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<s>[INST] What causes Causes of Diabetes ? [/INST] Type 1 diabetes is caused by a lack of insulin due to the destruction of insulin-producing beta cells in the pancreas. In type 1 diabetesan autoimmune diseasethe bodys immune system attacks and destroys the beta cells. Normally, the immune system protects the body from infection by identifying and destroying bacteria, viruses, and other potentially harmful foreign substances. But in autoimmune diseases, the immune system attacks the bodys own cells. In type 1 diabetes, beta cell destruction may take place over several years, but symptoms of the disease usually develop over a short period of time. Type 1 diabetes typically occurs in children and young adults, though it can appear at any age. In the past, type 1 diabetes was called juvenile diabetes or insulin-dependent diabetes mellitus. Latent autoimmune diabetes in adults (LADA) may be a slowly developing kind of type 1 diabetes. Diagnosis usually occurs after age 30. In LADA, as in type 1 diabetes, the bodys immune system destroys the beta cells. At the time of diagnosis, people with LADA may still produce their own insulin, but eventually most will need insulin shots or an insulin pump to control blood glucose levels. Genetic Susceptibility Heredity plays an important part in determining who is likely to develop type 1 diabetes. Genes are passed down from biological parent to child. Genes carry instructions for making proteins that are needed for the bodys cells to function. Many genes, as well as interactions among genes, are thought to influence susceptibility to and protection from type 1 diabetes. The key genes may vary in different population groups. Variations in genes that affect more than 1 percent of a population group are called gene variants. Certain gene variants that carry instructions for making proteins called human leukocyte antigens (HLAs) on white blood cells are linked to the risk of developing type 1 diabetes. The proteins produced by HLA genes help determine whether the immune system recognizes a cell as part of the body or as foreign material. Some combinations of HLA gene variants predict that a person will be at higher risk for type 1 diabetes, while other combinations are protective or have no effect on risk. While HLA genes are the major risk genes for type 1 diabetes, many additional risk genes or gene regions have been found. Not only can these genes help identify people at risk for type 1 diabetes, but they also provide important clues to help scientists better understand how the disease develops and identify potential targets for therapy and prevention. Genetic testing can show what types of HLA genes a person carries and can reveal other genes linked to diabetes. However, most genetic testing is done in a research setting and is not yet available to individuals. Scientists are studying how the results of genetic testing can be used to improve type 1 diabetes prevention or treatment. Autoimmune Destruction of Beta Cells In type 1 diabetes, white blood cells called T cells attack and destroy beta cells. The process begins well before diabetes symptoms appear and continues after diagnosis. Often, type 1 diabetes is not diagnosed until most beta cells have already been destroyed. At this point, a person needs daily insulin treatment to survive. Finding ways to modify or stop this autoimmune process and preserve beta cell function is a major focus of current scientific research. Recent research suggests insulin itself may be a key trigger of the immune attack on beta cells. The immune systems of people who are susceptible to developing type 1 diabetes respond to insulin as if it were a foreign substance, or antigen. To combat antigens, the body makes proteins called antibodies. Antibodies to insulin and other proteins produced by beta cells are found in people with type 1 diabetes. Researchers test for these antibodies to help identify people at increased risk of developing the disease. Testing the types and levels of antibodies in the blood can help determine whether a person has type 1 diabetes, LADA, or another type of diabetes. Environmental Factors Environmental factors, such as foods, viruses, and toxins, may play a role in the development of type 1 diabetes, but the exact nature of their role has not been determined. Some theories suggest that environmental factors trigger the autoimmune destruction of beta cells in people with a genetic susceptibility to diabetes. Other theories suggest that environmental factors play an ongoing role in diabetes, even after diagnosis. Viruses and infections. A virus cannot cause diabetes on its own, but people are sometimes diagnosed with type 1 diabetes during or after a viral infection, suggesting a link between the two. Also, the onset of type 1 diabetes occurs more frequently during the winter when viral infections are more common. Viruses possibly associated with type 1 diabetes include coxsackievirus B, cytomegalovirus, adenovirus, rubella, and mumps. Scientists have described several ways these viruses may damage or destroy beta cells or possibly trigger an autoimmune response in susceptible people. For example, anti-islet antibodies have been found in patients with congenital rubella syndrome, and cytomegalovirus has been associated with significant beta cell damage and acute pancreatitisinflammation of the pancreas. Scientists are trying to identify a virus that can cause type 1 diabetes so that a vaccine might be developed to prevent the disease. Infant feeding practices. Some studies have suggested that dietary factors may raise or lower the risk of developing type 1 diabetes. For example, breastfed infants and infants receiving vitamin D supplements may have a reduced risk of developing type 1 diabetes, while early exposure to cows milk and cereal proteins may increase risk. More research is needed to clarify how infant nutrition affects the risk for type 1 diabetes. Read more in the Centers for Disease Control and Preventions (CDCs) publication National Diabetes Statistics Report, 2014 at www.cdc.gov for information about research studies related to type 1 diabetes. </s></s>

<s>[INST] What causes Causes of Diabetes ? [/INST] Type 2 diabetesthe most common form of diabetesis caused by a combination of factors, including insulin resistance, a condition in which the bodys muscle, fat, and liver cells do not use insulin effectively. Type 2 diabetes develops when the body can no longer produce enough insulin to compensate for the impaired ability to use insulin. Symptoms of type 2 diabetes may develop gradually and can be subtle; some people with type 2 diabetes remain undiagnosed for years. Type 2 diabetes develops most often in middle-aged and older people who are also overweight or obese. The disease, once rare in youth, is becoming more common in overweight and obese children and adolescents. Scientists think genetic susceptibility and environmental factors are the most likely triggers of type 2 diabetes. Genetic Susceptibility Genes play a significant part in susceptibility to type 2 diabetes. Having certain genes or combinations of genes may increase or decrease a persons risk for developing the disease. The role of genes is suggested by the high rate of type 2 diabetes in families and identical twins and wide variations in diabetes prevalence by ethnicity. Type 2 diabetes occurs more frequently in African Americans, Alaska Natives, American Indians, Hispanics/Latinos, and some Asian Americans, Native Hawaiians, and Pacific Islander Americans than it does in non-Hispanic whites. Recent studies have combined genetic data from large numbers of people, accelerating the pace of gene discovery. Though scientists have now identified many gene variants that increase susceptibility to type 2 diabetes, the majority have yet to be discovered. The known genes appear to affect insulin production rather than insulin resistance. Researchers are working to identify additional gene variants and to learn how they interact with one another and with environmental factors to cause diabetes. Studies have shown that variants of the TCF7L2 gene increase susceptibility to type 2 diabetes. For people who inherit two copies of the variants, the risk of developing type 2 diabetes is about 80 percent higher than for those who do not carry the gene variant.1 However, even in those with the variant, diet and physical activity leading to weight loss help delay diabetes, according to the Diabetes Prevention Program (DPP), a major clinical trial involving people at high risk. Genes can also increase the risk of diabetes by increasing a persons tendency to become overweight or obese. One theory, known as the thrifty gene hypothesis, suggests certain genes increase the efficiency of metabolism to extract energy from food and store the energy for later use. This survival trait was advantageous for populations whose food supplies were scarce or unpredictable and could help keep people alive during famine. In modern times, however, when high-calorie foods are plentiful, such a trait can promote obesity and type 2 diabetes. Obesity and Physical Inactivity Physical inactivity and obesity are strongly associated with the development of type 2 diabetes. People who are genetically susceptible to type 2 diabetes are more vulnerable when these risk factors are present. An imbalance between caloric intake and physical activity can lead to obesity, which causes insulin resistance and is common in people with type 2 diabetes. Central obesity, in which a person has excess abdominal fat, is a major risk factor not only for insulin resistance and type 2 diabetes but also for heart and blood vessel disease, also called cardiovascular disease (CVD). This excess belly fat produces hormones and other substances that can cause harmful, chronic effects in the body such as damage to blood vessels. The DPP and other studies show that millions of people can lower their risk for type 2 diabetes by making lifestyle changes and losing weight. The DPP proved that people with prediabetesat high risk of developing type 2 diabetescould sharply lower their risk by losing weight through regular physical activity and a diet low in fat and calories. In 2009, a follow-up study of DPP participantsthe Diabetes Prevention Program Outcomes Study (DPPOS)showed that the benefits of weight loss lasted for at least 10 years after the original study began.2 Read more about the DPP, funded under National Institutes of Health (NIH) clinical trial number NCT00004992, and the DPPOS, funded under NIH clinical trial number NCT00038727 in Diabetes Prevention Program. Insulin Resistance Insulin resistance is a common condition in people who are overweight or obese, have excess abdominal fat, and are not physically active. Muscle, fat, and liver cells stop responding properly to insulin, forcing the pancreas to compensate by producing extra insulin. As long as beta cells are able to produce enough insulin, blood glucose levels stay in the normal range. But when insulin production falters because of beta cell dysfunction, glucose levels rise, leading to prediabetes or diabetes. Abnormal Glucose Production by the Liver In some people with diabetes, an abnormal increase in glucose production by the liver also contributes to high blood glucose levels. Normally, the pancreas releases the hormone glucagon when blood glucose and insulin levels are low. Glucagon stimulates the liver to produce glucose and release it into the bloodstream. But when blood glucose and insulin levels are high after a meal, glucagon levels drop, and the liver stores excess glucose for later, when it is needed. For reasons not completely understood, in many people with diabetes, glucagon levels stay higher than needed. High glucagon levels cause the liver to produce unneeded glucose, which contributes to high blood glucose levels. Metformin, the most commonly used drug to treat type 2 diabetes, reduces glucose production by the liver. The Roles of Insulin and Glucagon in Normal Blood Glucose Regulation A healthy persons body keeps blood glucose levels in a normal range through several complex mechanisms. Insulin and glucagon, two hormones made in the pancreas, help regulate blood glucose levels: - Insulin, made by beta cells, lowers elevated blood glucose levels. - Glucagon, made by alpha cells, raises low blood glucose levels. - Insulin helps muscle, fat, and liver cells absorb glucose from the bloodstream, lowering blood glucose levels. - Insulin stimulates the liver and muscle tissue to store excess glucose. The stored form of glucose is called glycogen. - Insulin also lowers blood glucose levels by reducing glucose production in the liver. - Glucagon signals the liver and muscle tissue to break down glycogen into glucose, which enters the bloodstream and raises blood glucose levels. - If the body needs more glucose, glucagon stimulates the liver to make glucose from amino acids. Metabolic Syndrome Metabolic syndrome, also called insulin resistance syndrome, refers to a group of conditions common in people with insulin resistance, including - higher than normal blood glucose levels - increased waist size due to excess abdominal fat - high blood pressure - abnormal levels of cholesterol and triglycerides in the blood Cell Signaling and Regulation Cells communicate through a complex network of molecular signaling pathways. For example, on cell surfaces, insulin receptor molecules capture, or bind, insulin molecules circulating in the bloodstream. This interaction between insulin and its receptor prompts the biochemical signals that enable the cells to absorb glucose from the blood and use it for energy. Problems in cell signaling systems can set off a chain reaction that leads to diabetes or other diseases. Many studies have focused on how insulin signals cells to communicate and regulate action. Researchers have identified proteins and pathways that transmit the insulin signal and have mapped interactions between insulin and body tissues, including the way insulin helps the liver control blood glucose levels. Researchers have also found that key signals also come from fat cells, which produce substances that cause inflammation and insulin resistance. This work holds the key to combating insulin resistance and diabetes. As scientists learn more about cell signaling systems involved in glucose regulation, they will have more opportunities to develop effective treatments. Beta Cell Dysfunction Scientists think beta cell dysfunction is a key contributor to type 2 diabetes. Beta cell impairment can cause inadequate or abnormal patterns of insulin release. Also, beta cells may be damaged by high blood glucose itself, a condition called glucose toxicity. Scientists have not determined the causes of beta cell dysfunction in most cases. Single gene defects lead to specific forms of diabetes called maturity-onset diabetes of the young (MODY). The genes involved regulate insulin production in the beta cells. Although these forms of diabetes are rare, they provide clues as to how beta cell function may be affected by key regulatory factors. Other gene variants are involved in determining the number and function of beta cells. But these variants account for only a small percentage of type 2 diabetes cases. Malnutrition early in life is also being investigated as a cause of beta cell dysfunction. The metabolic environment of the developing fetus may also create a predisposition for diabetes later in life. Risk Factors for Type 2 Diabetes People who develop type 2 diabetes are more likely to have the following characteristics: - age 45 or older - overweight or obese - physically inactive - parent or sibling with diabetes - family background that is African American, Alaska Native, American Indian, Asian American, Hispanic/Latino, or Pacific Islander American - history of giving birth to a baby weighing more than 9 pounds - history of gestational diabetes - high blood pressure140/90 or aboveor being treated for high blood pressure - high-density lipoprotein (HDL), or good, cholesterol below 35 milligrams per deciliter (mg/dL), or a triglyceride level above 250 mg/dL - polycystic ovary syndrome, also called PCOS - prediabetesan A1C level of 5.7 to 6.4 percent; a fasting plasma glucose test result of 100125 mg/dL, called impaired fasting glucose; or a 2-hour oral glucose tolerance test result of 140199, called impaired glucose tolerance - acanthosis nigricans, a condition associated with insulin resistance, characterized by a dark, velvety rash around the neck or armpits - history of CVD The American Diabetes Association (ADA) recommends that testing to detect prediabetes and type 2 diabetes be considered in adults who are overweight or obese and have one or more additional risk factors for diabetes. In adults without these risk factors, testing should begin at age 45. </s></s>

<s>[INST] What causes Causes of Diabetes ? [/INST] Insulin Resistance and Beta Cell Dysfunction Hormones produced by the placenta and other pregnancy-related factors contribute to insulin resistance, which occurs in all women during late pregnancy. Insulin resistance increases the amount of insulin needed to control blood glucose levels. If the pancreas cant produce enough insulin due to beta cell dysfunction, gestational diabetes occurs. As with type 2 diabetes, excess weight is linked to gestational diabetes. Overweight or obese women are at particularly high risk for gestational diabetes because they start pregnancy with a higher need for insulin due to insulin resistance. Excessive weight gain during pregnancy may also increase risk. Family History Having a family history of diabetes is also a risk factor for gestational diabetes, suggesting that genes play a role in its development. Genetics may also explain why the disorder occurs more frequently in African Americans, American Indians, and Hispanics/Latinos. Many gene variants or combinations of variants may increase a womans risk for developing gestational diabetes. Studies have found several gene variants associated with gestational diabetes, but these variants account for only a small fraction of women with gestational diabetes. Future Risk of Type 2 Diabetes Because a womans hormones usually return to normal levels soon after giving birth, gestational diabetes disappears in most women after delivery. However, women who have gestational diabetes are more likely to develop gestational diabetes with future pregnancies and develop type 2 diabetes.3 Women with gestational diabetes should be tested for persistent diabetes 6 to 12 weeks after delivery and at least every 3 years thereafter. Also, exposure to high glucose levels during gestation increases a childs risk for becoming overweight or obese and for developing type 2 diabetes later on. The result may be a cycle of diabetes affecting multiple generations in a family. For both mother and child, maintaining a healthy body weight and being physically active may help prevent type 2 diabetes. </s></s>

