cancer clinical trials that are now accepting patients with extraocular extension melanoma and metastatic intraocular melanoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Recurrent Intraocular (Uveal) Melanoma An effective treatment for recurrent intraocular melanoma has not been found. A clinical trial may be a treatment option. Talk with your doctor about your treatment options. Check the list of NCI-supported cancer clinical trials that are now accepting patients with recurrent intraocular melanoma. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website.
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Intraocular (Uveal) Melanoma
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research
what research (or clinical trials) is being done for Intraocular (Uveal) Melanoma ?
New types of treatment are being tested in clinical trials. Information about clinical trials is available from the NCI website. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials.
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Osteosarcoma and Malignant Fibrous Histiocytoma of Bone
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information
What is (are) Osteosarcoma and Malignant Fibrous Histiocytoma of Bone ?
Key Points - Osteosarcoma and malignant fibrous histiocytoma (MFH) of the bone are diseases in which malignant (cancer) cells form in bone. - Having past treatment with radiation can increase the risk of osteosarcoma. - Signs and symptoms of osteosarcoma and MFH include swelling over a bone or a bony part of the body and joint pain. - Imaging tests are used to detect (find) osteosarcoma and MFH. - A biopsy is done to diagnose osteosarcoma. - Certain factors affect prognosis (chance of recovery) and treatment options. Osteosarcoma and malignant fibrous histiocytoma (MFH) of the bone are diseases in which malignant (cancer) cells form in bone. Osteosarcoma usually starts in osteoblasts, which are a type of bone cell that becomes new bone tissue. Osteosarcoma is most common in adolescents. It commonly forms in the ends of the long bones of the body, which include bones of the arms and legs. In children and adolescents, it often forms in the bones near the knee. Rarely, osteosarcoma may be found in soft tissue or organs in the chest or abdomen. Osteosarcoma is the most common type of bone cancer. Malignant fibrous histiocytoma (MFH) of bone is a rare tumor of the bone. It is treated like osteosarcoma. Ewing sarcoma is another kind of bone cancer, but it is not covered in this summary. See the PDQ summary about Ewing Sarcoma Treatment for more information.
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Osteosarcoma and Malignant Fibrous Histiocytoma of Bone
2
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susceptibility
Who is at risk for Osteosarcoma and Malignant Fibrous Histiocytoma of Bone? ?
Having past treatment with radiation can increase the risk of osteosarcoma. Anything that increases your risk of getting a disease is called a risk factor. Having a risk factor does not mean that you will get cancer; not having risk factors doesnt mean that you will not get cancer. Talk with your child's doctor if you think your child may be at risk. Risk factors for osteosarcoma include the following: - Past treatment with radiation therapy. - Past treatment with anticancer drugs called alkylating agents. - Having a certain change in the retinoblastoma gene. - Having certain conditions, such as the following: - Bloom syndrome. - Diamond-Blackfan anemia. - Li-Fraumeni syndrome. - Paget disease. - Hereditary retinoblastoma. - Rothmund-Thomson syndrome. - Werner syndrome.
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Osteosarcoma and Malignant Fibrous Histiocytoma of Bone
3
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symptoms
What are the symptoms of Osteosarcoma and Malignant Fibrous Histiocytoma of Bone ?
Signs and symptoms of osteosarcoma and MFH include swelling over a bone or a bony part of the body and joint pain. These and other signs and symptoms may be caused by osteosarcoma or MFH or by other conditions. Check with a doctor if your child has any of the following: - Swelling over a bone or bony part of the body. - Pain in a bone or joint. - A bone that breaks for no known reason.
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Osteosarcoma and Malignant Fibrous Histiocytoma of Bone
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exams and tests
How to diagnose Osteosarcoma and Malignant Fibrous Histiocytoma of Bone ?
Imaging tests are used to detect (find) osteosarcoma and MFH. Imaging tests are done before the biopsy. The following tests and procedures may be used: - Physical exam and history : An exam of the body to check general signs of health, including checking for signs of disease, such as lumps or anything else that seems unusual. A history of the patients health habits and past illnesses and treatments will also be taken. - X-ray : An x-ray of the organs and bones inside the body. An x-ray is a type of energy beam that can go through the body and onto film, making a picture of areas inside the body. - CT scan (CAT scan): A procedure that makes a series of detailed pictures of areas inside the body, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography. - MRI (magnetic resonance imaging): A procedure that uses a magnet, radio waves, and a computer to make a series of detailed pictures of areas inside the body. This procedure is also called nuclear magnetic resonance imaging (NMRI). A biopsy is done to diagnose osteosarcoma. Cells and tissues are removed during a biopsy so they can be viewed under a microscope by a pathologist to check for signs of cancer. It is important that the biopsy be done by a surgeon who is an expert in treating cancer of the bone. It is best if that surgeon is also the one who removes the tumor. The biopsy and the surgery to remove the tumor are planned together. The way the biopsy is done affects which type of surgery can be done later. The type of biopsy that is done will be based on the size of the tumor and where it is in the body. There are two types of biopsy that may be used: - Core biopsy : The removal of tissue using a wide needle. - Incisional biopsy : The removal of part of a lump or a sample of tissue that doesn't look normal. The following test may be done on the tissue that is removed: - Light and electron microscopy : A laboratory test in which cells in a sample of tissue are viewed under regular and high-powered microscopes to look for certain changes in the cells.
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Osteosarcoma and Malignant Fibrous Histiocytoma of Bone
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outlook
What is the outlook for Osteosarcoma and Malignant Fibrous Histiocytoma of Bone ?
Certain factors affect prognosis (chance of recovery) and treatment options. The prognosis (chance of recovery) is affected by certain factors before and after treatment. The prognosis of untreated osteosarcoma and MFH depends on the following: - Where the tumor is in the body and whether tumors formed in more than one bone. - The size of the tumor. - Whether the cancer has spread to other parts of the body and where it has spread. - The type of tumor (based on how the cancer cells look under a microscope). - The patient's age and weight at diagnosis. - Whether the tumor has caused a break in the bone. - Whether the patient has certain genetic diseases. After osteosarcoma or MFH is treated, prognosis also depends on the following: - How much of the cancer was killed by chemotherapy. - How much of the tumor was taken out by surgery. - Whether chemotherapy is delayed for more than 3 weeks after surgery takes place. - Whether the cancer has recurred (come back) within 2 years of diagnosis. Treatment options for osteosarcoma and MFH depend on the following: - Where the tumor is in the body. - The size of the tumor. - The stage of the cancer. - Whether the bones are still growing. - The patient's age and general health. - The desire of the patient and family for the patient to be able to participate in activities such as sports or have a certain appearance. - Whether the cancer is newly diagnosed or has recurred after treatment.
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Osteosarcoma and Malignant Fibrous Histiocytoma of Bone
6
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stages
What are the stages of Osteosarcoma and Malignant Fibrous Histiocytoma of Bone ?
Key Points - After osteosarcoma or malignant fibrous histiocytoma (MFH) has been diagnosed, tests are done to find out if cancer cells have spread to other parts of the body. - There are three ways that cancer spreads in the body. - Cancer may spread from where it began to other parts of the body. - Osteosarcoma and MFH are described as either localized or metastatic. After osteosarcoma or malignant fibrous histiocytoma (MFH) has been diagnosed, tests are done to find out if cancer cells have spread to other parts of the body. The process used to find out if cancer has spread to other parts of the body is called staging. For osteosarcoma and malignant fibrous histiocytoma (MFH), most patients are grouped according to whether cancer is found in only one part of the body or has spread. The following tests and procedures may be used: - X-ray : An x-ray of the organs, such as the chest, and bones inside the body. An x-ray is a type of energy beam that can go through the body and onto film, making a picture of areas inside the body. X-rays will be taken of the chest and the area where the tumor formed. - CT scan (CAT scan): A procedure that makes a series of detailed pictures of areas inside the body, such as the chest, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography. Pictures will be taken of the chest and the area where the tumor formed. - PET-CT scan : A procedure that combines the pictures from a positron emission tomography (PET) scan and a computed tomography (CT) scan. The PET and CT scans are done at the same time on the same machine. The pictures from both scans are combined to make a more detailed picture than either test would make by itself. A PET scan is a procedure to find malignant tumor cells in the body. A small amount of radioactive glucose (sugar) is injected into a vein. The PET scanner rotates around the body and makes a picture of where glucose is being used in the body. Malignant tumor cells show up brighter in the picture because they are more active and take up more glucose than normal cells do. - MRI (magnetic resonance imaging): A procedure that uses a magnet, radio waves, and a computer to make a series of detailed pictures of areas inside the body. This procedure is also called nuclear magnetic resonance imaging (NMRI). - Bone scan : A procedure to check if there are rapidly dividing cells, such as cancer cells, in the bone. A very small amount of radioactive material is injected into a vein and travels through the bloodstream. The radioactive material collects in the bones and is detected by a scanner. There are three ways that cancer spreads in the body. Cancer can spread through tissue, the lymph system, and the blood: - Tissue. The cancer spreads from where it began by growing into nearby areas. - Lymph system. The cancer spreads from where it began by getting into the lymph system. The cancer travels through the lymph vessels to other parts of the body. - Blood. The cancer spreads from where it began by getting into the blood. The cancer travels through the blood vessels to other parts of the body. Cancer may spread from where it began to other parts of the body. When cancer spreads to another part of the body, it is called metastasis. Cancer cells break away from where they began (the primary tumor) and travel through the lymph system or blood. - Lymph system. The cancer gets into the lymph system, travels through the lymph vessels, and forms a tumor (metastatic tumor) in another part of the body. - Blood. The cancer gets into the blood, travels through the blood vessels, and forms a tumor (metastatic tumor) in another part of the body. The metastatic tumor is the same type of cancer as the primary tumor. For example, if osteosarcoma spreads to the lung, the cancer cells in the lung are actually osteosarcoma cells. The disease is metastatic osteosarcoma, not lung cancer. Osteosarcoma and MFH are described as either localized or metastatic. - Localized osteosarcoma or MFH has not spread out of the bone where the cancer started. There may be one or more areas of cancer in the bone that can be removed during surgery. - Metastatic osteosarcoma or MFH has spread from the bone in which the cancer began to other parts of the body. The cancer most often spreads to the lungs. It may also spread to other bones.
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Osteosarcoma and Malignant Fibrous Histiocytoma of Bone
7
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treatment
What are the treatments for Osteosarcoma and Malignant Fibrous Histiocytoma of Bone ?
Key Points - There are different types of treatment for patients with osteosarcoma or malignant fibrous histiocytoma (MFH) of bone. - Children with osteosarcoma or MFH should have their treatment planned by a team of health care providers who are experts in treating cancer in children. - Treatment for osteosarcoma or malignant fibrous histiocytoma may cause side effects. - Four types of standard treatment are used: - Surgery - Chemotherapy - Radiation therapy - Samarium - New types of treatment are being tested in clinical trials. - Targeted therapy - Patients may want to think about taking part in a clinical trial. - Patients can enter clinical trials before, during, or after starting their cancer treatment. - Follow-up tests may be needed. There are different types of treatment for patients with osteosarcoma or malignant fibrous histiocytoma (MFH) of bone. Different types of treatment are available for children with osteosarcoma or malignant fibrous histiocytoma (MFH) of bone. Some treatments are standard (the currently used treatment), and some are being tested in clinical trials. A treatment clinical trial is a research study meant to help improve current treatments or obtain information on new treatments for patients with cancer. When clinical trials show that a new treatment is better than the standard treatment, the new treatment may become the standard treatment. Because cancer in children is rare, taking part in a clinical trial should be considered. Some clinical trials are open only to patients who have not started treatment. Children with osteosarcoma or MFH should have their treatment planned by a team of health care providers who are experts in treating cancer in children. Treatment will be overseen by a pediatric oncologist, a doctor who specializes in treating children with cancer. The pediatric oncologist works with other pediatric health care providers who are experts in treating osteosarcoma and MFH and who specialize in certain areas of medicine. These may include the following specialists: - Pediatrician. - Orthopedic surgeon. - Radiation oncologist. - Rehabilitation specialist. - Pediatric nurse specialist. - Social worker. - Psychologist. Treatment for osteosarcoma or malignant fibrous histiocytoma may cause side effects. For information about side effects that begin during treatment for cancer, see our Side Effects page. Side effects from cancer treatment that begin after treatment and continue for months or years are called late effects. Late effects of cancer treatment may include the following: - Physical problems. - Changes in mood, feelings, thinking, learning, or memory. - Second cancers (new types of cancer). Some late effects may be treated or controlled. It is important to talk with your child's doctors about the effects cancer treatment can have on your child. (See the PDQ summary on Late Effects of Treatment for Childhood Cancer for more information). Four types of standard treatment are used: Surgery Surgery to remove the entire tumor will be done when possible. Chemotherapy may be given before surgery to make the tumor smaller. This is called neoadjuvant chemotherapy. Chemotherapy is given so less bone tissue needs to be removed and there are fewer problems after surgery. The following types of surgery may be done: - Wide local excision: Surgery to remove the cancer and some healthy tissue around it. - Limb-sparing surgery: Removal of the tumor in a limb (arm or leg) without amputation, so the use and appearance of the limb is saved. Most patients with osteosarcoma in a limb can be treated with limb-sparing surgery. The tumor is removed by wide local excision. Tissue and bone that are removed may be replaced with a graft using tissue and bone taken from another part of the patient's body, or with an implant such as artificial bone. If a fracture is found at diagnosis