<s>[INST] What causes Causes of Diabetes ? [/INST] Other types of diabetes have a variety of possible causes. Genetic Mutations Affecting Beta Cells, Insulin, and Insulin Action Some relatively uncommon forms of diabetes known as monogenic diabetes are caused by mutations, or changes, in a single gene. These mutations are usually inherited, but sometimes the gene mutation occurs spontaneously. Most of these gene mutations cause diabetes by reducing beta cells ability to produce insulin. The most common types of monogenic diabetes are neonatal diabetes mellitus (NDM) and MODY. NDM occurs in the first 6 months of life. MODY is usually found during adolescence or early adulthood but sometimes is not diagnosed until later in life. More information about NDM and MODY is provided in the NIDDK health topic, Monogenic Forms of Diabetes. Other rare genetic mutations can cause diabetes by damaging the quality of insulin the body produces or by causing abnormalities in insulin receptors. Other Genetic Diseases Diabetes occurs in people with Down syndrome, Klinefelter syndrome, and Turner syndrome at higher rates than the general population. Scientists are investigating whether genes that may predispose people to genetic syndromes also predispose them to diabetes. The genetic disorders cystic fibrosis and hemochromatosis are linked to diabetes. Cystic fibrosis produces abnormally thick mucus, which blocks the pancreas. The risk of diabetes increases with age in people with cystic fibrosis. Hemochromatosis causes the body to store too much iron. If the disorder is not treated, iron can build up in and damage the pancreas and other organs. Damage to or Removal of the Pancreas Pancreatitis, cancer, and trauma can all harm the pancreatic beta cells or impair insulin production, thus causing diabetes. If the damaged pancreas is removed, diabetes will occur due to the loss of the beta cells. Endocrine Diseases Endocrine diseases affect organs that produce hormones. Cushings syndrome and acromegaly are examples of hormonal disorders that can cause prediabetes and diabetes by inducing insulin resistance. Cushings syndrome is marked by excessive production of cortisolsometimes called the stress hormone. Acromegaly occurs when the body produces too much growth hormone. Glucagonoma, a rare tumor of the pancreas, can also cause diabetes. The tumor causes the body to produce too much glucagon. Hyperthyroidism, a disorder that occurs when the thyroid gland produces too much thyroid hormone, can also cause elevated blood glucose levels. Autoimmune Disorders Rare disorders characterized by antibodies that disrupt insulin action can lead to diabetes. This kind of diabetes is often associated with other autoimmune disorders such as lupus erythematosus. Another rare autoimmune disorder called stiff-man syndrome is associated with antibodies that attack the beta cells, similar to type 1 diabetes. Medications and Chemical Toxins Some medications, such as nicotinic acid and certain types of diuretics, anti-seizure drugs, psychiatric drugs, and drugs to treat human immunodeficiency virus (HIV), can impair beta cells or disrupt insulin action. Pentamidine, a drug prescribed to treat a type of pneumonia, can increase the risk of pancreatitis, beta cell damage, and diabetes. Also, glucocorticoidssteroid hormones that are chemically similar to naturally produced cortisolmay impair insulin action. Glucocorticoids are used to treat inflammatory illnesses such as rheumatoid arthritis, asthma, lupus, and ulcerative colitis. Many chemical toxins can damage or destroy beta cells in animals, but only a few have been linked to diabetes in humans. For example, dioxina contaminant of the herbicide Agent Orange, used during the Vietnam Warmay be linked to the development of type 2 diabetes. In 2000, based on a report from the Institute of Medicine, the U.S. Department of Veterans Affairs (VA) added diabetes to the list of conditions for which Vietnam veterans are eligible for disability compensation. Also, a chemical in a rat poison no longer in use has been shown to cause diabetes if ingested. Some studies suggest a high intake of nitrogen-containing chemicals such as nitrates and nitrites might increase the risk of diabetes. Arsenic has also been studied for possible links to diabetes. Lipodystrophy Lipodystrophy is a condition in which fat tissue is lost or redistributed in the body. The condition is associated with insulin resistance and type 2 diabetes. </s></s>

<s>[INST] What causes Causes of Diabetes ? [/INST] Other types of diabetes have a variety of possible causes. Genetic Mutations Affecting Beta Cells, Insulin, and Insulin Action Some relatively uncommon forms of diabetes known as monogenic diabetes are caused by mutations, or changes, in a single gene. These mutations are usually inherited, but sometimes the gene mutation occurs spontaneously. Most of these gene mutations cause diabetes by reducing beta cells ability to produce insulin. The most common types of monogenic diabetes are neonatal diabetes mellitus (NDM) and MODY. NDM occurs in the first 6 months of life. MODY is usually found during adolescence or early adulthood but sometimes is not diagnosed until later in life. More information about NDM and MODY is provided in the NIDDK health topic, Monogenic Forms of Diabetes. Other rare genetic mutations can cause diabetes by damaging the quality of insulin the body produces or by causing abnormalities in insulin receptors. Other Genetic Diseases Diabetes occurs in people with Down syndrome, Klinefelter syndrome, and Turner syndrome at higher rates than the general population. Scientists are investigating whether genes that may predispose people to genetic syndromes also predispose them to diabetes. The genetic disorders cystic fibrosis and hemochromatosis are linked to diabetes. Cystic fibrosis produces abnormally thick mucus, which blocks the pancreas. The risk of diabetes increases with age in people with cystic fibrosis. Hemochromatosis causes the body to store too much iron. If the disorder is not treated, iron can build up in and damage the pancreas and other organs. Damage to or Removal of the Pancreas Pancreatitis, cancer, and trauma can all harm the pancreatic beta cells or impair insulin production, thus causing diabetes. If the damaged pancreas is removed, diabetes will occur due to the loss of the beta cells. Endocrine Diseases Endocrine diseases affect organs that produce hormones. Cushings syndrome and acromegaly are examples of hormonal disorders that can cause prediabetes and diabetes by inducing insulin resistance. Cushings syndrome is marked by excessive production of cortisolsometimes called the stress hormone. Acromegaly occurs when the body produces too much growth hormone. Glucagonoma, a rare tumor of the pancreas, can also cause diabetes. The tumor causes the body to produce too much glucagon. Hyperthyroidism, a disorder that occurs when the thyroid gland produces too much thyroid hormone, can also cause elevated blood glucose levels. Autoimmune Disorders Rare disorders characterized by antibodies that disrupt insulin action can lead to diabetes. This kind of diabetes is often associated with other autoimmune disorders such as lupus erythematosus. Another rare autoimmune disorder called stiff-man syndrome is associated with antibodies that attack the beta cells, similar to type 1 diabetes. Medications and Chemical Toxins Some medications, such as nicotinic acid and certain types of diuretics, anti-seizure drugs, psychiatric drugs, and drugs to treat human immunodeficiency virus (HIV), can impair beta cells or disrupt insulin action. Pentamidine, a drug prescribed to treat a type of pneumonia, can increase the risk of pancreatitis, beta cell damage, and diabetes. Also, glucocorticoidssteroid hormones that are chemically similar to naturally produced cortisolmay impair insulin action. Glucocorticoids are used to treat inflammatory illnesses such as rheumatoid arthritis, asthma, lupus, and ulcerative colitis. Many chemical toxins can damage or destroy beta cells in animals, but only a few have been linked to diabetes in humans. For example, dioxina contaminant of the herbicide Agent Orange, used during the Vietnam Warmay be linked to the development of type 2 diabetes. In 2000, based on a report from the Institute of Medicine, the U.S. Department of Veterans Affairs (VA) added diabetes to the list of conditions for which Vietnam veterans are eligible for disability compensation. Also, a chemical in a rat poison no longer in use has been shown to cause diabetes if ingested. Some studies suggest a high intake of nitrogen-containing chemicals such as nitrates and nitrites might increase the risk of diabetes. Arsenic has also been studied for possible links to diabetes. Lipodystrophy Lipodystrophy is a condition in which fat tissue is lost or redistributed in the body. The condition is associated with insulin resistance and type 2 diabetes. </s></s>

<s>[INST] What to do for Causes of Diabetes ? [/INST] - Diabetes is a complex group of diseases with a variety of causes. Scientists believe genes and environmental factors interact to cause diabetes in most cases. - People with diabetes have high blood glucose, also called high blood sugar or hyperglycemia. Diabetes develops when the body doesnt make enough insulin or is not able to use insulin effectively, or both. - Insulin is a hormone made by beta cells in the pancreas. Insulin helps cells throughout the body absorb and use glucose for energy. If the body does not produce enough insulin or cannot use insulin effectively, glucose builds up in the blood instead of being absorbed by cells in the body, and the body is starved of energy. - Prediabetes is a condition in which blood glucose levels or A1C levels are higher than normal but not high enough to be diagnosed as diabetes. People with prediabetes can substantially reduce their risk of developing diabetes by losing weight and increasing physical activity. - The two main types of diabetes are type 1 diabetes and type 2 diabetes. Gestational diabetes is a third form of diabetes that develops only during pregnancy. - Type 1 diabetes is caused by a lack of insulin due to the destruction of insulin-producing beta cells. In type 1 diabetesan autoimmune diseasethe bodys immune system attacks and destroys the beta cells. - Type 2 diabetesthe most common form of diabetesis caused by a combination of factors, including insulin resistance, a condition in which the bodys muscle, fat, and liver cells do not use insulin effectively. Type 2 diabetes develops when the body can no longer produce enough insulin to compensate for the impaired ability to use insulin. - Scientists believe gestational diabetes is caused by the hormonal changes and metabolic demands of pregnancy together with genetic and environmental factors. Risk factors for gestational diabetes include being overweight and having a family history of diabetes. - Monogenic forms of diabetes are relatively uncommon and are caused by mutations in single genes that limit insulin production, quality, or action in the body. - Other types of diabetes are caused by diseases and injuries that damage the pancreas; certain chemical toxins and medications; infections; and other conditions. </s></s>

<s>[INST] What is (are) Childhood Nephrotic Syndrome ? [/INST] Childhood nephrotic syndrome is not a disease in itself; rather, it is a group of symptoms that - indicate kidney damageparticularly damage to the glomeruli, the tiny units within the kidney where blood is filtered - result in the release of too much protein from the body into the urine When the kidneys are damaged, the protein albumin, normally found in the blood, will leak into the urine. Proteins are large, complex molecules that perform a number of important functions in the body. The two types of childhood nephrotic syndrome are - primarythe most common type of childhood nephrotic syndrome, which begins in the kidneys and affects only the kidneys - secondarythe syndrome is caused by other diseases A health care provider may refer a child with nephrotic syndrome to a nephrologista doctor who specializes in treating kidney disease. A child should see a pediatric nephrologist, who has special training to take care of kidney problems in children, if possible. However, in many parts of the country, pediatric nephrologists are in short supply, so the child may need to travel. If traveling is not possible, some nephrologists who treat adults can also treat children. </s></s>

<s>[INST] What is (are) Childhood Nephrotic Syndrome ? [/INST] The kidneys are two bean-shaped organs, each about the size of a fist. They are located just below the rib cage, one on each side of the spine. Every day, the kidneys filter about 120 to 150 quarts of blood to produce about 1 to 2 quarts of urine, composed of wastes and extra fluid. Children produce less urine than adults and the amount produced depends on their age. The urine flows from the kidneys to the bladder through tubes called ureters. The bladder stores urine. When the bladder empties, urine flows out of the body through a tube called the urethra, located at the bottom of the bladder. Kidneys work at the microscopic level. The kidney is not one large filter. Each kidney is made up of about a million filtering units called nephrons. Each nephron filters a small amount of blood. The nephron includes a filter, called the glomerulus, and a tubule. The nephrons work through a two-step process. The glomerulus lets fluid and waste products pass through it; however, it prevents blood cells and large molecules, mostly proteins, from passing. The filtered fluid then passes through the tubule, which sends needed minerals back to the bloodstream and removes wastes. </s></s>

<s>[INST] What causes Childhood Nephrotic Syndrome ? [/INST] While idiopathic, or unknown, diseases are the most common cause of primary childhood nephrotic syndrome, researchers have linked certain diseases and some specific genetic changes that damage the kidneys with primary childhood nephrotic syndrome. The cause of secondary childhood nephrotic syndrome is an underlying disease or infection. Called a primary illness, its this underlying disease or infection that causes changes in the kidney function that can result in secondary childhood nephrotic syndrome. Congenital diseasesdiseases that are present at birthcan also cause childhood nephrotic syndrome. Primary Childhood Nephrotic Syndrome The following diseases are different types of idiopathic childhood nephrotic syndrome: - Minimal change disease involves damage to the glomeruli that can be seen only with an electron microscope. This type of microscope shows tiny details better than any other microscope. Scientists do not know the exact cause of minimal change disease. Minimal change disease is the most common cause of idiopathic childhood nephrotic syndrome.1 - Focal segmental glomerulosclerosis is scarring in scattered regions of the kidney: - Focal means that only some of the glomeruli become scarred. - Segmental means damage affects only part of an individual glomerulus. - Membranoproliferative glomerulonephritis is a group of disorders involving deposits of antibodies that build up in the glomeruli, causing thickening and damage. Antibodies are proteins made by the immune system to protect the body from foreign substances such as bacteria or viruses. Secondary Childhood Nephrotic Syndrome Some common diseases that can cause secondary childhood nephrotic syndrome include - diabetes, a condition that occurs when the body cannot use glucosea type of sugarnormally - Henoch-Schnlein purpura, a disease that causes small blood vessels in the body to become inflamed and leak - hepatitis, inflammation of the liver caused by a virus - human immunodeficiency virus (HIV), a virus that alters the immune system - lupus, an autoimmune disease that occurs when the body attacks its own immune system - malaria, a disease of the blood that is spread by mosquitos - streptococcal infection, an infection that results when the bacteria that causes strep throat or a skin infection is left untreated Other causes of secondary childhood nephrotic syndrome can include certain medications, such as aspirin, ibuprofen, or other nonsteroidal anti-inflammatory drugs, and exposure to chemicals, such as mercury and lithium. Congenital Diseases and Childhood Nephrotic Syndrome Congenital nephrotic syndrome is rare and affects infants in the first 3 months of life.2 This type of nephrotic syndrome, sometimes called infantile nephrotic syndrome, can be caused by - inherited genetic defects, which are problems passed from parent to child through genes - infections at the time of birth More information about underlying diseases or infections that cause changes in kidney function is provided in the NIDDK health topic, Glomerular Diseases. </s></s>

<s>[INST] What are the symptoms of Childhood Nephrotic Syndrome ? [/INST] The signs and symptoms of childhood nephrotic syndrome may include - edemaswelling, most often in the legs, feet, or ankles and less often in the hands or face - albuminuriawhen a childs urine has high levels of albumin - hypoalbuminemiawhen a childs blood has low levels of albumin - hyperlipidemiawhen a childs blood cholesterol and fat levels are higher than normal In addition, some children with nephrotic syndrome may have - blood in their urine - symptoms of infection, such as fever, lethargy, irritability, or abdominal pain - loss of appetite - diarrhea - high blood pressure </s></s>

<s>[INST] What are the complications of Childhood Nephrotic Syndrome ? [/INST] The complications of childhood nephrotic syndrome may include - infection. When the kidneys are damaged, a child is more likely to develop infections because the body loses proteins that normally protect against infection. Health care providers will prescribe medications to treat infections. Children with childhood nephrotic syndrome should receive the pneumococcal vaccine and yearly flu shots to prevent those infections. Children should also receive age-appropriate vaccinations, although a health care provider may delay certain live vaccines while a child is taking certain medications. - blood clots. Blood clots can block the flow of blood and oxygen through a blood vessel anywhere in the body. A child is more likely to develop clots when he or she loses proteins through the urine. The health care provider will treat blood clots with blood-thinning medications. - high blood cholesterol. When albumin leaks into the urine, the albumin levels in the blood drop. The liver makes more albumin to make up for the low levels in the blood. At the same time, the liver makes more cholesterol. Sometimes children may need treatment with medications to lower blood cholesterol levels. </s></s>

<s>[INST] How to diagnose Childhood Nephrotic Syndrome ? [/INST] A health care provider diagnoses childhood nephrotic syndrome with - a medical and family history - a physical exam - urine tests - a blood test - ultrasound of the kidney - kidney biopsy Medical and Family History Taking a medical and family history is one of the first things a health care provider may do to help diagnose childhood nephrotic syndrome. Physical Exam A physical exam may help diagnose childhood nephrotic syndrome. During a physical exam, a health care provider most often - examines a childs body - taps on specific areas of the childs body Urine Tests A health care provider may order the following urine tests to help determine if a child has kidney damage from childhood nephrotic syndrome. Dipstick test for albumin. A dipstick test performed on a urine sample can detect the presence of albumin in the urine, which could mean kidney damage. The child or a caretaker collects a urine sample in a special container. For the test, a nurse or technician places a strip of chemically treated paper, called a dipstick, into the childs urine sample. Patches on the dipstick change color when albumin is present in urine. Urine albumin-to-creatinine ratio. A health care provider uses this measurement to estimate the amount of albumin passed into the urine over a 24-hour period. The child provides a urine sample during an appointment with the health care provider. Creatinine is a waste product filtered in the kidneys and passed in the urine. A high urine albumin-to-creatinine ratio indicates that the kidneys are leaking large amounts of albumin into the urine. Blood Test A blood test involves drawing blood at a health care providers office or a commercial facility and sending the sample to a lab for analysis. The lab tests the sample to estimate how much blood the kidneys filter each minute, called the estimated glomerular filtration rate, or eGFR. The test results help the health care provider determine the amount of kidney damage. Health care providers may also order other blood tests to help determine the underlying disease that may be causing childhood nephrotic syndrome. Ultrasound of the Kidney Ultrasound uses a device, called a transducer, that bounces safe, painless sound waves off organs to create an image of their structure. A specially trained technician performs the procedure in a health care providers office, an outpatient center, or a hospital. A radiologista doctor who specializes in medical imaginginterprets the images to see if the kidneys look normal; a child does not need anesthesia. Kidney Biopsy Biopsy is a procedure that involves taking a small piece of kidney tissue for examination with a microscope. A health care provider performs the biopsy in an outpatient center or a hospital. The health care provider will give the child light sedation and local anesthetic; however, in some cases, the child will require general anesthesia. A pathologista doctor who specializes in diagnosing diseasesexamines the tissue in a lab. The test can help diagnose childhood nephrotic syndrome. When the health care provider suspects a child has minimal change disease, he or she often starts treatment with medications without performing a biopsy. If the medication is effective, the child does not need a biopsy. In most cases, a health care provider does not perform a biopsy on children younger than age 12 unless he or she thinks that another disease is the cause. </s></s>

<s>[INST] What are the treatments for Childhood Nephrotic Syndrome ? [/INST] Health care providers will decide how to treat childhood nephrotic syndrome based on the type: - primary childhood nephrotic syndrome: medications - secondary childhood nephrotic syndrome: treat the underlying illness or disease - congenital nephrotic syndrome: medications, surgery to remove one or both kidneys, and transplantation Primary Childhood Nephrotic Syndrome Health care providers treat idiopathic childhood nephrotic syndrome with several types of medications that control the immune system, remove extra fluid, and lower blood pressure. - Control the immune system. Corticosteroids are a group of medications that reduce the activity of the immune system, decrease the amount of albumin lost in the urine, and decrease swelling. Health care providers commonly use prednisone or a related corticosteroid to treat idiopathic childhood nephrotic syndrome. About 90 percent of children achieve remission with daily corticosteroids for 6 weeks and then a slightly smaller dose every other day for 6 weeks.2 Remission is a period when the child is symptom-free. Many children relapse after initial therapy, and health care providers treat them with a shorter course of corticosteroids until the disease goes into remission again. Children may have multiple relapses; however, they most often recover without long-term kidney damage. When a child has frequent relapses or does not respond to treatment, a health care provider may prescribe other medications that reduce the activity of the immune system. These medications prevent the body from making antibodies that can damage kidney tissues. They include - cyclophosphamide - mycophenolate (CellCept, Myfortic) - cyclosporine - tacrolimus (Hecoria, Prograf) A health care provider may use these other immune system medications with corticosteroids or in place of corticosteroids. - Remove extra fluid. A health care provider may prescribe a diuretic, a medication that helps the kidneys remove extra fluid from the blood. Removing the extra fluid can often help to lower blood pressure. - Lower blood pressure. Some children with childhood nephrotic syndrome develop high blood pressure and may need to take additional medications to lower their blood pressure. Two types of blood pressure-lowering medications, angiotensin-converting enzyme inhibitors and angiotensin receptor blockers, have the additional benefit of slowing the progression of kidney disease. Many children with nephrotic syndrome require two or more medications to control their blood pressure. Secondary Childhood Nephrotic Syndrome Health care providers treat secondary childhood nephrotic syndrome by treating the underlying cause of the primary illness. For example, a health care provider may treat children by - prescribing antibiotics for an infection - adjusting medications to treat lupus, HIV, or diabetes - changing or stopping medications that are known to cause secondary childhood nephrotic syndrome While treating the underlying cause, the health care provider will also treat the child to improve or restore kidney function with the same medications used to treat primary childhood nephrotic syndrome. Caretakers should make sure that children take all prescribed medications and follow the treatment plan recommended by their health care provider. More information about specific treatments for secondary childhood nephrotic syndrome is provided in the NIDDK health topic, Glomerular Diseases. Congenital Nephrotic Syndrome Researchers have found that medications are not effective in treating congenital nephrotic syndrome, and that most children will need a kidney transplant by the time they are 2 or 3 years old. A kidney transplant is surgery to place a healthy kidney from someone who has just died or a living donor, most often a family member, into a persons body to take over the job of the failing kidney. To keep the child healthy until the transplant, the health care provider may recommend the following: - albumin injections to make up for the albumin lost in urine - diuretics to help remove extra fluid that causes swelling - antibiotics to treat the first signs of infection - growth hormones to promote growth and help bones mature - removal of one or both kidneys to decrease the loss of albumin in the urine - dialysis to artificially filter wastes from the blood if the kidneys fail More information is provided in the NIDDK health topic, Treatment Methods for Kidney Failure in Children. </s></s>

<s>[INST] How to prevent Childhood Nephrotic Syndrome ? [/INST] Researchers have not found a way to prevent childhood nephrotic syndrome when the cause is idiopathic or congenital. </s></s>

<s>[INST] What to do for Childhood Nephrotic Syndrome ? [/INST] Children who have nephrotic syndrome may need to make changes to their diet, such as - limiting the amount of sodium, often from salt, they take in each day - reducing the amount of liquids they drink each day - eating a diet low in saturated fat and cholesterol to help control elevated cholesterol levels Parents or caretakers should talk with the childs health care provider before making any changes to the childs diet. More information is provided in the NIDDK health topic, Nutrition for Chronic Kidney Disease in Children. </s></s>

<s>[INST] What to do for Childhood Nephrotic Syndrome ? [/INST] - Childhood nephrotic syndrome is not a disease in itself; rather, it is a group of symptoms that - indicate kidney damageparticularly damage to the glomeruli, the tiny units within the kidney where blood is filtered - result in the release of too much protein from the body into the urine - The two types of childhood nephrotic syndrome are - primarythe most common type of childhood nephrotic syndrome, which begins in the kidneys and affects only the kidneys - secondarythe syndrome is caused by other diseases - The signs and symptoms of childhood nephrotic syndrome may include - edemaswelling, most often in the legs, feet, or ankles and less often in the hands or face - albuminuriawhen a childs urine has high levels of albumin - hypoalbuminemiawhen a childs blood has low levels of albumin - hyperlipidemiawhen a childs blood cholesterol and fat levels are higher than normal - A health care provider may order urine tests to help determine if a child has kidney damage from childhood nephrotic syndrome. - Health care providers will decide how to treat childhood nephrotic syndrome based on the type: - primary childhood nephrotic syndrome: medications - secondary childhood nephrotic syndrome: treat the underlying illness or disease - congenital nephrotic syndrome: medications, surgery to remove one or both kidneys, or transplantation </s></s>

<s>[INST] What is (are) Renal Tubular Acidosis ? [/INST] Renal tubular acidosis (RTA) is a disease that occurs when the kidneys fail to excrete acids into the urine, which causes a person's blood to remain too acidic. Without proper treatment, chronic acidity of the blood leads to growth retardation, kidney stones, bone disease, chronic kidney disease, and possibly total kidney failure. The body's cells use chemical reactions to carry out tasks such as turning food into energy and repairing tissue. These chemical reactions generate acids. Some acid in the blood is normal, but too much acidacidosiscan disturb many bodily functions. Healthy kidneys help maintain acid-base balance by excreting acids into the urine and returning bicarbonatean alkaline, or base, substanceto the blood. This "reclaimed" bicarbonate neutralizes much of the acid that is created when food is broken down in the body. The movement of substances like bicarbonate between the blood and structures in the kidneys is called transport. One researcher has theorized that Charles Dickens may have been describing a child with RTA in the character of Tiny Tim from A Christmas Carol. Tiny Tim's small stature, malformed limbs, and periods of weakness are all possible consequences of the chemical imbalance caused by RTA.1 In the story, Tiny Tim recovers when he receives medical treatment, which would likely have included sodium bicarbonate and sodium citrate, alkaline agents to neutralize acidic blood. The good news is that medical treatment can indeed reverse the effects of RTA. </s></s>

<s>[INST] What is (are) Renal Tubular Acidosis ? [/INST] Renal tubular acidosis (RTA) is a disease that occurs when the kidneys fail to excrete acids into the urine, which causes a person's blood to remain too acidic. Without proper treatment, chronic acidity of the blood leads to growth retardation, kidney stones, bone disease, chronic kidney disease, and possibly total kidney failure. The body's cells use chemical reactions to carry out tasks such as turning food into energy and repairing tissue. These chemical reactions generate acids. Some acid in the blood is normal, but too much acidacidosiscan disturb many bodily functions. Healthy kidneys help maintain acid-base balance by excreting acids into the urine and returning bicarbonatean alkaline, or base, substanceto the blood. This "reclaimed" bicarbonate neutralizes much of the acid that is created when food is broken down in the body. The movement of substances like bicarbonate between the blood and structures in the kidneys is called transport. One researcher has theorized that Charles Dickens may have been describing a child with RTA in the character of Tiny Tim from A Christmas Carol. Tiny Tim's small stature, malformed limbs, and periods of weakness are all possible consequences of the chemical imbalance caused by RTA.1 In the story, Tiny Tim recovers when he receives medical treatment, which would likely have included sodium bicarbonate and sodium citrate, alkaline agents to neutralize acidic blood. The good news is that medical treatment can indeed reverse the effects of RTA. </s></s>

<s>[INST] How to diagnose Renal Tubular Acidosis ? [/INST] To diagnose RTA, doctors check the acid-base balance in blood and urine samples. If the blood is more acidic than it should be and the urine less acidic than it should be, RTA may be the reason, but additional information is needed to rule out other causes. If RTA is the reason, additional information about the sodium, potassium, and chloride levels in the urine and the potassium level in the blood will help identify which type of RTA a person has. In all cases, the first goal of therapy is to neutralize acid in the blood, but different treatments may be needed to address the different underlying causes of acidosis. </s></s>

<s>[INST] How to diagnose Renal Tubular Acidosis ? [/INST] To diagnose RTA, doctors check the acid-base balance in blood and urine samples. If the blood is more acidic than it should be and the urine less acidic than it should be, RTA may be the reason, but additional information is needed to rule out other causes. If RTA is the reason, additional information about the sodium, potassium, and chloride levels in the urine and the potassium level in the blood will help identify which type of RTA a person has. In all cases, the first goal of therapy is to neutralize acid in the blood, but different treatments may be needed to address the different underlying causes of acidosis. </s></s>

<s>[INST] What is (are) Renal Tubular Acidosis ? [/INST] Type 1: Classical Distal RTA Type 1 is also called classical distal RTA. "Distal," which means distant, refers to the point in the urine-forming tube of the kidney where the defect occursrelatively distant from the point where fluid from the blood enters the tiny tube, or tubule, that collects fluid and wastes to form urine. This disorder may be inherited as a primary disorder or may be one symptom of a disease that affects many parts of the body. Researchers have discovered abnormal genes responsible for the inherited forms of the disease. More often, however, classical distal RTA occurs as a result of systemic diseasesdiseases that affect many organ systemslike the autoimmune disorders Sjgren's syndrome and lupus, which also attack the distal tubule. Other diseases and conditions associated with classical distal RTA include sickle cell anemia, hyperparathyroidism, hyperthyroidism, chronic active hepatitis, primary biliary cirrhosis, a hereditary form of deafness, analgesic nephropathy, rejection of a transplanted kidney, renal medullary cystic disease, obstructive uropathy, and chronic urinary tract infections. Many of these conditions cause abnormal calcium deposits to build up in the kidney and impair distal tubule function. A major consequence of classical distal RTA is a low blood potassium level. The level drops if the kidneys excrete too much potassium into urine instead of returning it to the blood supply. Because potassium helps regulate nerve and muscle health and heart rate, low levels can cause extreme weakness, irregular heartbeat, paralysis, and even death. Untreated classical distal RTA causes growth retardation in children and progressive kidney and bone disease in adults. Restoring normal growth and preventing kidney stones are the major goals of therapy. If acidosis is corrected with sodium bicarbonate or sodium citrate, then low blood-potassium, salt depletion, and calcium leakage into urine will be corrected. This alkali therapy also helps decrease the development of kidney stones and stabilizes kidney function so kidney failure does not progress. Infants may need potassium supplements, but older children and adults rarely do because alkali therapy prevents the kidney from excreting potassium into the urine. Type 2: Proximal RTA Type 2 is also called proximal RTA. The word "proximal," which means near, indicates that the defect is closer to the point where fluid and wastes from the blood enter the tubule. This form of RTA occurs most frequently in children as part of a disorder called Fanconi's syndrome. The features of Fanconi's syndrome include the abnormal excretion of glucose, amino acids, citrate, and phosphate into the urine, as well as vitamin D deficiency and low blood-potassium. Proximal RTA can also result from inherited disorders that disrupt the body's normal breakdown and use of nutrients. Examples include the rare disease cystinosis, in which cystine crystals are deposited in bones and other tissues; hereditary fructose intolerance; and Wilson disease. Proximal RTA also occurs in patients treated with ifosfamide, a drug used in chemotherapy. A few older drugssuch as acetazolamide or outdated tetracyclinecan also cause proximal RTA. In adults, proximal RTA may complicate diseases like multiple myeloma, or it may occur in people who experience chronic rejection of a transplanted kidney. When possible, identifying and correcting the underlying causes are important steps in treating the acquired forms of proximal RTA. The diagnosis is based on the chemical analysis of blood and urine samples. Children with this disorder would likely receive large doses of an oral alkali, such as sodium bicarbonate or potassium citrate, to treat acidosis and prevent bone disorders, kidney stones, and growth failure. Correcting acidosis and low potassium levels restores normal growth patterns, allowing bone to mature while preventing further renal disease. Vitamin D supplements may also be needed to help prevent bone problems. Type 3 Type 3 is rarely used as a classification because it is now thought to be a combination of type 1 and type 2. Type 4: Hyperkalemic RTA Type 4 is also called hyperkalemic RTA and is caused by a generalized transport abnormality of the distal tubule. The transport of electrolytes such as sodium, chloride, and potassium that normally occurs in the distal tubule is impaired. This form is distinguished from classical distal RTA and proximal RTA because it results in high levels of potassium in the blood instead of low levels. Either low potassiumhypokalemiaor high potassiumhyperkalemiacan be a problem because potassium is important in regulating heart rate. Type 4 RTA occurs when blood levels of the hormone aldosterone are low or when the kidneys do not respond to it. Aldosterone directs the kidneys to regulate the levels of sodium, potassium, and chloride in the blood. Type 4 RTA also occurs when the tubule transport of electrolytes such as sodium, chloride, and potassium is impaired due to an inherited disorder or the use of certain drugs. Drugs that may cause type 4 RTA include - diuretics used to treat congestive heart failure such as spironolactone or eplerenone - blood pressure drugs called angiotensin-converting enzyme (ACE) inhibitors and angiotensin receptor blockers (ARBs) - the antibiotic trimethoprim - the antibiotic pentamidine, which is used to treat pneumonia - an agent called heparin that keeps blood from clotting - a class of painkillers called nonsteroidal anti-inflammatory drugs (NSAIDs) - some immunosuppressive drugs used to prevent rejection Type 4 RTA may also result from diseases that alter kidney structure and function such as diabetic nephropathy, HIV/AIDS, Addison's disease, sickle cell disease, urinary tract obstruction, lupus, amyloidosis, removal or destruction of both adrenal glands, and kidney transplant rejection. For people who produce aldosterone but cannot use it, researchers have identified the genetic basis for their body's resistance to the hormone. To treat type 4 RTA successfully, patients may require alkaline agents to correct acidosis and medication to lower the potassium in their blood. If treated early, most people with any type of RTA will not develop permanent kidney failure. Therefore, the goal is early recognition and adequate therapy, which will need to be maintained and monitored throughout the person's lifetime. </s></s>