or during chemotherapy before surgery, limb-sparing surgery may still be possible in some cases. If the surgeon is not able to remove all of the tumor and enough healthy tissue around it, an amputation may be done. - Amputation: Surgery to remove part or all of an arm or leg. This may be done when it is not possible to remove all of the tumor in limb-sparing surgery. The patient may be fitted with a prosthesis (artificial limb) after amputation. - Rotationplasty: Surgery to remove the tumor and the knee joint. The part of the leg that remains below the knee is then attached to the part of the leg that remains above the knee, with the foot facing backward and the ankle acting as a knee. A prosthesis may then be attached to the foot. Studies have shown that survival is the same whether the first surgery done is a limb-sparing surgery or an amputation. Even if the doctor removes all the cancer that can be seen at the time of the surgery, patients are also given chemotherapy after surgery to kill any cancer cells that are left in the area where the tumor was removed or that have spread to other parts of the body. Treatment given after the surgery, to lower the risk that the cancer will come back, is called adjuvant therapy. Chemotherapy Chemotherapy is a cancer treatment that uses drugs to stop the growth of cancer cells, either by killing the cells or by stopping them from dividing. When chemotherapy is taken by mouth or injected into a vein or muscle, the drugs enter the bloodstream and can reach cancer cells throughout the body (systemic chemotherapy). When chemotherapy is placed directly into the cerebrospinal fluid, an organ, or a body cavity such as the abdomen, the drugs mainly affect cancer cells in those areas (regional chemotherapy). Combination chemotherapy is the use of more than one anticancer drug. The way the chemotherapy is given depends on the type and stage of the cancer being treated. In the treatment of osteosarcoma and malignant fibrous histiocytosis of bone, chemotherapy is usually given before and after surgery to remove the primary tumor. See Drugs Approved for Bone Cancer for more information. Radiation therapy Radiation therapy is a cancer treatment that uses high-energy x-rays or other types of radiation to kill cancer cells or keep them from growing. There are two types of radiation therapy: - External radiation therapy uses a machine outside the body to send radiation toward the cancer. - Internal radiation therapy uses a radioactive substance sealed in needles, seeds, wires, or catheters that are placed directly into or near the cancer. The way the radiation therapy is given depends on the type and stage of the cancer being treated. Osteosarcoma and MFH cells are not killed easily by external radiation therapy. It may be used when a small amount of cancer is left after surgery or used together with other treatments. Samarium Samarium is a radioactive drug that targets areas where bone cells are growing, such as tumor cells in bone. It helps relieve pain caused by cancer in the bone and it also kills blood cells in the bone marrow. It also is used to treat osteosarcoma that has come back after treatment in a different bone. Treatment with samarium may be followed by stem cell transplant. Before treatment with samarium, stem cells (immature blood cells) are removed from the blood or bone marrow of the patient and are frozen and stored. After treatment with samarium is complete, the stored stem cells are thawed and given back to the patient through an infusion. These reinfused stem cells grow into (and restore) the body's blood cells. New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about ongoing clinical trials is available from the NCI website. Targeted therapy Targeted therapy is a treatment that uses drugs or other substances to find and attack specific cancer cells without harming normal cells. Kinase inhibitor therapy and monoclonal antibody therapy are types of targeted therapy being studied in clinical trials for osteosarcoma. Kinase inhibitor therapy blocks a protein needed for cancer cells to divide. Sorafenib is a type of kinase inhibitor therapy being studied for the treatment of recurrent osteosarcoma. Monoclonal antibody therapy is a cancer treatment that uses antibodies made in the laboratory, from a single type of immune system cell. These antibodies can identify substances on cancer cells or normal substances that may help cancer cells grow. The antibodies attach to the substances and kill the cancer cells, block their growth, or keep them from spreading. Monoclonal antibodies are given by infusion. They may be used alone or to carry drugs, toxins, or radioactive material directly to cancer cells. Denosumab, dinutuximab, and glembatumumab are monoclonal antibodies being studied for the treatment of recurrent osteosarcoma. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials. Follow-up tests may be needed. Some of the tests that were done to diagnose the cancer or to find out the stage of the cancer may be repeated. Some tests will be repeated in order to see how well the treatment is working. Decisions about whether to continue, change, or stop treatment may be based on the results of these tests. Some of the tests will continue to be done from time to time after treatment has ended. The results of these tests can show if your child's condition has changed or if the cancer has recurred (come back). These tests are sometimes called follow-up tests or check-ups. Treatment Options for Osteosarcoma and Malignant Fibrous Histiocytoma of Bone Localized Osteosarcoma and Malignant Fibrous Histiocytoma of Bone Treatment may include the following: - Surgery. Combination chemotherapy is usually given before and after surgery. - Surgery followed by radiation therapy when the tumor cannot be completely removed by surgery. Check the list of NCI-supported cancer clinical trials that are now accepting patients with localized osteosarcoma and localized childhood malignant fibrous histiocytoma of bone. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your child's doctor about clinical trials that may be right for your child. General information about clinical trials is available from the NCI website. Metastatic Osteosarcoma and Malignant Fibrous Histiocytoma of Bone Lung Metastasis When osteosarcoma or malignant fibrous histiocytoma (MFH) spreads, it usually spreads to the lung. Treatment of osteosarcoma and MFH with lung metastasis may include the following: - Combination chemotherapy followed by surgery to remove the primary cancer and the cancer that has spread to the lung. Bone Metastasis or Bone with Lung Metastasis Osteosarcoma and malignant fibrous histiocytoma may spread to a distant bone and/or the lung. Treatment may include the following: - Combination chemotherapy followed by surgery to remove the primary tumor and the cancer that has spread to other parts of the body. More chemotherapy is given after surgery. - Surgery to remove the primary tumor followed by chemotherapy and surgery to remove cancer that has spread to other parts of the body. Check the list of NCI-supported cancer clinical trials that are now accepting patients with metastatic osteosarcoma and metastatic childhood malignant fibrous histiocytoma of bone. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your child's doctor about clinical trials that may be right for your child. General information about clinical trials is available from the NCI website. Recurrent Osteosarcoma and Malignant Fibrous Histiocytoma of Bone Treatment of recurrent osteosarcoma and malignant fibrous histiocytoma of bone may include the following: - Surgery to remove the tumor with or without chemotherapy. - Samarium with or without stem cell transplant using the patient's own stem cells, as palliative treatment to relieve pain and improve the quality of life. - A clinical trial of new types of treatment for patients whose cancer cannot be removed by surgery. These may include targeted therapy such as kinase inhibitor therapy or monoclonal antibody therapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with recurrent osteosarcoma and recurrent childhood malignant fibrous histiocytoma of bone. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your child's doctor about clinical trials that may be right for your child. General information about clinical trials is available from the NCI website.