<s>[INST] What is (are) Renal Tubular Acidosis ? [/INST] Type 1: Classical Distal RTA Type 1 is also called classical distal RTA. "Distal," which means distant, refers to the point in the urine-forming tube of the kidney where the defect occursrelatively distant from the point where fluid from the blood enters the tiny tube, or tubule, that collects fluid and wastes to form urine. This disorder may be inherited as a primary disorder or may be one symptom of a disease that affects many parts of the body. Researchers have discovered abnormal genes responsible for the inherited forms of the disease. More often, however, classical distal RTA occurs as a result of systemic diseasesdiseases that affect many organ systemslike the autoimmune disorders Sjgren's syndrome and lupus, which also attack the distal tubule. Other diseases and conditions associated with classical distal RTA include sickle cell anemia, hyperparathyroidism, hyperthyroidism, chronic active hepatitis, primary biliary cirrhosis, a hereditary form of deafness, analgesic nephropathy, rejection of a transplanted kidney, renal medullary cystic disease, obstructive uropathy, and chronic urinary tract infections. Many of these conditions cause abnormal calcium deposits to build up in the kidney and impair distal tubule function. A major consequence of classical distal RTA is a low blood potassium level. The level drops if the kidneys excrete too much potassium into urine instead of returning it to the blood supply. Because potassium helps regulate nerve and muscle health and heart rate, low levels can cause extreme weakness, irregular heartbeat, paralysis, and even death. Untreated classical distal RTA causes growth retardation in children and progressive kidney and bone disease in adults. Restoring normal growth and preventing kidney stones are the major goals of therapy. If acidosis is corrected with sodium bicarbonate or sodium citrate, then low blood-potassium, salt depletion, and calcium leakage into urine will be corrected. This alkali therapy also helps decrease the development of kidney stones and stabilizes kidney function so kidney failure does not progress. Infants may need potassium supplements, but older children and adults rarely do because alkali therapy prevents the kidney from excreting potassium into the urine. Type 2: Proximal RTA Type 2 is also called proximal RTA. The word "proximal," which means near, indicates that the defect is closer to the point where fluid and wastes from the blood enter the tubule. This form of RTA occurs most frequently in children as part of a disorder called Fanconi's syndrome. The features of Fanconi's syndrome include the abnormal excretion of glucose, amino acids, citrate, and phosphate into the urine, as well as vitamin D deficiency and low blood-potassium. Proximal RTA can also result from inherited disorders that disrupt the body's normal breakdown and use of nutrients. Examples include the rare disease cystinosis, in which cystine crystals are deposited in bones and other tissues; hereditary fructose intolerance; and Wilson disease. Proximal RTA also occurs in patients treated with ifosfamide, a drug used in chemotherapy. A few older drugssuch as acetazolamide or outdated tetracyclinecan also cause proximal RTA. In adults, proximal RTA may complicate diseases like multiple myeloma, or it may occur in people who experience chronic rejection of a transplanted kidney. When possible, identifying and correcting the underlying causes are important steps in treating the acquired forms of proximal RTA. The diagnosis is based on the chemical analysis of blood and urine samples. Children with this disorder would likely receive large doses of an oral alkali, such as sodium bicarbonate or potassium citrate, to treat acidosis and prevent bone disorders, kidney stones, and growth failure. Correcting acidosis and low potassium levels restores normal growth patterns, allowing bone to mature while preventing further renal disease. Vitamin D supplements may also be needed to help prevent bone problems. Type 3 Type 3 is rarely used as a classification because it is now thought to be a combination of type 1 and type 2. Type 4: Hyperkalemic RTA Type 4 is also called hyperkalemic RTA and is caused by a generalized transport abnormality of the distal tubule. The transport of electrolytes such as sodium, chloride, and potassium that normally occurs in the distal tubule is impaired. This form is distinguished from classical distal RTA and proximal RTA because it results in high levels of potassium in the blood instead of low levels. Either low potassiumhypokalemiaor high potassiumhyperkalemiacan be a problem because potassium is important in regulating heart rate. Type 4 RTA occurs when blood levels of the hormone aldosterone are low or when the kidneys do not respond to it. Aldosterone directs the kidneys to regulate the levels of sodium, potassium, and chloride in the blood. Type 4 RTA also occurs when the tubule transport of electrolytes such as sodium, chloride, and potassium is impaired due to an inherited disorder or the use of certain drugs. Drugs that may cause type 4 RTA include - diuretics used to treat congestive heart failure such as spironolactone or eplerenone - blood pressure drugs called angiotensin-converting enzyme (ACE) inhibitors and angiotensin receptor blockers (ARBs) - the antibiotic trimethoprim - the antibiotic pentamidine, which is used to treat pneumonia - an agent called heparin that keeps blood from clotting - a class of painkillers called nonsteroidal anti-inflammatory drugs (NSAIDs) - some immunosuppressive drugs used to prevent rejection Type 4 RTA may also result from diseases that alter kidney structure and function such as diabetic nephropathy, HIV/AIDS, Addison's disease, sickle cell disease, urinary tract obstruction, lupus, amyloidosis, removal or destruction of both adrenal glands, and kidney transplant rejection. For people who produce aldosterone but cannot use it, researchers have identified the genetic basis for their body's resistance to the hormone. To treat type 4 RTA successfully, patients may require alkaline agents to correct acidosis and medication to lower the potassium in their blood. If treated early, most people with any type of RTA will not develop permanent kidney failure. Therefore, the goal is early recognition and adequate therapy, which will need to be maintained and monitored throughout the person's lifetime. </s></s>

<s>[INST] What to do for Renal Tubular Acidosis ? [/INST] - Renal tubular acidosis (RTA) is a disease that occurs when the kidneys fail to excrete acids into the urine, which causes a person's blood to remain too acidic. - Without proper treatment, chronic acidity of the blood leads to growth retardation, kidney stones, bone disease, chronic kidney disease, and possibly total kidney failure. - If RTA is suspected, additional information about the sodium, potassium, and chloride levels in the urine and the potassium level in the blood will help identify which type of RTA a person has. - In all cases, the first goal of therapy is to neutralize acid in the blood, but different treatments may be needed to address the different underlying causes of acidosis. </s></s>

<s>[INST] What to do for Renal Tubular Acidosis ? [/INST] - Renal tubular acidosis (RTA) is a disease that occurs when the kidneys fail to excrete acids into the urine, which causes a person's blood to remain too acidic. - Without proper treatment, chronic acidity of the blood leads to growth retardation, kidney stones, bone disease, chronic kidney disease, and possibly total kidney failure. - If RTA is suspected, additional information about the sodium, potassium, and chloride levels in the urine and the potassium level in the blood will help identify which type of RTA a person has. - In all cases, the first goal of therapy is to neutralize acid in the blood, but different treatments may be needed to address the different underlying causes of acidosis. </s></s>

<s>[INST] What is (are) Prevent diabetes problems: Keep your diabetes under control ? [/INST] Diabetes problems are health problems that can happen when you have diabetes. If your diabetes is not under control, you will have too much glucose*, also called sugar, in your blood. Having too much glucose in your blood for a long time can affect many important parts of your body, such as your - blood vessels and heart - nerves - kidneys - mouth - eyes - feet You can do a lot to prevent or slow down these health problems if you keep your diabetes under control. This chart shows the body parts that can be affected by diabetes and the resulting health problems you may have. Affected Body Part Resulting Health Problems You May Have Blood vessels and heart - Heart disease - Heart attack - Stroke - High blood pressure - Poor blood circulation, or flow, throughout your body Nerves - Pain, tingling, weakness, or numbness in your hands, arms, feet, or legs - Problems with your bladder, digestion, having sex, and keeping your heartbeats and blood pressure steady Kidneys - Protein loss through your urine - Buildup of wastes and fluid in your blood Mouth - Gum disease and loss of teeth - Dry mouth - Thrush, or the growth of too much fungus in the mouth Eyes - Loss of vision and blindness Feet - Sores - Infections - Amputation *See the Pronunciation Guide for tips on how to say the the words in bold type. </s></s>

<s>[INST] What is (are) Prevent diabetes problems: Keep your diabetes under control ? [/INST] The A1C test, also called the hemoglobin A1C test, HbA1C, or glycohemoglobin test, is a blood test that reflects the average level of glucose in your blood during the past 3 months. Your A1C test result is given in percents. Your doctor might use the A1C test to help diagnose your diabetes. Your doctor will draw a sample of your blood in the office or send you to a lab to have a sample of your blood drawn for the test. After being diagnosed with diabetes, you should have the A1C test at least twice a year. Your A1C result plus your record of blood glucose numbers show whether your blood glucose is under control. - If your A1C result is too high, you may need to change your diabetes care plan. Your health care team can help you decide what part of your plan to change. For instance, you might need to change your meal plan, your diabetes medicines, or your physical activity plan. - If your A1C result is on target, then your diabetes treatment plan is working. The lower your A1C is, the lower your chance of having diabetes problems. This chart shows the A1C goals for different types of people with diabetes. Types of People A1C Goals Most people with diabetes below 7% Women with diabetes who want to get pregnant or who are pregnant below 6% A1C goals can also depend on - how long you have had diabetes - whether or not you have other health problems Ask your doctor what goal is right for you. This chart shows how your A1C result may match up to your average blood glucose number. What Your A1C Result Means My A1C Result My Average Blood Glucose Number 6% 135 7% 170 8% 205 9% 240 10% 275 11% 310 12% 345 </s></s>

<s>[INST] What to do for Prevent diabetes problems: Keep your diabetes under control ? [/INST] Following a healthy eating plan is a key step in living with diabetes and preventing diabetes problems. Your health care team will help you make a healthy eating plan. More information is provided in the NIDDK health topic, What I need to know about Eating and Diabetes or call 18008608747. </s></s>

<s>[INST] How to prevent Prevent diabetes problems: Keep your diabetes under control ? [/INST] You can take steps each day to prevent diabetes problems. Steps Healthy Eating - Follow the healthy eating plan that you and your doctor or dietitian have made. - Learn what to eat to keep your blood glucose levels under control. - Make wise food choices to help you feel good every day and to lose weight if needed. Blood Glucose - Check your blood glucose every day. - Each time you check your blood glucose, write the number in a record book to share with your health care team. - Treat low blood glucose quickly. Physical Activity - Even small amounts of physical activity help manage diabetes. Aim for 30 to 60 minutes of physical activity most days of the week. Children and adolescents with type 2 diabetes who are 10 to 17 years old should aim for 60 minutes of activity every day. - Not all physical activity has to take place at the same time. - Do aerobic activities, such as brisk walking, which use your large muscles to make your heart beat faster. The large muscles are those of the upper and lower arms and legs and those that control head, shoulder, and hip movements. - Do activities to strengthen muscles and bone, such as lifting weights or sit-ups. Aim for two times a week. - Stretch to increase your flexibility, lower stress, and help prevent muscle soreness after physical activity. - Increase daily activity by decreasing time spent watching TV or at the computer. Children and adolescents should limit screen time not related to school to less than 2 hours per day. Limiting screen time can help you meet your physical activity goal. - Always talk with your doctor before you start a new physical activity program. Medicines - Take your medicines as directed, including insulin if ordered by your doctor. Feet - Check your feet every day for cuts, blisters, sores, swelling, redness, or sore toenails. Mouth - Brush and floss your teeth every day. Blood Pressure - Control your blood pressure and cholesterol. Smoking - Dont smoke. </s></s>

<s>[INST] How to diagnose Prevent diabetes problems: Keep your diabetes under control ? [/INST] This chart lists important tests, exams, and vaccines to get at least once or twice a year. Tests, Exams, and Vaccines to Get at Least Once or Twice a Year Make Sure to A1C test - Have this blood test at least twice a year. Your result will tell you what your average blood glucose level was for the past 3 months. Cholesterol test - Get a blood test to check your - total cholesterol - LDL - HDL - triglycerides Kidney tests - Once a year, get a urine test to check for protein. - At least once a year, get a blood test to check for creatinine, a waste product healthy kidneys remove from the body. Eye exam - See an eye doctor once a year for a complete eye exam that includes using drops in your eyes to dilate your pupils. - If you are pregnant, have a complete eye exam in your first 3 months of pregnancy. Have another complete eye exam 1 year after your baby is born. Dental exam - See your dentist twice a year for a cleaning and checkup. Flu vaccine - Get a flu vaccine each year. Pneumonia vaccine - Get this vaccine if you are younger than 64. - If youre older than 64 and your vaccine was more than 5 years ago, get another one. Hepatitis B vaccine - Get this vaccine if youre younger than 60 and you have not already had the vaccine. - Prevent exposure to Hepatitis B by not sharing blood glucose monitors or other diabetes equipment. </s></s>

<s>[INST] What is (are) Hepatitis B: What Asian and Pacific Islander Americans Need to Know ? [/INST] Hepatitis B is a liver disease spread through contact with blood, semen, or other body fluids from a person infected with the hepatitis B virus. The disease is most commonly spread from an infected mother to her infant at birth. Hepatitis B is also spread through sex, wound-to-wound contact, and contact with items that may have blood on them, such as shaving razors, toothbrushes, syringes, and tattoo and body piercing needles. Hepatitis B is not spread through casual contact such as shaking hands or hugging; nor is it spread by sharing food or beverages, by sneezing and coughing, or through breastfeeding. </s></s>

<s>[INST] What is (are) Hepatitis B: What Asian and Pacific Islander Americans Need to Know ? [/INST] Hepatitis B may start as a brief, flu-like illness. Most healthy adults and children older than 5 completely recover after the bodys immune system gets rid of the virus. Hepatitis B becomes chronic when the bodys immune system cant get rid of the virus. Over time, having the virus can lead to inflammation of the liver; scar tissue in the liver, called cirrhosis; or liver cancer. Inflammation is the painful red swelling that results when tissues of the body become infected. Young children and people with weakened immune systems are especially at risk. People who were infected as infants have a 90 percent chance of developing chronic hepatitis B.1 </s></s>

<s>[INST] Who is at risk for Hepatitis B: What Asian and Pacific Islander Americans Need to Know? ? [/INST] Since 1986, a hepatitis B vaccine has been available and should be given to newborns and children in the United States. The vaccine, however, is unavailableor has only recently become availablein many parts of the world. You are at higher risk for hepatitis B if you or your mother was born in a region of the world where hepatitis B is common, meaning 2 percent or more of the population is chronically infected with the hepatitis B virus.1 In most Asian and Pacific Island nations, 8 to 16 percent of the population is chronically infected.2 </s></s>

<s>[INST] What are the symptoms of Hepatitis B: What Asian and Pacific Islander Americans Need to Know ? [/INST] Hepatitis B is called a silent killer because many people have no symptoms, so the disease often progresses unnoticed for years. Unfortunately, many people first learn they have chronic hepatitis B when they develop symptoms of severe liver damage, which include - yellowish eyes and skin, called jaundice - a swollen stomach or ankles - tiredness - nausea - weakness - loss of appetite - weight loss - spiderlike blood vessels, called spider angiomas, that develop on the skin </s></s>

<s>[INST] Who is at risk for Hepatitis B: What Asian and Pacific Islander Americans Need to Know? ? [/INST] Anyone can get hepatitis B, but some people are at higher risk, including - people who were born to a mother with hepatitis B - people who have close household contact with someone infected with the hepatitis B virus - people who have lived in parts of the world where hepatitis B is common, including most Asian and Pacific Island nations - people who are exposed to blood or body fluids at work - people on hemodialysis - people whose sex partner(s) has hepatitis B - people who have had more than one sex partner in the last 6 months or have a history of sexually transmitted disease - injection drug users - men who have sex with men </s></s>

<s>[INST] What is (are) Acquired Cystic Kidney Disease ? [/INST] Acquired cystic kidney disease happens when a person's kidneys develop fluid-filled sacs, called cysts, over time. Acquired cystic kidney disease is not the same as polycystic kidney disease (PKD), another disease that causes the kidneys to develop multiple cysts. Acquired cystic kidney disease occurs in children and adults who have - chronic kidney disease (CKD)a condition that develops over many years and may lead to end-stage kidney disease, or ESRD. The kidneys of people with CKD gradually lose their ability to filter wastes, extra salt, and fluid from the blood properly. - end-stage kidney diseasetotal and permanent kidney failure that requires a kidney transplant or blood-filtering treatments called dialysis. The cysts are more likely to develop in people who are on kidney dialysis. The chance of developing acquired cystic kidney disease increases with the number of years a person is on dialysis. However, the cysts are caused by CKD or kidney failure, not dialysis treatments. More information is provided in the NIDDK health topics, kidney failureand dialysis. </s></s>

<s>[INST] What is (are) Acquired Cystic Kidney Disease ? [/INST] Acquired cystic kidney disease differs from PKD in several ways. Unlike acquired cystic kidney disease, PKD is a genetic, or inherited, disorder that can cause complications such as high blood pressure and problems with blood vessels in the brain and heart. The following chart lists the differences: People with Polycystic Kidney Disease - are born with a gene that causes the disease - have enlarged kidneys - develop cysts in the liver and other parts of the body People with Acquired Cystic Kidney Disease - do not have a disease-causing gene - have kidneys that are normal-sized or smaller - do not form cysts in other parts of the body In addition, for people with PKD, the presence of cysts marks the onset of their disease, while people with acquired cystic kidney disease already have CKD when they develop cysts. More information is provided in the NIDDK health topic, Polycystic Kidney Disease. </s></s>

<s>[INST] How many people are affected by Acquired Cystic Kidney Disease ? [/INST] Acquired cystic kidney disease becomes more common the longer a person has CKD. - About 7 to 22 percent of people with CKD already have acquired cystic kidney disease before starting dialysis treatments. - Almost 60 percent of people on dialysis for 2 to 4 years develop acquired cystic kidney disease.1 - About 90 percent of people on dialysis for 8 years develop acquired cystic kidney disease.1 </s></s>

<s>[INST] What causes Acquired Cystic Kidney Disease ? [/INST] Researchers do not fully understand what causes cysts to grow in the kidneys of people with CKD. The fact that these cysts occur only in the kidneys and not in other parts of the body, as in PKD, indicates that the processes that lead to cyst formation take place primarily inside the kidneys.2 </s></s>

<s>[INST] What are the symptoms of Acquired Cystic Kidney Disease ? [/INST] A person with acquired cystic kidney disease often has no symptoms. However, the complications of acquired cystic kidney disease can have signs and symptoms. </s></s>

<s>[INST] What are the complications of Acquired Cystic Kidney Disease ? [/INST] People with acquired cystic kidney disease may develop the following complications: - an infected cyst, which can cause fever and back pain. - blood in the urine, which can signal that a cyst in the kidney is bleeding. - tumors in the kidneys. People with acquired cystic kidney disease are more likely than people in the general population to have cancerous kidney tumors. However, the chance of cancer spreading is lower in people with acquired cystic kidney disease than that of other kidney cancers not associated with acquired cystic kidney disease, and the long-term outlook is better.1 </s></s>

<s>[INST] How to diagnose Acquired Cystic Kidney Disease ? [/INST] A health care provider may diagnose a person with acquired cystic kidney disease based on - medical history - imaging tests Medical History Taking a medical history may help a health care provider diagnose acquired cystic kidney disease. A health care provider may suspect acquired cystic kidney disease if a person who has been on dialysis for several years develops symptoms such as fever, back pain, or blood in the urine. Imaging Tests To confirm the diagnosis, the health care provider may order one or more imaging tests. A radiologista doctor who specializes in medical imaginginterprets the images from these tests, and the patient does not need anesthesia. - Ultrasound uses a device, called a transducer, that bounces safe, painless sound waves off organs to create an image of their structure. A specially trained technician performs the procedure in a health care provider's office, an outpatient center, or a hospital. The images can show cysts in the kidneys as well as the kidneys' size and shape. - Computerized tomography (CT) scans use a combination of x rays and computer technology to create images. For a CT scan, a nurse or technician may give the patient a solution to drink and an injection of a special dye, called contrast medium. CT scans require the patient to lie on a table that slides into a tunnel-shaped device where an x-ray technician takes the x-rays. An x-ray technician performs the procedure in an outpatient center or a hospital. CT scans can show cysts and tumors in the kidneys. - Magnetic resonance imaging (MRI) is a test that takes pictures of the body's internal organs and soft tissues without using x-rays. A specially trained technician performs the procedure in an outpatient center or a hospital. Although the patient does not need anesthesia, a health care provider may give people with a fear of confined spaces light sedation, taken by mouth. An MRI may include the injection of contrast medium. With most MRI machines, the patient will lie on a table that slides into a tunnel-shaped device that may be open-ended or closed at one end. Some machines allow the patient to lie in a more open space. During an MRI, the patient, although usually awake, must remain perfectly still while the technician takes the images, which usually takes only a few minutes. The technician will take a sequence of images from different angles to create a detailed picture of the kidneys. During the test, the patient will hear loud mechanical knocking and humming noises from the machine. Sometimes a health care provider may discover acquired cystic kidney disease during an imaging exam for another condition. Images of the kidneys may help the health care provider distinguish acquired cystic kidney disease from PKD. </s></s>

<s>[INST] What are the treatments for Acquired Cystic Kidney Disease ? [/INST] If acquired cystic kidney disease is not causing complications, a person does not need treatment. A health care provider will treat infections with antibioticsmedications that kill bacteria. If large cysts are causing pain, a health care provider may drain the cyst using a long needle inserted into the cyst through the skin. When a surgeon transplants a new kidney into a patient's body to treat kidney failure, acquired cystic kidney disease in the damaged kidneys, which usually remain in place after a transplant, often disappears. A surgeon may perform an operation to remove tumors or suspected tumors. In rare cases, a surgeon performs an operation to stop cysts from bleeding. Have Regular Screenings to Look for Cyst or Tumor Growth Some health care providers recommend all people with end-stage kidney disease get screened for kidney cancer using CT scans or MRIs after 3 years of dialysis. People with acquired cystic kidney disease should talk with their health care provider about when to begin screening. </s></s>

<s>[INST] What to do for Acquired Cystic Kidney Disease ? [/INST] No specific diet will prevent or delay acquired cystic kidney disease. In general, a diet designed for people on hemodialysis or peritoneal dialysis reduces the amount of wastes that accumulate in the body between dialysis sessions. More information is provided in the NIDDK health topics, Eat Right to Feel Right on Hemodialysis and Nutrition for Advanced Chronic Kidney Disease in Adults. </s></s>

<s>[INST] What to do for Acquired Cystic Kidney Disease ? [/INST] - Acquired cystic kidney disease happens when a person's kidneys develop fluid-filled sacs, called cysts, over time. - Acquired cystic kidney disease occurs in children and adults who have - chronic kidney disease (CKD) - end-stage kidney disease (ESRD) - People with acquired cystic kidney disease may develop the following complications: - an infected cyst, which can cause fever and back pain - blood in the urine, which can signal that a cyst in the kidney is bleeding - tumors in the kidneys - To confirm the diagnosis, the health care provider may order one or more imaging tests: - Ultrasound - Computerized tomography (CT) scan - Magnetic resonance imaging (MRI) - If acquired cystic kidney disease is not causing complications, a person does not need treatment. - A health care provider will treat infections with antibioticsmedications that kill bacteria. - If large cysts are causing pain, a health care provider may drain the cyst using a long needle inserted into the cyst through the skin. - A surgeon may perform an operation to remove tumors or suspected tumors. In rare cases, a surgeon performs an operation to stop cysts from bleeding. </s></s>

<s>[INST] What is (are) Prostate Enlargement: Benign Prostatic Hyperplasia ? [/INST] Benign prostatic hyperplasiaalso called BPHis a condition in men in which the prostate gland is enlarged and not cancerous. Benign prostatic hyperplasia is also called benign prostatic hypertrophy or benign prostatic obstruction. The prostate goes through two main growth periods as a man ages. The first occurs early in puberty, when the prostate doubles in size. The second phase of growth begins around age 25 and continues during most of a mans life. Benign prostatic hyperplasia often occurs with the second growth phase. As the prostate enlarges, the gland presses against and pinches the urethra. The bladder wall becomes thicker. Eventually, the bladder may weaken and lose the ability to empty completely, leaving some urine in the bladder. The narrowing of the urethra and urinary retentionthe inability to empty the bladder completelycause many of the problems associated with benign prostatic hyperplasia. </s></s>

<s>[INST] What is (are) Prostate Enlargement: Benign Prostatic Hyperplasia ? [/INST] The prostate is a walnut-shaped gland that is part of the male reproductive system. The main function of the prostate is to make a fluid that goes into semen. Prostate fluid is essential for a mans fertility. The gland surrounds the urethra at the neck of the bladder. The bladder neck is the area where the urethra joins the bladder. The bladder and urethra are parts of the lower urinary tract. The prostate has two or more lobes, or sections, enclosed by an outer layer of tissue, and it is in front of the rectum, just below the bladder. The urethra is the tube that carries urine from the bladder to the outside of the body. In men, the urethra also carries semen out through the penis. </s></s>

<s>[INST] What causes Prostate Enlargement: Benign Prostatic Hyperplasia ? [/INST] The cause of benign prostatic hyperplasia is not well understood; however, it occurs mainly in older men. Benign prostatic hyperplasia does not develop in men whose testicles were removed before puberty. For this reason, some researchers believe factors related to aging and the testicles may cause benign prostatic hyperplasia. Throughout their lives, men produce testosterone, a male hormone, and small amounts of estrogen, a female hormone. As men age, the amount of active testosterone in their blood decreases, which leaves a higher proportion of estrogen. Scientific studies have suggested that benign prostatic hyperplasia may occur because the higher proportion of estrogen within the prostate increases the activity of substances that promote prostate cell growth. Another theory focuses on dihydrotestosterone (DHT), a male hormone that plays a role in prostate development and growth. Some research has indicated that even with a drop in blood testosterone levels, older men continue to produce and accumulate high levels of DHT in the prostate. This accumulation of DHT may encourage prostate cells to continue to grow. Scientists have noted that men who do not produce DHT do not develop benign prostatic hyperplasia. </s></s>

<s>[INST] How many people are affected by Prostate Enlargement: Benign Prostatic Hyperplasia ? [/INST] Benign prostatic hyperplasia is the most common prostate problem for men older than age 50. In 2010, as many as 14 million men in the United States had lower urinary tract symptoms suggestive of benign prostatic hyperplasia.1 Although benign prostatic hyperplasia rarely causes symptoms before age 40, the occurrence and symptoms increase with age. Benign prostatic hyperplasia affects about 50 percent of men between the ages of 51 and 60 and up to 90 percent of men older than 80.2 </s></s>

<s>[INST] What are the symptoms of Prostate Enlargement: Benign Prostatic Hyperplasia ? [/INST] Lower urinary tract symptoms suggestive of benign prostatic hyperplasia may include - urinary frequencyurination eight or more times a day - urinary urgencythe inability to delay urination - trouble starting a urine stream - a weak or an interrupted urine stream - dribbling at the end of urination - nocturiafrequent urination during periods of sleep - urinary retention - urinary incontinencethe accidental loss of urine - pain after ejaculation or during urination - urine that has an unusual color or smell Symptoms of benign prostatic hyperplasia most often come from - a blocked urethra - a bladder that is overworked from trying to pass urine through the blockage The size of the prostate does not always determine the severity of the blockage or symptoms. Some men with greatly enlarged prostates have little blockage and few symptoms, while other men who have minimally enlarged prostates have greater blockage and more symptoms. Less than half of all men with benign prostatic hyperplasia have lower urinary tract symptoms.3 Sometimes men may not know they have a blockage until they cannot urinate. This condition, called acute urinary retention, can result from taking over-the-counter cold or allergy medications that contain decongestants, such as pseudoephedrine and oxymetazoline. A potential side effect of these medications may prevent the bladder neck from relaxing and releasing urine. Medications that contain antihistamines, such as diphenhydramine, can weaken the contraction of bladder muscles and cause urinary retention, difficulty urinating, and painful urination. When men have partial urethra blockage, urinary retention also can occur as a result of alcohol consumption, cold temperatures, or a long period of inactivity. </s></s>

<s>[INST] What are the complications of Prostate Enlargement: Benign Prostatic Hyperplasia ? [/INST] The complications of benign prostatic hyperplasia may include - acute urinary retention - chronic, or long lasting, urinary retention - blood in the urine - urinary tract infections (UTIs) - bladder damage - kidney damage - bladder stones Most men with benign prostatic hyperplasia do not develop these complications. However, kidney damage in particular can be a serious health threat when it occurs. When to Seek Medical Care A person may have urinary symptoms unrelated to benign prostatic hyperplasia that are caused by bladder problems, UTIs, or prostatitisinflammation of the prostate. Symptoms of benign prostatic hyperplasia also can signal more serious conditions, including prostate cancer. Men with symptoms of benign prostatic hyperplasia should see a health care provider. Men with the following symptoms should seek immediate medical care: - complete inability to urinate - painful, frequent, and urgent need to urinate, with fever and chills - blood in the urine - great discomfort or pain in the lower abdomen and urinary tract </s></s>