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Osteosarcoma and Malignant Fibrous Histiocytoma of Bone
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research
what research (or clinical trials) is being done for Osteosarcoma and Malignant Fibrous Histiocytoma of Bone ?
New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about ongoing clinical trials is available from the NCI website. Targeted therapy Targeted therapy is a treatment that uses drugs or other substances to find and attack specific cancer cells without harming normal cells. Kinase inhibitor therapy and monoclonal antibody therapy are types of targeted therapy being studied in clinical trials for osteosarcoma. Kinase inhibitor therapy blocks a protein needed for cancer cells to divide. Sorafenib is a type of kinase inhibitor therapy being studied for the treatment of recurrent osteosarcoma. Monoclonal antibody therapy is a cancer treatment that uses antibodies made in the laboratory, from a single type of immune system cell. These antibodies can identify substances on cancer cells or normal substances that may help cancer cells grow. The antibodies attach to the substances and kill the cancer cells, block their growth, or keep them from spreading. Monoclonal antibodies are given by infusion. They may be used alone or to carry drugs, toxins, or radioactive material directly to cancer cells. Denosumab, dinutuximab, and glembatumumab are monoclonal antibodies being studied for the treatment of recurrent osteosarcoma. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials. Follow-up tests may be needed. Some of the tests that were done to diagnose the cancer or to find out the stage of the cancer may be repeated. Some tests will be repeated in order to see how well the treatment is working. Decisions about whether to continue, change, or stop treatment may be based on the results of these tests. Some of the tests will continue to be done from time to time after treatment has ended. The results of these tests can show if your child's condition has changed or if the cancer has recurred (come back). These tests are sometimes called follow-up tests or check-ups.
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Primary CNS Lymphoma
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information
What is (are) Primary CNS Lymphoma ?
Key Points - Primary central nervous system (CNS) lymphoma is a disease in which malignant (cancer) cells form in the lymph tissue of the brain and/or spinal cord. - Having a weakened immune system may increase the risk of developing primary CNS lymphoma. - Tests that examine the eyes, brain, and spinal cord are used to detect (find) and diagnose primary CNS lymphoma. - Certain factors affect prognosis (chance of recovery) and treatment options. Primary central nervous system (CNS) lymphoma is a disease in which malignant (cancer) cells form in the lymph tissue of the brain and/or spinal cord. Lymphoma is a disease in which malignant (cancer) cells form in the lymph system. The lymph system is part of the immune system and is made up of the lymph, lymph vessels, lymph nodes, spleen, thymus, tonsils, and bone marrow. Lymphocytes (carried in the lymph) travel in and out of the central nervous system (CNS). It is thought that some of these lymphocytes become malignant and cause lymphoma to form in the CNS. Primary CNS lymphoma can start in the brain, spinal cord, or meninges (the layers that form the outer covering of the brain). Because the eye is so close to the brain, primary CNS lymphoma can also start in the eye (called ocular lymphoma).
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Primary CNS Lymphoma
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susceptibility
Who is at risk for Primary CNS Lymphoma? ?
Having a weakened immune system may increase the risk of developing primary CNS lymphoma. Anything that increases your chance of getting a disease is called a risk factor. Having a risk factor does not mean that you will get cancer; not having risk factors doesnt mean that you will not get cancer. Talk with your doctor if you think you may be at risk. Primary CNS lymphoma may occur in patients who have acquired immunodeficiency syndrome (AIDS) or other disorders of the immune system or who have had a kidney transplant. For more information about lymphoma in patients with AIDS, see the PDQ summary on AIDS-Related Lymphoma Treatment.
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Primary CNS Lymphoma
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exams and tests
How to diagnose Primary CNS Lymphoma ?
Tests that examine the eyes, brain, and spinal cord are used to detect (find) and diagnose primary CNS lymphoma. The following tests and procedures may be used: - Physical exam and history : An exam of the body to check general signs of health, including checking for signs of disease, such as lumps or anything else that seems unusual. A history of the patients health habits and past illnesses and treatments will also be taken. - Neurological exam : A series of questions and tests to check the brain, spinal cord, and nerve function. The exam checks a persons mental status, coordination, ability to walk normally, and how well the muscles, senses, and reflexes work. This may also be called a neuro exam or a neurologic exam. - Slit-lamp eye exam : An exam that uses a special microscope with a bright, narrow slit of light to check the outside and inside of the eye. - MRI (magnetic resonance imaging): A procedure that uses a magnet, radio waves, and a computer to make a series of detailed pictures of areas inside the brain and spinal cord. A substance called gadolinium is injected into the patient through a vein. The gadolinium collects around the cancer cells so they show up brighter in the picture. This procedure is also called nuclear magnetic resonance imaging (NMRI). - PET scan (positron emission tomography scan): A procedure to find malignant tumor cells in the body. A small amount of radioactive glucose (sugar) is injected into a vein. The PET scanner rotates around the body and makes a picture of where glucose is being used in the body. Malignant tumor cells show up brighter in the picture because they are more active and take up more glucose than normal cells do. - Lumbar puncture : A procedure used to collect cerebrospinal fluid (CSF) from the spinal column. This is done by placing a needle between two bones in the spine and into the CSF around the spinal cord and removing a sample of the fluid. The sample of CSF is checked under a microscope for signs of tumor cells. The sample may also be checked for the amounts of protein and glucose. A higher than normal amount of protein or lower than normal amount of glucose may be a sign of a tumor. This procedure is also called an LP or spinal tap. - Stereotactic biopsy : A biopsy procedure that uses a computer and a 3-dimensional (3-D) scanning device to find a tumor site and guide the removal of tissue so it can be viewed under a microscope to check for signs of cancer. The following tests may be done on the samples of tissue that are removed: - Flow cytometry : A laboratory test that measures the number of cells in a sample, the percentage of live cells in a sample, and certain characteristics of cells, such as size, shape, and the presence of tumor markers on the cell surface. The cells are stained with a light-sensitive dye, placed in a fluid, and passed in a stream before a laser or other type of light. The measurements are based on how the light-sensitive dye reacts to the light. - Immunohistochemistry : A test that uses antibodies to check for certain antigens in a sample of tissue. The antibody is usually linked to a radioactive substance or a dye that causes the tissue to light up under a microscope. This type of test may be used to tell the difference between different types of cancer. - Cytogenetic analysis: A laboratory test in which cells in a sample of tissue are viewed under a microscope to look for certain changes in the chromosomes. Other tests, such as fluorescence in situ hybridization (FISH), may also be done to look for certain changes in the chromosomes. - Complete blood count (CBC) with differential : A procedure in which a sample of blood is drawn and checked for the following: - The number of red blood cells and platelets. - The number and type of white blood cells. - The amount of hemoglobin (the protein that carries oxygen) in the red blood cells. - The portion of the blood sample made up of red blood cells. - Blood chemistry studies : A procedure in which a blood sample is checked to measure the amounts of certain substances released into the blood by organs and tissues in the body. An unusual (higher or lower than normal) amount of a substance can be a sign of disease.
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Primary CNS Lymphoma
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outlook
What is the outlook for Primary CNS Lymphoma ?
Certain factors affect prognosis (chance of recovery) and treatment options. The prognosis (chance of recovery) depends on the following: - The patient's age and general health. - The level of certain substances in the blood and cerebrospinal fluid (CSF). - Where the tumor is in the central nervous system, eye, or both. - Whether the patient has AIDS. Treatment options depend on the following: - The stage of the cancer. - Where the tumor is in the central nervous system. - The patient's age and general health. - Whether the cancer has just been diagnosed or has recurred (come back). Treatment of primary CNS lymphoma works best when the tumor has not spread outside the cerebrum (the largest part of the brain) and the patient is younger than 60 years, able to carry out most daily activities, and does not have AIDS or other diseases that weaken the immune system.
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Primary CNS Lymphoma
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research
what research (or clinical trials) is being done for Primary CNS Lymphoma ?
New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI website. High-dose chemotherapy with stem cell transplant High-dose chemotherapy with stem cell transplant is a method of giving high doses of chemotherapy and replacing blood -forming cells destroyed by the cancer treatment. Stem cells (immature blood cells) are removed from the blood or bone marrow of the patient or a donor and are frozen and stored. After the chemotherapy is completed, the stored stem cells are thawed and given back to the patient through an infusion. These reinfused stem cells grow into (and restore) the body's blood cells. Targeted therapy Targeted therapy is a type of treatment that uses drugs or other substances to attack cancer cells. Targeted therapies usually cause less harm to normal cells than chemotherapy or radiation therapy do. Monoclonal antibody therapy is one type of targeted therapy being studied in the treatment of primary CNS lymphoma. Monoclonal antibody therapy is a cancer treatment that uses antibodies made in the laboratory from a single type of immune system cell. These antibodies can identify substances on cancer cells or normal substances that may help cancer cells grow. The antibodies attach to the substances and kill the cancer cells, block their growth, or keep them from spreading. Monoclonal antibodies are given by infusion. They may be used alone or to carry drugs, toxins, or radioactive material directly to cancer cells. Rituximab is a type of monoclonal antibody used to treat newly diagnosed primary CNS lymphoma in patients who do not have AIDS. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials.
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Primary CNS Lymphoma
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treatment
What are the treatments for Primary CNS Lymphoma ?
Key Points - There are different types of treatment for patients with primary CNS lymphoma. - Three standard treatments are used: - Radiation therapy - Chemotherapy - Steroid therapy - New types of treatment are being tested in clinical trials. - High-dose chemotherapy with stem cell transplant - Targeted therapy - Patients may want to think about taking part in a clinical trial. - Patients can enter clinical trials before, during, or after starting their cancer treatment. - Follow-up tests may be needed. There are different types of treatment for patients with primary CNS lymphoma. Different types of treatment are available for patients with primary central nervous system (CNS) lymphoma. Some treatments are standard (the currently used treatment), and some are being tested in clinical trials. A treatment clinical trial is a research study meant to help improve current treatments or obtain information on new treatments for patients with cancer. When clinical trials show that a new treatment is better than the standard treatment, the new treatment may become the standard treatment. Patients may want to think about taking part in a clinical trial. Some clinical trials are open only to patients who have not started treatment. Surgery is not used to treat primary CNS lymphoma. Three standard treatments are used: Radiation therapy Radiation therapy is a cancer treatment that uses high-energy x-rays or other types of radiation to kill cancer cells or keep them from growing. There are two types of radiation therapy: - External radiation therapy uses a machine outside the body to send radiation toward the cancer. Because primary CNS lymphoma spreads throughout the brain, external radiation therapy is given to the whole brain. This is called whole brain radiation therapy. - Internal radiation therapy uses a radioactive substance sealed in needles, seeds, wires, or catheters that are placed directly into or near the cancer. The way the radiation therapy is given depends on whether the patient has primary CNS lymphoma and AIDS. External radiation therapy is used to treat primary CNS lymphoma. High-dose radiation therapy to the brain can damage healthy tissue and cause disorders that can affect thinking, learning, problem solving, speech, reading, writing, and memory. Clinical trials have tested the use of chemotherapy alone or before radiation therapy to reduce the damage to healthy brain tissue that occurs with the use of radiation therapy. Chemotherapy Chemotherapy is a cancer treatment that uses drugs to stop the growth of cancer cells, either by killing the cells or by stopping them from dividing. When chemotherapy is taken by mouth or injected into a vein or muscle, the drugs enter the bloodstream and can reach cancer cells throughout the body (systemic chemotherapy). When chemotherapy is placed directly into the cerebrospinal fluid (intrathecal chemotherapy), an organ, or a body cavity such as the abdomen, the drugs mainly affect cancer cells in those areas (regional chemotherapy). The way the chemotherapy is given depends on where the tumor is in the CNS or eye. Primary CNS lymphoma may be treated with systemic chemotherapy, intrathecal chemotherapy and/or intraventricular chemotherapy, in which anticancer drugs are placed into the ventricles (fluid -filled cavities) of the brain. If primary CNS lymphoma is found in the eye, anticancer drugs are injected directly into the vitreous humor (jelly-like substance) inside the eye. A network of blood vessels and tissue, called the blood-brain barrier, protects the brain from harmful substances. This barrier can also keep anticancer drugs from reaching the brain. In order to treat CNS lymphoma, certain drugs may be used to make openings between cells in the blood-brain barrier. This is called blood-brain barrier disruption. Anticancer drugs infused into the bloodstream may then reach the brain. Steroid therapy Steroids are hormones made naturally in the body. They can also be made in a laboratory and used as drugs. Glucocorticoids are steroid drugs that have an anticancer effect in lymphomas. New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI website. High-dose chemotherapy with stem cell transplant High-dose chemotherapy with stem cell transplant is a method of giving high doses of chemotherapy and replacing blood -forming cells destroyed by the cancer treatment. Stem cells (immature blood cells) are removed from the blood or bone marrow of the patient or a donor and are frozen and stored. After the chemotherapy is completed, the stored stem cells are thawed and given back to the patient through an infusion. These reinfused stem cells grow into (and restore) the body's blood cells. Targeted therapy Targeted therapy is a type of treatment that uses drugs or other substances to attack cancer cells. Targeted therapies usually cause less harm to normal cells than chemotherapy or radiation therapy do. Monoclonal antibody therapy is one type of targeted therapy being studied in the treatment of primary CNS lymphoma. Monoclonal antibody therapy is a cancer treatment that uses antibodies made in the laboratory from a single type of immune system cell. These antibodies can identify substances on cancer cells or normal substances that may help cancer cells grow. The antibodies attach to the substances and kill the cancer cells, block their growth, or keep them from spreading. Monoclonal antibodies are given by infusion. They may be used alone or to carry drugs, toxins, or radioactive material directly to cancer cells. Rituximab is a type of monoclonal antibody used to treat newly diagnosed primary CNS lymphoma in patients who do not have AIDS. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials. Follow-up tests may be needed. Some of the tests that were done to diagnose the cancer or to find out the stage of the cancer may be repeated. Some tests will be repeated in order to see how well the treatment is working. Decisions about whether to continue, change, or stop treatment may be based on the results of these tests. Some of the tests will continue to be done from time to time after treatment has ended. The results of these tests can show if your condition has changed or if the cancer has recurred (come back). These tests are sometimes called follow-up tests or check-ups. Treatment Options for Primary CNS Lymphoma Primary CNS Lymphoma Not Related to AIDS Treatment of primary central nervous system (CNS) lymphoma in patients who do not have AIDS may include the following: - Whole brain radiation therapy. - Chemotherapy. - Chemotherapy followed by radiation therapy. - Chemotherapy and targeted therapy (rituximab) followed by high-dose chemotherapy and stem cell transplant. - A clinical trial of high-dose chemotherapy with stem cell transplant. - A clinical trial of high-dose chemotherapy and targeted therapy (rituximab), with or without stem cell transplant or whole brain radiation therapy. Primary CNS Lymphoma Related to AIDS Treatment of primary central nervous system (CNS) lymphoma in patients who do have AIDS may include the following: - Whole brain radiation therapy. - Chemotherapy followed by radiation therapy. Treatment of primary CNS lymphoma is different in patients with AIDS because the treatment side effects may be more severe. (See the PDQ summary on AIDS-Related Lymphoma Treatment for more information). Primary Intraocular Lymphoma Treatment of primary intraocular lymphoma may include the following: - Chemotherapy (intraocular or systemic). - Whole brain radiation therapy. Recurrent Primary CNS Lymphoma Treatment of recurrent primary central nervous system (CNS) lymphoma may include the following: - Chemotherapy. - Radiation therapy (if not received in earlier treatment). - A clinical trial of a new drug or treatment schedule.
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Transitional Cell Cancer of the Renal Pelvis and Ureter
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information
What is (are) Transitional Cell Cancer of the Renal Pelvis and Ureter ?
Key Points - Transitional cell cancer of the renal pelvis and ureter is a disease in which malignant (cancer) cells form in the renal pelvis and ureter. - Misuse of certain pain medicines can affect the risk of transitional cell cancer of the renal pelvis and ureter. - Signs and symptoms of transitional cell cancer of the renal pelvis and ureter include blood in the urine and back pain. - Tests that examine the abdomen and kidneys are used to detect (find) and diagnose transitional cell cancer of the renal pelvis and ureter. - Certain factors affect prognosis (chance of recovery) and treatment options. Transitional cell cancer of the renal pelvis and ureter is a disease in which malignant (cancer) cells form in the renal pelvis and ureter. The renal pelvis is the top part of the ureter. The ureter is a long tube that connects the kidney to the bladder. There are two kidneys, one on each side of the backbone, above the waist. The kidneys of an adult are about 5 inches long and 3 inches wide and are shaped like a kidney bean. Tiny tubules in the kidneys filter and clean the blood. They take out waste products and make urine. The urine collects in the middle of each kidney in the renal pelvis. Urine passes from the renal pelvis through the ureter into the bladder. The bladder holds the urine until it passes through the urethra and leaves the body. The renal pelvis and ureters are lined with transitional cells. These cells can change shape and stretch without breaking apart. Transitional cell cancer starts in these cells. Transitional cell cancer can form in the renal pelvis or the ureter or both. Renal cell cancer is a more common type of kidney cancer. See the PDQ summary about Renal Cell Cancer Treatment for more information.
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Transitional Cell Cancer of the Renal Pelvis and Ureter
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symptoms
What are the symptoms of Transitional Cell Cancer of the Renal Pelvis and Ureter ?
Signs and symptoms of transitional cell cancer of the renal pelvis and ureter include blood in the urine and back pain. These and other signs and symptoms may be caused by transitional cell cancer of the renal pelvis and ureter or by other conditions. There may be no signs or symptoms in the early stages. Signs and symptoms may appear as the tumor grows. Check with your doctor if you have any of the following: - Blood in the urine. - A pain in the back that doesn't go away. - Extreme tiredness. - Weight loss with no known reason. - Painful or frequent urination.
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Transitional Cell Cancer of the Renal Pelvis and Ureter
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exams and tests
How to diagnose Transitional Cell Cancer of the Renal Pelvis and Ureter ?
Tests that examine the abdomen and kidneys are used to detect (find) and diagnose transitional cell cancer of the renal pelvis and ureter. The following tests and procedures may be used: - Physical exam and history : An exam of the body to check general signs of health, including checking for signs of disease, such as lumps or anything else that seems unusual. A history of the patients health habits and past illnesses and treatments will also be taken. - Urinalysis : A test to check the color of urine and its contents, such as sugar, protein, blood, and bacteria. - Ureteroscopy : A procedure to look inside the ureter and renal pelvis to check for abnormal areas. A ureteroscope is a thin, tube-like instrument with a light and a lens for viewing. The ureteroscope is inserted through the urethra into the bladder, ureter, and renal pelvis. A tool may be inserted through the ureteroscope to take tissue samples to be checked under a microscope for signs of disease. - Urine cytology : A laboratory test in which a sample of urine is checked under a microscope for abnormal cells. Cancer in the kidney, bladder, or ureter may shed cancer cells into the urine. - Intravenous pyelogram (IVP): A series of x-rays of the kidneys, ureters, and bladder to check for cancer. A contrast dye is injected into a vein. As the contrast dye moves through the kidneys, ureters, and bladder, x-rays are taken to see if there are any blockages. - CT scan (CAT scan): A procedure that makes a series of detailed pictures of areas inside the body, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography. - Ultrasound : A procedure in which high-energy sound waves (ultrasound) are bounced off internal tissues or organs and make echoes. The echoes form a picture of body tissues called a sonogram. An ultrasound of the abdomen may be done to help diagnose cancer of the renal pelvis and ureter. - MRI (magnetic resonance imaging): A procedure that uses a magnet, radio waves, and a computer to make a series of detailed pictures of areas inside the body, such as the pelvis. This procedure is also called nuclear magnetic resonance imaging (NMRI). - Biopsy : The removal of cells or tissues so they can be viewed under a microscope by a pathologist to check for signs of cancer. This may be done during a ureteroscopy or surgery.
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Transitional Cell Cancer of the Renal Pelvis and Ureter
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outlook
What is the outlook for Transitional Cell Cancer of the Renal Pelvis and Ureter ?