<s>[INST] How to diagnose Prostate Enlargement: Benign Prostatic Hyperplasia ? [/INST] A health care provider diagnoses benign prostatic hyperplasia based on - a personal and family medical history - a physical exam - medical tests Personal and Family Medical History Taking a personal and family medical history is one of the first things a health care provider may do to help diagnose benign prostatic hyperplasia. A health care provider may ask a man - what symptoms are present - when the symptoms began and how often they occur - whether he has a history of recurrent UTIs - what medications he takes, both prescription and over the counter - how much liquid he typically drinks each day - whether he consumes caffeine and alcohol - about his general medical history, including any significant illnesses or surgeries Physical Exam A physical exam may help diagnose benign prostatic hyperplasia. During a physical exam, a health care provider most often - examines a patients body, which can include checking for - discharge from the urethra - enlarged or tender lymph nodes in the groin - a swollen or tender scrotum - taps on specific areas of the patients body - performs a digital rectal exam A digital rectal exam, or rectal exam, is a physical exam of the prostate. To perform the exam, the health care provider asks the man to bend over a table or lie on his side while holding his knees close to his chest. The health care provider slides a gloved, lubricated finger into the rectum and feels the part of the prostate that lies next to the rectum. The man may feel slight, brief discomfort during the rectal exam. A health care provider most often performs a rectal exam during an office visit, and men do not require anesthesia. The exam helps the health care provider see if the prostate is enlarged or tender or has any abnormalities that require more testing. Many health care providers perform a rectal exam as part of a routine physical exam for men age 40 or older, whether or not they have urinary problems. Medical Tests A health care provider may refer men to a urologista doctor who specializes in urinary problems and the male reproductive systemthough the health care provider most often diagnoses benign prostatic hyperplasia on the basis of symptoms and a digital rectal exam. A urologist uses medical tests to help diagnose lower urinary tract problems related to benign prostatic hyperplasia and recommend treatment. Medical tests may include - urinalysis - a prostate-specific antigen (PSA) blood test - urodynamic tests - cystoscopy - transrectal ultrasound - biopsy Urinalysis. Urinalysis involves testing a urine sample. The patient collects a urine sample in a special container in a health care providers office or a commercial facility. A health care provider tests the sample during an office visit or sends it to a lab for analysis. For the test, a nurse or technician places a strip of chemically treated paper, called a dipstick, into the urine. Patches on the dipstick change color to indicate signs of infection in urine. PSA blood test. A health care provider may draw blood for a PSA test during an office visit or in a commercial facility and send the sample to a lab for analysis. Prostate cells create a protein called PSA. Men who have prostate cancer may have a higher amount of PSA in their blood. However, a high PSA level does not necessarily indicate prostate cancer. In fact, benign prostatic hyperplasia, prostate infections, inflammation, aging, and normal fluctuations often cause high PSA levels. Much remains unknown about how to interpret a PSA blood test, the tests ability to discriminate between cancer and prostate conditions such as benign prostatic hyperplasia, and the best course of action to take if the PSA level is high. Urodynamic tests. Urodynamic tests include a variety of procedures that look at how well the bladder and urethra store and release urine. A health care provider performs urodynamic tests during an office visit or in an outpatient center or a hospital. Some urodynamic tests do not require anesthesia; others may require local anesthesia. Most urodynamic tests focus on the bladders ability to hold urine and empty steadily and completely and may include the following: - uroflowmetry, which measures how rapidly the bladder releases urine - postvoid residual measurement, which evaluates how much urine remains in the bladder after urination - reduced urine flow or residual urine in the bladder, which often suggests urine blockage due to benign prostatic hyperplasia More information is provided in the NIDDK health topic, Urodynamic Testing. Cystoscopy. Cystoscopy is a procedure that uses a tubelike instrument, called a cystoscope, to look inside the urethra and bladder. A urologist inserts the cystoscope through the opening at the tip of the penis and into the lower urinary tract. A urologist performs cystoscopy during an office visit or in an outpatient center or a hospital. The urologist will give the patient local anesthesia; however, in some cases, the patient may require sedation and regional or general anesthesia. A urologist may use cystoscopy to look for blockage or stones in the urinary tract. More information is provided in the NIDDK health topic, Cystoscopy and Ureteroscopy. Transrectal ultrasound. Transrectal ultrasound uses a device, called a transducer, that bounces safe, painless sound waves off organs to create an image of their structure. The health care provider can move the transducer to different angles to make it possible to examine different organs. A specially trained technician performs the procedure in a health care providers office, an outpatient center, or a hospital, and a radiologista doctor who specializes in medical imaginginterprets the images; the patient does not require anesthesia. Urologists most often use transrectal ultrasound to examine the prostate. In a transrectal ultrasound, the technician inserts a transducer slightly larger than a pen into the mans rectum, next to the prostate. The ultrasound image shows the size of the prostate and any abnormalities, such as tumors. Transrectal ultrasound cannot reliably diagnose prostate cancer. Biopsy. Biopsy is a procedure that involves taking a small piece of prostate tissue for examination with a microscope. A urologist performs the biopsy in an outpatient center or a hospital. The urologist will give the patient light sedation and local anesthetic; however, in some cases, the patient will require general anesthesia. The urologist uses imaging techniques such as ultrasound, a computerized tomography scan, or magnetic resonance imaging to guide the biopsy needle into the prostate. A pathologista doctor who specializes in examining tissues to diagnose diseasesexamines the prostate tissue in a lab. The test can show whether prostate cancer is present. More information is provided in the NIDDK health topic, Medical Tests for Prostate Problems. </s></s>

<s>[INST] What are the treatments for Prostate Enlargement: Benign Prostatic Hyperplasia ? [/INST] Treatment options for benign prostatic hyperplasia may include - lifestyle changes - medications - minimally invasive procedures - surgery A health care provider treats benign prostatic hyperplasia based on the severity of symptoms, how much the symptoms affect a mans daily life, and a mans preferences. Men may not need treatment for a mildly enlarged prostate unless their symptoms are bothersome and affecting their quality of life. In these cases, instead of treatment, a urologist may recommend regular checkups. If benign prostatic hyperplasia symptoms become bothersome or present a health risk, a urologist most often recommends treatment. Lifestyle Changes A health care provider may recommend lifestyle changes for men whose symptoms are mild or slightly bothersome. Lifestyle changes can include - reducing intake of liquids, particularly before going out in public or before periods of sleep - avoiding or reducing intake of caffeinated beverages and alcohol - avoiding or monitoring the use of medications such as decongestants, antihistamines, antidepressants, and diuretics - training the bladder to hold more urine for longer periods - exercising pelvic floor muscles - preventing or treating constipation Medications A health care provider or urologist may prescribe medications that stop the growth of or shrink the prostate or reduce symptoms associated with benign prostatic hyperplasia: - alpha blockers - phosphodiesterase-5 inhibitors - 5-alpha reductase inhibitors - combination medications Alpha blockers. These medications relax the smooth muscles of the prostate and bladder neck to improve urine flow and reduce bladder blockage: - terazosin (Hytrin) - doxazosin (Cardura) - tamsulosin (Flomax) - alfuzosin (Uroxatral) - silodosin (Rapaflo) Phosphodiesterase-5 inhibitors. Urologists prescribe these medications mainly for erectile dysfunction. Tadalafil (Cialis) belongs to this class of medications and can reduce lower urinary tract symptoms by relaxing smooth muscles in the lower urinary tract. Researchers are working to determine the role of erectile dysfunction drugs in the long-term treatment of benign prostatic hyperplasia. 5-alpha reductase inhibitors. These medications block the production of DHT, which accumulates in the prostate and may cause prostate growth: - finasteride (Proscar) - dutasteride (Avodart) These medications can prevent progression of prostate growth or actually shrink the prostate in some men. Finasteride and dutasteride act more slowly than alpha blockers and are useful for only moderately enlarged prostates. Combination medications. Several studies, such as the Medical Therapy of Prostatic Symptoms (MTOPS) study, have shown that combining two classes of medications, instead of using just one, can more effectively improve symptoms, urinary flow, and quality of life. The combinations include - finasteride and doxazosin - dutasteride and tamsulosin (Jalyn), a combination of both medications that is available in a single tablet - alpha blockers and antimuscarinics A urologist may prescribe a combination of alpha blockers and antimuscarinics for patients with overactive bladder symptoms. Overactive bladder is a condition in which the bladder muscles contract uncontrollably and cause urinary frequency, urinary urgency, and urinary incontinence. Antimuscarinics are a class of medications that relax the bladder muscles. Minimally Invasive Procedures Researchers have developed a number of minimally invasive procedures that relieve benign prostatic hyperplasia symptoms when medications prove ineffective. These procedures include - transurethral needle ablation - transurethral microwave thermotherapy - high-intensity focused ultrasound - transurethral electrovaporization - water-induced thermotherapy - prostatic stent insertion Minimally invasive procedures can destroy enlarged prostate tissue or widen the urethra, which can help relieve blockage and urinary retention caused by benign prostatic hyperplasia. Urologists perform minimally invasive procedures using the transurethral method, which involves inserting a cathetera thin, flexible tubeor cystoscope through the urethra to reach the prostate. These procedures may require local, regional, or general anesthesia. Although destroying troublesome prostate tissue relieves many benign prostatic hyperplasia symptoms, tissue destruction does not cure benign prostatic hyperplasia. A urologist will decide which procedure to perform based on the mans symptoms and overall health. Transurethral needle ablation. This procedure uses heat generated by radiofrequency energy to destroy prostate tissue. A urologist inserts a cystoscope through the urethra to the prostate. A urologist then inserts small needles through the end of the cystoscope into the prostate. The needles send radiofrequency energy that heats and destroys selected portions of prostate tissue. Shields protect the urethra from heat damage. Transurethral microwave thermotherapy. This procedure uses microwaves to destroy prostate tissue. A urologist inserts a catheter through the urethra to the prostate, and a device called an antenna sends microwaves through the catheter to heat selected portions of the prostate. The temperature becomes high enough inside the prostate to destroy enlarged tissue. A cooling system protects the urinary tract from heat damage during the procedure. High-intensity focused ultrasound. For this procedure, a urologist inserts a special ultrasound probe into the rectum, near the prostate. Ultrasound waves from the probe heat and destroy enlarged prostate tissue. Transurethral electrovaporization. For this procedure, a urologist inserts a tubelike instrument called a resectoscope through the urethra to reach the prostate. An electrode attached to the resectoscope moves across the surface of the prostate and transmits an electric current that vaporizes prostate tissue. The vaporizing effect penetrates below the surface area being treated and seals blood vessels, which reduces the risk of bleeding. Water-induced thermotherapy. This procedure uses heated water to destroy prostate tissue. A urologist inserts a catheter into the urethra so that a treatment balloon rests in the middle of the prostate. Heated water flows through the catheter into the treatment balloon, which heats and destroys the surrounding prostate tissue. The treatment balloon can target a specific region of the prostate, while surrounding tissues in the urethra and bladder remain protected. Prostatic stent insertion. This procedure involves a urologist inserting a small device called a prostatic stent through the urethra to the area narrowed by the enlarged prostate. Once in place, the stent expands like a spring, and it pushes back the prostate tissue, widening the urethra. Prostatic stents may be temporary or permanent. Urologists generally use prostatic stents in men who may not tolerate or be suitable for other procedures. Surgery For long-term treatment of benign prostatic hyperplasia, a urologist may recommend removing enlarged prostate tissue or making cuts in the prostate to widen the urethra. Urologists recommend surgery when - medications and minimally invasive procedures are ineffective - symptoms are particularly bothersome or severe - complications arise Although removing troublesome prostate tissue relieves many benign prostatic hyperplasia symptoms, tissue removal does not cure benign prostatic hyperplasia. Surgery to remove enlarged prostate tissue includes - transurethral resection of the prostate (TURP) - laser surgery - open prostatectomy - transurethral incision of the prostate (TUIP) A urologist performs these surgeries, except for open prostatectomy, using the transurethral method. Men who have these surgical procedures require local, regional, or general anesthesia and may need to stay in the hospital. The urologist may prescribe antibiotics before or soon after surgery to prevent infection. Some urologists prescribe antibiotics only when an infection occurs. Immediately after benign prostatic hyperplasia surgery, a urologist may insert a special catheter, called a Foley catheter, through the opening of the penis to drain urine from the bladder into a drainage pouch. TURP. With TURP, a urologist inserts a resectoscope through the urethra to reach the prostate and cuts pieces of enlarged prostate tissue with a wire loop. Special fluid carries the tissue pieces into the bladder, and the urologist flushes them out at the end of the procedure. TURP is the most common surgery for benign prostatic hyperplasia and considered the gold standard for treating blockage of the urethra due to benign prostatic hyperplasia. Laser surgery. With this surgery, a urologist uses a high-energy laser to destroy prostate tissue. The urologist uses a cystoscope to pass a laser fiber through the urethra into the prostate. The laser destroys the enlarged tissue. The risk of bleeding is lower than in TURP and TUIP because the laser seals blood vessels as it cuts through the prostate tissue. However, laser surgery may not effectively treat greatly enlarged prostates. Open prostatectomy. In an open prostatectomy, a urologist makes an incision, or cut, through the skin to reach the prostate. The urologist can remove all or part of the prostate through the incision. This surgery is used most often when the prostate is greatly enlarged, complications occur, or the bladder is damaged and needs repair. Open prostatectomy requires general anesthesia, a longer hospital stay than other surgical procedures for benign prostatic hyperplasia, and a longer rehabilitation period. The three open prostatectomy procedures are retropubic prostatectomy, suprapubic prostatectomy, and perineal prostatectomy. The recovery period for open prostatectomy is different for each man who undergoes the procedure. However, it typically takes anywhere from 3 to 6 weeks.4 TUIP. A TUIP is a surgical procedure to widen the urethra. During a TUIP, the urologist inserts a cystoscope and an instrument that uses an electric current or a laser beam through the urethra to reach the prostate. The urologist widens the urethra by making a few small cuts in the prostate and in the bladder neck. Some urologists believe that TUIP gives the same relief as TURP except with less risk of side effects. After surgery, the prostate, urethra, and surrounding tissues may be irritated and swollen, causing urinary retention. To prevent urinary retention, a urologist inserts a Foley catheter so urine can drain freely out of the bladder. A Foley catheter has a balloon on the end that the urologist inserts into the bladder. Once the balloon is inside the bladder, the urologist fills it with sterile water to keep the catheter in place. Men who undergo minimally invasive procedures may not need a Foley catheter. The Foley catheter most often remains in place for several days. Sometimes, the Foley catheter causes recurring, painful, difficult-to-control bladder spasms the day after surgery. However, these spasms will eventually stop. A urologist may prescribe medications to relax bladder muscles and prevent bladder spasms. These medications include - oxybutynin chloride (Ditropan) - solifenacin (VESIcare) - darifenacin (Enablex) - tolterodine (Detrol) - hyoscyamine (Levsin) - propantheline bromide (Pro-Banthine) </s></s>

<s>[INST] What are the treatments for Prostate Enlargement: Benign Prostatic Hyperplasia ? [/INST] The complications of benign prostatic hyperplasia treatment depend on the type of treatment. Medications Medications used to treat benign prostatic hyperplasia may have side effects that sometimes can be serious. Men who are prescribed medications to treat benign prostatic hyperplasia should discuss possible side effects with a health care provider before taking the medications. Men who experience the following side effects should contact a health care provider right away or get emergency medical care: - hives - rash - itching - shortness of breath - rapid, pounding, or irregular heartbeat - painful erection of the penis that lasts for hours - swelling of the eyes, face, tongue, lips, throat, arms, hands, feet, ankles, or lower legs - difficulty breathing or swallowing - chest pain - dizziness or fainting when standing up suddenly - sudden decrease or loss of vision - blurred vision - sudden decrease or loss of hearing - chest pain, dizziness, or nausea during sexual activity These side effects are mostly related to phosphodiesterase-5 inhibitors. Side effects related to alpha blockers include - dizziness or fainting when standing up suddenly - decreased sexual drive - problems with ejaculation Minimally Invasive Procedures Complications after minimally invasive procedures may include - UTIs - painful urination - difficulty urinating - an urgent or a frequent need to urinate - urinary incontinence - blood in the urine for several days after the procedure - sexual dysfunction - chronic prostatitislong-lasting inflammation of the prostate - recurring problems such as urinary retention and UTIs Most of the complications of minimally invasive procedures go away within a few days or weeks. Minimally invasive procedures are less likely to have complications than surgery. Surgery Complications after surgery may include - problems urinating - urinary incontinence - bleeding and blood clots - infection - scar tissue - sexual dysfunction - recurring problems such as urinary retention and UTIs Problems urinating. Men may initially have painful urination or difficulty urinating. They may experience urinary frequency, urgency, or retention. These problems will gradually lessen and, after a couple of months, urination will be easier and less frequent. Urinary incontinence. As the bladder returns to normal, men may have some temporary problems controlling urination. However, long-term urinary incontinence rarely occurs. The longer urinary problems existed before surgery, the longer it takes for the bladder to regain its full function after surgery. Bleeding and blood clots. After benign prostatic hyperplasia surgery, the prostate or tissues around it may bleed. Blood or blood clots may appear in urine. Some bleeding is normal and should clear up within several days. However, men should contact a health care provider right away if - they experience pain or discomfort - their urine contains large clots - their urine is so red it is difficult to see through Blood clots from benign prostatic hyperplasia surgery can pass into the bloodstream and lodge in other parts of the bodymost often the legs. Men should contact a health care provider right away if they experience swelling or discomfort in their legs. Infection. Use of a Foley catheter after benign prostatic hyperplasia surgery may increase the risk of a UTI. Anesthesia during surgery may cause urinary retention and also increase the risk of a UTI. In addition, the incision site of an open prostatectomy may become infected. A health care provider will prescribe antibiotics to treat infections. Scar tissue. In the year after the original surgery, scar tissue sometimes forms and requires surgical treatment. Scar tissue may form in the urethra and cause it to narrow. A urologist can solve this problem during an office visit by stretching the urethra. Rarely, the opening of the bladder becomes scarred and shrinks, causing blockage. This problem may require a surgical procedure similar to TUIP. Sexual dysfunction. Some men may experience temporary problems with sexual function after benign prostatic hyperplasia surgery. The length of time for restored sexual function depends on the type of benign prostatic hyperplasia surgery performed and how long symptoms were present before surgery. Many men have found that concerns about sexual function can interfere with sex as much as the benign prostatic hyperplasia surgery itself. Understanding the surgical procedure and talking about concerns with a health care provider before surgery often help men regain sexual function earlier. Many men find it helpful to talk with a counselor during the adjustment period after surgery. Even though it can take a while for sexual function to fully return, with time, most men can enjoy sex again. Most health care providers agree that if men with benign prostatic hyperplasia were able to maintain an erection before surgery, they will probably be able to have erections afterward. Surgery rarely causes a loss of erectile function. However, benign prostatic hyperplasia surgery most often cannot restore function that was lost before the procedure. Some men find a slight difference in the quality of orgasm after surgery. However, most report no difference. Prostate surgery may make men sterile, or unable to father children, by causing retrograde ejaculationthe backward flow of semen into the bladder. Men flush the semen out of the bladder when they urinate. In some cases, medications such as pseudoephedrine, found in many cold medications, or imipramine can treat retrograde ejaculation. These medications improve muscle tone at the bladder neck and keep semen from entering the bladder. Recurring problems. Men may require further treatment if prostate problems, including benign prostatic hyperplasia, return. Problems may arise when treatments for benign prostatic hyperplasia leave a good part of the prostate intact. About 10 percent of men treated with TURP or TUIP require additional surgery within 5 years. About 2 percent of men who have an open prostatectomy require additional surgery within 5 years.2 In the years after benign prostatic hyperplasia surgery or treatment, men should continue having a digital rectal exam once a year and have any symptoms checked by a health care provider. In some cases, the health care provider may recommend a digital rectal exam and checkup more than once a year. </s></s>

<s>[INST] How to prevent Prostate Enlargement: Benign Prostatic Hyperplasia ? [/INST] Researchers have not found a way to prevent benign prostatic hyperplasia. Men with risk factors for benign prostatic hyperplasia should talk with a health care provider about any lower urinary tract symptoms and the need for regular prostate exams. Men can get early treatment and minimize benign prostatic hyperplasia effects by recognizing lower urinary tract symptoms and identifying an enlarged prostate. </s></s>

<s>[INST] What to do for Prostate Enlargement: Benign Prostatic Hyperplasia ? [/INST] Researchers have not found that eating, diet, and nutrition play a role in causing or preventing benign prostatic hyperplasia. However, a health care provider can give information about how changes in eating, diet, or nutrition could help with treatment. Men should talk with a health care provider or dietitian about what diet is right for them. </s></s>

<s>[INST] What to do for Prostate Enlargement: Benign Prostatic Hyperplasia ? [/INST] - Benign prostatic hyperplasiaalso called BPHis a condition in men in which the prostate gland is enlarged and not cancerous. - The prostate is a walnut-shaped gland that is part of the male reproductive system. - The cause of benign prostatic hyperplasia is not well understood; however, it occurs mainly in older men. - Benign prostatic hyperplasia is the most common prostate problem for men older than age 50. - Lower urinary tract symptoms suggestive of benign prostatic hyperplasia may include - urinary frequencyurination eight or more times a day - urinary urgencythe inability to delay urination - trouble starting a urine stream - a weak or an interrupted urine stream - dribbling at the end of urination - nocturiafrequent urination during periods of sleep - urinary retentionthe inability to empty the bladder completely - urinary incontinencethe accidental loss of urine - pain after ejaculation or during urination - urine that has an unusual color or smell - The complications of benign prostatic hyperplasia may include - acute urinary retention - chronic, or long lasting, urinary retention - blood in the urine - urinary tract infections (UTIs) - bladder damage - kidney damage - bladder stones - A health care provider diagnoses benign prostatic hyperplasia based on - a personal and family medical history - a physical exam - medical tests - Treatment options for benign prostatic hyperplasia may include - lifestyle changes - medications - minimally invasive procedures - surgery - The complications of benign prostatic hyperplasia treatment depend on the type of treatment. - Researchers have not found a way to prevent benign prostatic hyperplasia. - Researchers have not found that eating, diet, and nutrition play a role in causing or preventing benign prostatic hyperplasia. </s></s>

<s>[INST] What is (are) What I need to know about My Child's Urinary Tract Infection ? [/INST] A UTI is an infection in the urinary tract. Infections are caused by microbesorganisms too small to be seen without a microscope. Bacteria * are the most common cause of UTIs. Normally, bacteria that enter the urinary tract are quickly removed by the body before they cause symptoms. But sometimes bacteria overcome the bodys natural defenses and cause infection. *See the Pronunciation Guide for tips on how to say the underlined words. </s></s>

<s>[INST] What causes What I need to know about My Child's Urinary Tract Infection ? [/INST] Most UTIs are caused by bacteria that live in the bowel, the part of the digestive tract where stool is changed from liquid to solid. The bacterium Escherichia coli (E. coli) causes most UTIs. The urinary tract has several systems to prevent infection. The points where the ureters attach to the bladder act like one-way valves to prevent urine from backing up, or refluxing, toward the kidneys, and urination washes microbes out of the body. The bodys natural defenses also prevent infection. But despite these safeguards, infections still occur. Other factors that may cause a child to get a UTI include the following: - Waiting to urinate. Regular urination helps flush away bacteria. Holding urine allows bacteria to grow. - Making too little urine. A child that doesnt drink enough fluids may not make enough urine to flush away bacteria. - Constipation. Constipation is a condition in which a child has fewer than two bowel movements a week. Stools can be hard, dry, small, and difficult to pass. The hard stool in the bowel may press against the urinary tract and block the flow of urine, allowing bacteria to grow. Some children are just more prone to UTIs than others, just as some children are more prone to getting coughs, colds, or ear infections. </s></s>

<s>[INST] Who is at risk for What I need to know about My Child's Urinary Tract Infection? ? [/INST] Any child can get a UTI, though girls get UTIs more often than boys. Children with a condition called vesicoureteral reflux (VUR) are at higher risk for UTIs. VUR causes urine to reflux at the point where one or both ureters attach to the bladder. When urine stays in the urinary tract, bacteria have a chance to grow and spread. Infants and young children who get a UTI often have VUR. Boys younger than 6 months who are not circumcised are at greater risk for a UTI than circumcised boys the same age. Boys who are circumcised have had the foreskin, which is the skin that covers the tip of the penis, removed. </s></s>

<s>[INST] What are the symptoms of What I need to know about My Child's Urinary Tract Infection ? [/INST] A child with a UTI may not have any symptoms. When symptoms are present, they can range from mild to severe. UTI symptoms can include - fever - pain or burning during urination with only a few drops of urine at a time - irritability - not eating - nausea - diarrhea - vomiting - cloudy, dark, bloody, or foul-smelling urine - urinating often - pain in the back or side below the ribs - leaking urine into clothes or bedding in older children </s></s>

<s>[INST] How to diagnose What I need to know about My Child's Urinary Tract Infection ? [/INST] A UTI is diagnosed by testing a sample of your childs urine. The way the urine is collected depends on your childs age: The health care provider looks at the urine sample with a microscope to check for bacteria or pus. The sample is also sent to a lab. The lab performs a urine culture by placing the sample in a tube or dish with a substance that encourages any bacteria present to grow. The bacteria that grow can be identified and tested to see which medicines will work best to treat the infection. A urine culture usually takes 1 to 3 days to complete. </s></s>

<s>[INST] What are the treatments for What I need to know about My Child's Urinary Tract Infection ? [/INST] Bacteria-fighting medicines called antibiotics are used to treat a UTI. While the lab is doing the urine culture, the health care provider may begin treatment with an antibiotic that treats the bacteria most likely to be causing the infection. Once culture results are known, the health care provider may switch your child to a different antibiotic that targets the specific type of bacteria. Your child will need to take antibiotics for at least 3 to 5 days and maybe as long as several weeks. Be sure your child takes every pill or every dose of liquid. Your child should feel better after a couple of days, but the infection might come back if your child stops taking the antibiotic too early. You should let your child drink as much as your child wants. But dont force your child to drink large amounts of fluid. Call your childs health care provider if your child doesnt want to or isnt able to drink. Also, talk with your childs health care provider if your child needs medicine for the pain of a UTI. The health care provider can recommend an over-the-counter pain medicine. A heating pad on the back or abdomen may also help. </s></s>

<s>[INST] How to diagnose What I need to know about My Child's Urinary Tract Infection ? [/INST] Talk with your childs health care provider after your childs UTI is gone. The health care provider may want to do more tests to check for VUR or a blockage in the urinary tract. Repeated infections in an abnormal urinary tract may cause kidney damage. The kinds of tests ordered will depend on the child and the type of infection. VUR and blockages in the urinary tract often go away as a child grows. In some cases, surgery may be needed to correct any defects in the urinary tract. More information about tests for VUR or a blockage in the urinary tract is provided in the NIDDK health topic, Urinary Tract Infections in Children. </s></s>

<s>[INST] How to prevent What I need to know about My Child's Urinary Tract Infection ? [/INST] You can take the following steps to help prevent your child from getting a UTI: - Teach your child not to hold in urine and to go to the bathroom whenever your child feels the urge. - Teach your child how to properly clean himself or herself after using the bathroom to keep bacteria from entering the urinary tract. - Have your child wear loose-fitting clothes. Tight clothes can trap moisture, which allows bacteria to grow. - Buy your child cotton underwear. Cotton lets in air to dry the area. - If your child has constipation, talk with a health care provider about the best treatment options. </s></s>

<s>[INST] What to do for What I need to know about My Child's Urinary Tract Infection ? [/INST] To help prevent a UTI, make sure your child drinks enough fluids each day. Talk with your childs health care provider to find out how much fluid your child should drink. </s></s>

<s>[INST] What to do for What I need to know about My Child's Urinary Tract Infection ? [/INST] - A urinary tract infection (UTI) is an infection in the urinary tract. Infections are caused by microbesorganisms too small to be seen without a microscope. - Most UTIs are caused by bacteria that live in the bowel, the part of the digestive tract where stool is changed from liquid to solid. - Any child can get a UTI, though girls get UTIs more often than boys. - Most UTIs are not serious, but some infections can lead to serious problems. - A child with a UTI may not have any symptoms. When symptoms are present, they can range from mild to severe. - A UTI is diagnosed by testing a sample of your childs urine. - Bacteria-fighting medicines called antibiotics are used to treat a UTI. - Talk with your childs health care provider after your childs UTI is gone. The health care provider may want to do more tests to check for vesicoureteral reflux (VUR) or a blockage in the urinary tract. - You can take steps to help prevent your child from getting a UTI. </s></s>

<s>[INST] What is (are) Primary Biliary Cirrhosis ? [/INST] Primary biliary cirrhosis is a chronic, or long lasting, disease that causes the small bile ducts in the liver to become inflamed and damaged and ultimately disappear. The bile ducts carry a fluid called bile from the liver to the gallbladder, where it is stored. When food enters the stomach after a meal, the gallbladder contracts, and the bile ducts carry bile to the duodenum, the first part of the small intestine, for use in digestion. The liver makes bile, which is made up of bile acids, cholesterol, fats, and fluids. Bile helps the body absorb fats, cholesterol, and fat-soluble vitamins. Bile also carries cholesterol, toxins, and waste products to the intestines, where the body removes them. When chronic inflammation, or swelling, damages the bile ducts, bile and toxic wastes build up in the liver, damaging liver tissue. This damage to the liver tissue can lead to cirrhosis, a condition in which the liver slowly deteriorates and is unable to function normally. In cirrhosis, scar tissue replaces healthy liver tissue, partially blocking the flow of blood through the liver. The liver is the bodys largest internal organ. The liver is called the bodys metabolic factory because of the important role it plays in metabolismthe way cells change food into energy after food is digested and absorbed into the blood. The liver has many functions, including - taking up, storing, and processing nutrients from foodincluding fat, sugar, and proteinand delivering them to the rest of the body when needed - making new proteins, such as clotting factors and immune factors - producing bile - removing waste products the kidneys cannot remove, such as fats, cholesterol, toxins, and medications A healthy liver is necessary for survival. The liver can regenerate most of its own cells when they become damaged. However, if injury to the liver is too severe or long lasting, regeneration is incomplete, and the liver creates scar tissue. Scarring of the liver may lead to cirrhosis. The buildup of scar tissue that causes cirrhosis is usually a slow and gradual process. In the early stages of cirrhosis, the liver continues to function. However, as cirrhosis gets worse and scar tissue replaces more healthy tissue, the liver will begin to fail. Chronic liver failure, which is also called end-stage liver disease, progresses over months, years, or even decades. With end-stage liver disease, the liver can no longer perform important functions or effectively replace damaged cells. Primary biliary cirrhosis usually occurs between the ages of 30 and 65 and affects women more often than men.1 </s></s>

<s>[INST] What causes Primary Biliary Cirrhosis ? [/INST] The causes of primary biliary cirrhosis are unknown. Most research suggests it is an autoimmune disease. The immune system protects people from infection by identifying and destroying bacteria, viruses, and other potentially harmful foreign substances. An autoimmune disease is a disorder in which the bodys immune system attacks the bodys own cells and organs. In primary biliary cirrhosis, the immune system attacks the small bile ducts in the liver. Genetics, or inherited genes, can make a person more likely to develop primary biliary cirrhosis. Primary biliary cirrhosis is more common in people who have a parent or siblingparticularly an identical twinwith the disease. In people who are genetically more likely to develop primary biliary cirrhosis, environmental factors may trigger or worsen the disease, including - exposure to toxic chemicals - smoking - infections Genetics can also make some people more likely to develop other autoimmune diseases, such as - autoimmune hepatitis, a disease in which the bodys immune system attacks liver cells - Sjgrens syndrome, a condition in which the immune system attacks the glands that produce tears and saliva - autoimmune thyroid dysfunctions, conditions in which the immune system attacks the thyroid gland </s></s>

<s>[INST] What are the symptoms of Primary Biliary Cirrhosis ? [/INST] The first and most common symptoms of primary biliary cirrhosis are - fatigue, or feeling tired - itching skin, and darkened skin in itching areas due to scratching - dry eyes and mouth Some people may have jaundice, a condition that causes the skin and whites of the eyes to turn yellow. Health care providers diagnose up to 60 percent of people with primary biliary cirrhosis before symptoms begin.2 Routine blood tests showing abnormal liver enzyme levels may lead a health care provider to suspect that a person without symptoms has primary biliary cirrhosis. </s></s>

<s>[INST] What are the complications of Primary Biliary Cirrhosis ? [/INST] Most complications of primary biliary cirrhosis are related to cirrhosis and start after primary biliary cirrhosis progresses to cirrhosis. In some cases, portal hypertension and esophageal varices may develop before cirrhosis. Portal hypertension. The portal vein carries blood from the stomach, intestines, spleen, gallbladder, and pancreas to the liver. In cirrhosis, scar tissue partially blocks the normal flow of blood, which increases the pressure in the portal vein. This condition is called portal hypertension. Portal hypertension is a common complication of cirrhosis. This condition may lead to other complications, such as - edemaswelling due to a buildup of fluidin the feet, ankles, or legs, and ascitesa buildup of fluid in the abdomen - enlarged blood vessels, called varices, in the esophagus, stomach, or both - an enlarged spleen, called splenomegaly - mental confusion due to a buildup of toxins that are ordinarily removed by the liver, a condition called hepatic encephalopathy Edema and ascites. Liver failure causes fluid buildup that results in edema and ascites. Ascites can lead to spontaneous bacterial peritonitis, a serious infection that requires immediate medical attention. Varices. Portal hypertension may cause enlarged blood vessels in the esophagus, stomach, or both. These enlarged blood vessels, called esophageal or gastric varices, cause the vessel walls to become thin and blood pressure to increase, making the blood vessels more likely to burst. If they burst, serious bleeding can occur in the esophagus or upper stomach, requiring immediate medical attention. Splenomegaly. Portal hypertension may cause the spleen to enlarge and retain white blood cells and platelets, reducing the numbers of these cells and platelets in the blood. A low platelet count may be the first evidence that a person has developed cirrhosis. Hepatic encephalopathy. A failing liver cannot remove toxins from the blood, so they eventually accumulate in the brain. The buildup of toxins in the brain is called hepatic encephalopathy. This condition can decrease mental function and cause stupor and even coma. Stupor is an unconscious, sleeplike state from which a person can only be aroused briefly by a strong stimulus, such as a sharp pain. Coma is an unconscious, sleeplike state from which a person cannot be aroused. Signs of decreased mental function include - confusion - personality changes - memory loss - trouble concentrating - a change in sleep habits Metabolic bone diseases. Some people with cirrhosis develop a metabolic bone disease, which is a disorder of bone strength usually caused by abnormalities of vitamin D, bone mass, bone structure, or minerals, such as calcium and phosphorous. Osteopenia is a condition in which the bones become less dense, making them weaker. When bone loss becomes more severe, the condition is referred to as osteoporosis. People with these conditions are more likely to develop bone fractures. Gallstones and bile duct stones. If cirrhosis prevents bile from flowing freely to and from the gallbladder, the bile hardens into gallstones. Symptoms of gallstones include abdominal pain and recurrent bacterial cholangitisirritated or infected bile ducts. Stones may also form in and block the bile ducts, causing pain, jaundice, and bacterial cholangitis. Steatorrhea. Steatorrhea is a condition in which the body cannot absorb fat, causing a buildup of fat in the stool and loose, greasy, and foul-smelling bowel movements. Steatorrhea may be caused by impairment of bile delivery to the small intestine or by the pancreas not producing enough digestive enzymes. Liver cancer. Liver cancer is common in people with cirrhosis. Liver cancer has a high mortality rate. Current treatments are limited and only fully successful if a health care provider detects the cancer early, before the tumor is too large. For this reason, health care providers should check people with cirrhosis for signs of liver cancer every 6 to 12 months. Health care providers use blood tests, ultrasound, or both to check for signs of liver cancer. </s></s>