Certain factors affect prognosis (chance of recovery) and treatment options. The prognosis (chance of recovery) depends on the stage and grade of the tumor. The treatment options depend on the following: - The stage and grade of the tumor. - Where the tumor is. - Whether the patient's other kidney is healthy. - Whether the cancer has recurred. Most transitional cell cancer of the renal pelvis and ureter can be cured if found early.
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Transitional Cell Cancer of the Renal Pelvis and Ureter
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stages
What are the stages of Transitional Cell Cancer of the Renal Pelvis and Ureter ?
Key Points - After transitional cell cancer of the renal pelvis and ureter has been diagnosed, tests are done to find out if cancer cells have spread within the renal pelvis and ureter or to other parts of the body. - There are three ways that cancer spreads in the body. - Cancer may spread from where it began to other parts of the body. - The following stages are used for transitional cell cancer of the renal pelvis and/or ureter: - Stage 0 (Papillary Carcinoma and Carcinoma in Situ) - Stage I - Stage II - Stage III - Stage IV - Transitional cell cancer of the renal pelvis and ureter is also described as localized, regional, or metastatic: - Localized - Regional - Metastatic After transitional cell cancer of the renal pelvis and ureter has been diagnosed, tests are done to find out if cancer cells have spread within the renal pelvis and ureter or to other parts of the body. The process used to find out if cancer has spread within the renal pelvis and ureter or to other parts of the body is called staging. The information gathered from the staging process determines the stage of the disease. It is important to know the stage in order to plan treatment. The following tests and procedures may be used in the staging process: - CT scan (CAT scan): A procedure that makes a series of detailed pictures of areas inside the body, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography. - Ureteroscopy : A procedure to look inside the ureter and renal pelvis to check for abnormal areas. A ureteroscope is a thin, tube-like instrument with a light and a lens for viewing. The ureteroscope is inserted through the urethra into the bladder, ureter, and renal pelvis. A tool may be inserted through the ureteroscope to take tissue samples to be checked under a microscope for signs of disease. There are three ways that cancer spreads in the body. Cancer can spread through tissue, the lymph system, and the blood: - Tissue. The cancer spreads from where it began by growing into nearby areas. - Lymph system. The cancer spreads from where it began by getting into the lymph system. The cancer travels through the lymph vessels to other parts of the body. - Blood. The cancer spreads from where it began by getting into the blood. The cancer travels through the blood vessels to other parts of the body. Cancer may spread from where it began to other parts of the body. When cancer spreads to another part of the body, it is called metastasis. Cancer cells break away from where they began (the primary tumor) and travel through the lymph system or blood. - Lymph system. The cancer gets into the lymph system, travels through the lymph vessels, and forms a tumor (metastatic tumor) in another part of the body. - Blood. The cancer gets into the blood, travels through the blood vessels, and forms a tumor (metastatic tumor) in another part of the body. The metastatic tumor is the same type of cancer as the primary tumor. For example, if transitional cell cancer of the ureter spreads to the lung, the cancer cells in the lung are actually ureter cancer cells. The disease is metastatic cancer of the ureter, not lung cancer. The following stages are used for transitional cell cancer of the renal pelvis and/or ureter: Stage 0 (Papillary Carcinoma and Carcinoma in Situ) In stage 0, abnormal cells are found in tissue lining the inside of the renal pelvis or ureter. These abnormal cells may become cancer and spread into nearby normal tissue. Stage 0 is divided into stage 0a and stage 0is, depending on the type of tumor: - Stage 0a may look like tiny mushrooms growing from the tissue lining the inside of the renal pelvis or ureter. Stage 0a is also called noninvasive papillary carcinoma. - Stage 0is is a flat tumor on the tissue lining the inside of the renal pelvis or ureter. Stage 0is is also called carcinoma in situ. Stage I In stage I, cancer has formed and spread through the lining of the renal pelvis and/or ureter, into the layer of connective tissue. Stage II In stage II, cancer has spread through the layer of connective tissue to the muscle layer of the renal pelvis and/or ureter. Stage III In stage III, cancer has spread: - From the renal pelvis to tissue or fat in the kidney; or - From the ureter to fat that surrounds the ureter. Stage IV In stage IV, cancer has spread to at least one of the following: - A nearby organ. - The layer of fat surrounding the kidney. - One or more lymph nodes. - Distant parts of the body, such as the lung, liver, or bone. Transitional cell cancer of the renal pelvis and ureter is also described as localized, regional, or metastatic: Localized The cancer is found only in the kidney. Regional The cancer has spread to tissues around the kidney and to nearby lymph nodes and blood vessels in the pelvis. Metastatic The cancer has spread to other parts of the body.
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Transitional Cell Cancer of the Renal Pelvis and Ureter
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treatment
What are the treatments for Transitional Cell Cancer of the Renal Pelvis and Ureter ?
Key Points - There are different types of treatment for patients with transitional cell cancer of the renal pelvis and ureter. - One type of standard treatment is used: - Surgery - New types of treatment are being tested in clinical trials. - Fulguration - Segmental resection of the renal pelvis - Laser surgery - Regional chemotherapy and regional biologic therapy - Patients may want to think about taking part in a clinical trial. - Patients can enter clinical trials before, during, or after starting their cancer treatment. - Follow-up tests may be needed. There are different types of treatment for patients with transitional cell cancer of the renal pelvis and ureter. Different types of treatments are available for patients with transitional cell cancer of the renal pelvis and ureter. Some treatments are standard (the currently used treatment), and some are being tested in clinical trials. A treatment clinical trial is a research study meant to help improve current treatments or obtain information on new treatments for patients with cancer. When clinical trials show that a new treatment is better than the standard treatment, the new treatment may become the standard treatment. Patients may want to think about taking part in a clinical trial. Some clinical trials are open only to patients who have not started treatment. One type of standard treatment is used: Surgery One of the following surgical procedures may be used to treat transitional cell cancer of the renal pelvis and ureter: - Nephroureterectomy: Surgery to remove the entire kidney, the ureter, and the bladder cuff (tissue that connects the ureter to the bladder). - Segmental resection of the ureter: A surgical procedure to remove the part of the ureter that contains cancer and some of the healthy tissue around it. The ends of the ureter are then reattached. This treatment is used when the cancer is superficial and in the lower third of the ureter only, near the bladder. New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI Web site. Fulguration Fulguration is a surgical procedure that destroys tissue using an electric current. A tool with a small wire loop on the end is used to remove the cancer or to burn away the tumor with electricity. Segmental resection of the renal pelvis This is a surgical procedure to remove localized cancer from the renal pelvis without removing the entire kidney. Segmental resection may be done to save kidney function when the other kidney is damaged or has already been removed. Laser surgery A laser beam (narrow beam of intense light) is used as a knife to remove the cancer. A laser beam can also be used to kill the cancer cells. This procedure may also be called or laser fulguration. Regional chemotherapy and regional biologic therapy Chemotherapy is a cancer treatment that uses drugs to stop the growth of cancer cells, either by killing the cells or by stopping the cells from dividing. Biologic therapy is a treatment that uses the patient's immune system to fight cancer; substances made by the body or made in a laboratory are used to boost, direct, or restore the body's natural defenses against cancer. Regional treatment means the anticancer drugs or biologic substances are placed directly into an organ or a body cavity such as the abdomen, so the drugs will affect cancer cells in that area. Clinical trials are studying chemotherapy or biologic therapy using drugs placed directly into the renal pelvis or the ureter. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials. Follow-up tests may be needed. Some of the tests that were done to diagnose the cancer or to find out the stage of the cancer may be repeated. Some tests will be repeated in order to see how well the treatment is working. Decisions about whether to continue, change, or stop treatment may be based on the results of these tests. Some of the tests will continue to be done from time to time after treatment has ended. The results of these tests can show if your condition has changed or if the cancer has recurred (come back). These tests are sometimes called follow-up tests or check-ups. Treatment Options for Transitional Cell Cancer of the Renal Pelvis and Ureter Localized Transitional Cell Cancer of the Renal Pelvis and Ureter Treatment of localized transitional cell cancer of the renal pelvis and ureter may include the following: - Surgery (nephroureterectomy or segmental resection of ureter). - A clinical trial of fulguration. - A clinical trial of laser surgery. - A clinical trial of segmental resection of the renal pelvis. - A clinical trial of regional chemotherapy. - A clinical trial of regional biologic therapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with localized transitional cell cancer of the renal pelvis and ureter. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Regional Transitional Cell Cancer of the Renal Pelvis and Ureter Treatment of regional transitional cell cancer of the renal pelvis and ureter is usually done in a clinical trial. Check the list of NCI-supported cancer clinical trials that are now accepting patients with regional transitional cell cancer of the renal pelvis and ureter. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Metastatic Transitional Cell Cancer of the Renal Pelvis and Ureter Treatment of metastatic transitional cell cancer of the renal pelvis and ureter is usually done in a clinical trial, which may include chemotherapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with metastatic transitional cell cancer of the renal pelvis and ureter. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website. Recurrent Transitional Cell Cancer of the Renal Pelvis and Ureter Treatment of recurrent transitional cell cancer of the renal pelvis and ureter is usually done in a clinical trial, which may include chemotherapy. Check the list of NCI-supported cancer clinical trials that are now accepting patients with recurrent transitional cell cancer of the renal pelvis and ureter. For more specific results, refine the search by using other search features, such as the location of the trial, the type of treatment, or the name of the drug. Talk with your doctor about clinical trials that may be right for you. General information about clinical trials is available from the NCI website.
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Transitional Cell Cancer of the Renal Pelvis and Ureter
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research
what research (or clinical trials) is being done for Transitional Cell Cancer of the Renal Pelvis and Ureter ?
New types of treatment are being tested in clinical trials. This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI Web site. Fulguration Fulguration is a surgical procedure that destroys tissue using an electric current. A tool with a small wire loop on the end is used to remove the cancer or to burn away the tumor with electricity. Segmental resection of the renal pelvis This is a surgical procedure to remove localized cancer from the renal pelvis without removing the entire kidney. Segmental resection may be done to save kidney function when the other kidney is damaged or has already been removed. Laser surgery A laser beam (narrow beam of intense light) is used as a knife to remove the cancer. A laser beam can also be used to kill the cancer cells. This procedure may also be called or laser fulguration. Regional chemotherapy and regional biologic therapy Chemotherapy is a cancer treatment that uses drugs to stop the growth of cancer cells, either by killing the cells or by stopping the cells from dividing. Biologic therapy is a treatment that uses the patient's immune system to fight cancer; substances made by the body or made in a laboratory are used to boost, direct, or restore the body's natural defenses against cancer. Regional treatment means the anticancer drugs or biologic substances are placed directly into an organ or a body cavity such as the abdomen, so the drugs will affect cancer cells in that area. Clinical trials are studying chemotherapy or biologic therapy using drugs placed directly into the renal pelvis or the ureter. Patients may want to think about taking part in a clinical trial. For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward. Patients can enter clinical trials before, during, or after starting their cancer treatment. Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials.
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Adult Acute Lymphoblastic Leukemia
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information
What is (are) Adult Acute Lymphoblastic Leukemia ?
Key Points - Adult acute lymphoblastic leukemia (ALL) is a type of cancer in which the bone marrow makes too many lymphocytes (a type of white blood cell). - Leukemia may affect red blood cells, white blood cells, and platelets. - Previous chemotherapy and exposure to radiation may increase the risk of developing ALL. - Signs and symptoms of adult ALL include fever, feeling tired, and easy bruising or bleeding. - Tests that examine the blood and bone marrow are used to detect (find) and diagnose adult ALL. - Certain factors affect prognosis (chance of recovery) and treatment options. Adult acute lymphoblastic leukemia (ALL) is a type of cancer in which the bone marrow makes too many lymphocytes (a type of white blood cell). Adult acute lymphoblastic leukemia (ALL; also called acute lymphocytic leukemia) is a cancer of the blood and bone marrow. This type of cancer usually gets worse quickly if it is not treated. Leukemia may affect red blood cells, white blood cells, and platelets. Normally, the bone marrow makes blood stem cells (immature cells) that become mature blood cells over time. A blood stem cell may become a myeloid stem cell or a lymphoid stem cell. A myeloid stem cell becomes one of three types of mature blood cells: - Red blood cells that carry oxygen and other substances to all tissues of the body. - Platelets that form blood clots to stop bleeding. - Granulocytes (white blood cells) that fight infection and disease. A lymphoid stem cell becomes a lymphoblast cell and then one of three types of lymphocytes (white blood cells): - B lymphocytes that make antibodies to help fight infection. - T lymphocytes that help B lymphocytes make the antibodies that help fight infection. - Natural killer cells that attack cancer cells and viruses. In ALL, too many stem cells become lymphoblasts, B lymphocytes, or T lymphocytes. These cells are also called leukemia cells. These leukemia cells are not able to fight infection very well. Also, as the number of leukemia cells increases in the blood and bone marrow, there is less room for healthy white blood cells, red blood cells, and platelets. This may cause infection, anemia, and easy bleeding. The cancer can also spread to the central nervous system (brain and spinal cord). This summary is about adult acute lymphoblastic leukemia. See the following PDQ summaries for information about other types of leukemia: - Childhood Acute Lymphoblastic Leukemia Treatment. - Adult Acute Myeloid Leukemia Treatment. - Childhood Acute Myeloid Leukemia/Other Myeloid Malignancies Treatment. - Chronic Lymphocytic Leukemia Treatment. - Chronic Myelogenous Leukemia Treatment. - Hairy Cell Leukemia Treatment.