<s>[INST] How to diagnose Primary Biliary Cirrhosis ? [/INST] A health care provider may use the following tests to diagnose primary biliary cirrhosis: - a medical and family history - a physical exam - blood tests - imaging tests - a liver biopsy A health care provider usually bases a diagnosis of primary biliary cirrhosis on two out of three of the following criteria: - a blood test showing elevated liver enzymes - a blood test showing the presence of anti-mitochondrial antibodies (AMA) - a liver biopsy showing signs of the disease Health care providers may order additional tests to rule out other causes of symptoms. Health care providers diagnose the majority of people with primary biliary cirrhosis early in the course of the disease. Medical and family history. Taking a medical and family history is one of the first things a health care provider may do to help diagnose primary biliary cirrhosis. He or she will ask a patient to provide a medical and family history. Physical exam. A physical exam may help diagnose primary biliary cirrhosis. During a physical exam, a health care provider usually - examines a patients body - uses a stethoscope to listen to sounds in the abdomen - taps on specific areas of the patients body The health care provider will perform a physical exam to look for signs of the disease. For example, the liver may feel hard or ascites may cause the abdomen to enlarge. Blood test. A blood test involves drawing blood at a health care providers office or a commercial facility and sending the sample to a lab for analysis. The blood test can show elevated levels of liver enzymes, such as alkaline phosphatase. A routine blood test may show high levels of the liver enzyme alkaline phosphatase in people who have primary biliary cirrhosis and are not yet showing symptoms. The health care provider will perform an AMA blood test to help confirm the diagnosis. A blood test will detect the presence of AMA in 90 to 95 percent of people with primary biliary cirrhosis.3 Imaging tests. A health care provider may use the following imaging tests to examine the bile ducts. These tests can distinguish between primary biliary cirrhosis and other conditions that affect the bile ducts. - Ultrasound uses a device, called a transducer, that bounces safe, painless sound waves off organs to create an image of their structure. A specially trained technician performs the procedure in a health care providers office, an outpatient center, or a hospital, and a radiologista doctor who specializes in medical imaging interprets the images. A patient does not need anesthesia. In addition to showing problems with the bile ducts, the images can show signs of advanced cirrhosis or complications. - Magnetic resonance cholangiopancreatography uses magnetic resonance imaging (MRI) to examine the bile ducts. MRI machines use radio waves and magnets to produce detailed pictures of the bodys internal organs and soft tissues without using x rays. A specially trained technician performs magnetic resonance cholangiopancreatography in an outpatient center or a hospital, and a radiologist interprets the images. A patient does not need anesthesia, though a health care provider may use light sedation for patients with a fear of confined spaces. With most MRI machines, the patient lies on a table that slides into a tunnel-shaped device that may be open ended or closed at one end; some machines allow the patient to lie in a more open space. - Endoscopic retrograde cholangiopancreatography uses an x ray to look at the bile ducts. A gastroenterologista doctor who specializes in digestive diseasesperforms the test at a hospital or an outpatient center. After lightly sedating the patient, the gastroenterologist inserts an endoscopea small, flexible tube with a light and a camera on the endthrough the mouth into the duodenum and bile ducts. The endoscope is connected to a computer and video monitor. The gastroenterologist injects a special dye, called contrast medium, through the tube into the bile ducts, which makes the ducts show up on the monitor. This test is more invasive than other imaging tests, and health care providers do not routinely need the test to make the diagnosis of primary biliary cirrhosis. A health care provider uses the test selectively when he or she is concerned that the blockage of the bile ducts has another cause, such as a gallstone or a narrowing of the large bile ducts due to inflammation or cancer. Patients may have pain, nausea, or vomiting after the test or may develop bacterial cholangitis or pancreatitisinflammation of the pancreas. Liver biopsy. A liver biopsy is a procedure that involves taking a piece of liver tissue for examination with a microscope for signs of damage or disease. The health care provider may ask the patient to stop taking certain medications temporarily before the liver biopsy. The health care provider may ask the patient to fast for 8 hours before the procedure. During the procedure, the patient lies on a table, right hand resting above the head. The health care provider applies a local anesthetic to the area where he or she will insert the biopsy needle. If needed, a health care provider will also give sedatives and pain medication. The health care provider uses a needle to take a small piece of liver tissue. He or she may use ultrasound, computerized tomography scans, or other imaging techniques to guide the needle. After the biopsy, the patient must lie on the right side for up to 2 hours and is monitored an additional 2 to 4 hours before being sent home. A health care provider performs a liver biopsy at a hospital or an outpatient center. The health care provider sends the liver sample to a pathology lab, where the pathologista doctor who specializes in diagnosing diseaseslooks at the tissue with a microscope and sends a report to the patients health care provider. A liver biopsy can confirm the diagnosis of primary biliary cirrhosis; however, a person does not always need this test. A health care provider will perform a biopsy if the AMA blood test is negative and the person shows other signs of primary biliary cirrhosis. Sometimes a health care provider finds a cause of liver damage other than primary biliary cirrhosis during biopsy. </s></s>

<s>[INST] What are the treatments for Primary Biliary Cirrhosis ? [/INST] Treatment for primary biliary cirrhosis depends on how early a health care provider diagnoses the disease and whether complications are present. In the early stages of primary biliary cirrhosis, treatment can slow the progression of liver damage to cirrhosis. In the early stages of cirrhosis, the goals of treatment are to slow the progression of tissue scarring in the liver and prevent complications. As cirrhosis progresses, a person may need additional treatments and hospitalization to manage complications. Medications Health care providers prescribe ursodiol (Actigall, Urso) to treat primary biliary cirrhosis. Ursodiol is a nontoxic bile acid that people can take orally. Ursodiol replaces the bile acids that are normally produced by the liver, which are more toxic and can harm the liver. Treatment with ursodiol can reduce levels of bilirubin and liver enzymes in the blood. Early treatment with this medication reduces the likelihood of needing a liver transplant and improves survival.3 Early treatment provides the most benefit; however, ursodiol treatment late in the course of the disease can still slow the progression of liver damage. While ursodiol treatment improves the outcome of primary biliary cirrhosis, it does not cure the disease. Researchers are studying the effects of several other medications on the progression of primary biliary cirrhosis. To date, none has shown the positive effects of ursodiol. Avoiding Alcohol and Other Substances People with cirrhosis should not drink any alcohol or take any illegal substances, as both will cause more liver damage. People with cirrhosis should avoid complementary and alternative medications, such as herbs. People with cirrhosis should be careful about starting new medications and should consult a health care provider before taking prescription medications, over-the-counter medications, or vitamins. Many vitamins and prescription and over-the-counter medications can affect liver function. Treatment of Symptoms and Complications Health care providers treat symptoms and complications as follows: Itching. Antihistamines may help with mild itching. However, antihistamines often cause drowsiness, and a person should take antihistamines just before bedtime to help with nighttime itching. A health care provider will treat more problematic itching with cholestyramine (Locholest, Questran), which reduces cholesterol in the blood. Experts believe high levels of cholesterol let substances that cause itching build up in tissues. Dry eyes and mouth. Health care providers usually treat dry eyes and mouth with artificial tears and saliva substitutes, respectively. These products are available without a prescription. A health care provider may treat people whose symptoms do not improve with pilocarpine (Salagen) or cevimeline (Evoxac). People who have difficulty with dry eyes should see an ophthalmologista doctor who diagnoses and treats all eye diseases and eye disordersregularly. People with dry mouth should have regular dental exams. Portal hypertension. A health care provider may prescribe a beta-blocker or nitrate to treat portal hypertension. Beta-blockers lower blood pressure by helping the heart beat slower and with less force, and nitrates relax and widen blood vessels to let more blood flow to the heart and reduce the hearts workload. Varices. Beta-blockers can lower the pressure in varices and reduce the likelihood of bleeding. Bleeding in the stomach or esophagus requires an immediate upper endoscopy. This procedure involves using an endoscope to look for varices. The health care provider may use the endoscope to perform a band ligation, a procedure that involves placing a special rubber band around the varices that causes the tissue to die and fall off. A gastroenterologist performs the procedure at a hospital or an outpatient center. People who have had varices in the past may need to take medication to prevent future episodes. Edema and ascites. Health care providers prescribe diureticsmedications that remove fluid from the bodyto treat edema and ascites. A health care provider may remove large amounts of ascitic fluid from the abdomen and check for spontaneous bacterial peritonitis. A health care provider may prescribe bacteria-fighting medications called antibiotics to prevent infection. He or she may prescribe oral antibiotics; however, severe infection with ascites requires intravenous (IV) antibiotics. Hepatic encephalopathy. A health care provider will treat hepatic encephalopathy by cleansing the bowel with lactulose, a laxative given orally or as an enemaa liquid put into the rectum. A health care provider may also add antibiotics to the treatment. Hepatic encephalopathy may improve as other complications of cirrhosis are controlled. Osteoporosis. A health care provider may prescribe bisphosphonate medications to improve bone density. Gallstones and bile duct stones. A health care provider may use surgery to remove gallstones. He or she may use endoscopic retrograde cholangiopancreatography, which uses balloons and basketlike devices, to retrieve the bile duct stones. Liver cancer. A health care provider may recommend screening tests every 6 to 12 months to check for signs of liver cancer. Screening tests can find cancer before the person has symptoms of the disease. Cancer treatment is usually more effective when the health care provider finds the disease early. Health care providers use blood tests, ultrasound, or both to screen for liver cancer in people with cirrhosis. He or she may treat cancer with a combination of surgery, radiation, and chemotherapy. </s></s>

<s>[INST] What to do for Primary Biliary Cirrhosis ? [/INST] A healthy diet is important in all stages of cirrhosis because malnutrition is common in people with this disease. Malnutrition is a condition that occurs when the body does not get enough nutrients. Cirrhosis may lead to malnutrition because it can cause - people to eat less because of symptoms such as loss of appetite - changes in metabolism - reduced absorption of vitamins and minerals Health care providers can recommend a meal plan that is well balanced and provides enough calories and protein. If ascites develops, a health care provider or dietitian may recommend a sodium-restricted diet. To improve nutrition, the health care provider may prescribe a liquid supplement. A person may take the liquid by mouth or through a nasogastric tubea tiny tube inserted through the nose and throat that reaches into the stomach. A person with cirrhosis should not eat raw shellfish, which can contain a bacterium that causes serious infection. Cirrhosis affects the immune system, making people with cirrhosis more likely than healthy people to develop an infection after eating shellfish that contain this bacterium. A health care provider may recommend calcium and vitamin D supplements to help prevent osteoporosis. </s></s>

<s>[INST] What to do for Primary Biliary Cirrhosis ? [/INST] - Primary biliary cirrhosis is a chronic disease that causes the small bile ducts in the liver to become inflamed and damaged and ultimately disappear. - When chronic inflammation damages the bile ducts, bile and toxic wastes build up in the liver, damaging liver tissue. This damage to the liver tissue can lead to cirrhosis. - The causes of primary biliary cirrhosis are unknown. Most research suggests it is an autoimmune disease. - Primary biliary cirrhosis is more common in people who have a parent or siblingparticularly an identical twinwith the disease. - The first and most common symptoms of primary biliary cirrhosis are fatigue, itching, and dry eyes and mouth. Some people may have jaundice, a condition that causes the skin and whites of the eyes to turn yellow. Health care providers diagnose up to 60 percent of people with primary biliary cirrhosis before symptoms begin. - Most complications of primary biliary cirrhosis are related to cirrhosis and start after primary biliary cirrhosis progresses to cirrhosis. - A health care provider may use the following tests to diagnose primary biliary cirrhosis: - a medical and family history - a physical exam - blood tests - imaging tests - a liver biopsy - Health care providers prescribe ursodiol (Actigall, Urso) to treat primary biliary cirrhosis. Early treatment with this medication reduces the likelihood of needing a liver transplant and improves survival. - A health care provider may consider a liver transplant when cirrhosis leads to liver failure or treatment for complications is ineffective. </s></s>

<s>[INST] How to diagnose Kidney Disease of Diabetes ? [/INST] People with diabetes should be screened regularly for kidney disease. The two key markers for kidney disease are eGFR and urine albumin. - eGFR. eGFR stands for estimated glomerular filtration rate. Each kidney contains about 1 million tiny filters made up of blood vessels. These filters are called glomeruli. Kidney function can be checked by estimating how much blood the glomeruli filter in a minute. The calculation of eGFR is based on the amount of creatinine, a waste product, found in a blood sample. As the level of creatinine goes up, the eGFR goes down. Kidney disease is present when eGFR is less than 60 milliliters per minute. The American Diabetes Association (ADA) and the National Institutes of Health (NIH) recommend that eGFR be calculated from serum creatinine at least once a year in all people with diabetes. - Urine albumin. Urine albumin is measured by comparing the amount of albumin to the amount of creatinine in a single urine sample. When the kidneys are healthy, the urine will contain large amounts of creatinine but almost no albumin. Even a small increase in the ratio of albumin to creatinine is a sign of kidney damage. Kidney disease is present when urine contains more than 30 milligrams of albumin per gram of creatinine, with or without decreased eGFR. The ADA and the NIH recommend annual assessment of urine albumin excretion to assess kidney damage in all people with type 2 diabetes and people who have had type 1 diabetes for 5 years or more. If kidney disease is detected, it should be addressed as part of a comprehensive approach to the treatment of diabetes. </s></s>

<s>[INST] How to diagnose Kidney Disease of Diabetes ? [/INST] People with diabetes should be screened regularly for kidney disease. The two key markers for kidney disease are eGFR and urine albumin. - eGFR. eGFR stands for estimated glomerular filtration rate. Each kidney contains about 1 million tiny filters made up of blood vessels. These filters are called glomeruli. Kidney function can be checked by estimating how much blood the glomeruli filter in a minute. The calculation of eGFR is based on the amount of creatinine, a waste product, found in a blood sample. As the level of creatinine goes up, the eGFR goes down. Kidney disease is present when eGFR is less than 60 milliliters per minute. The American Diabetes Association (ADA) and the National Institutes of Health (NIH) recommend that eGFR be calculated from serum creatinine at least once a year in all people with diabetes. - Urine albumin. Urine albumin is measured by comparing the amount of albumin to the amount of creatinine in a single urine sample. When the kidneys are healthy, the urine will contain large amounts of creatinine but almost no albumin. Even a small increase in the ratio of albumin to creatinine is a sign of kidney damage. Kidney disease is present when urine contains more than 30 milligrams of albumin per gram of creatinine, with or without decreased eGFR. The ADA and the NIH recommend annual assessment of urine albumin excretion to assess kidney damage in all people with type 2 diabetes and people who have had type 1 diabetes for 5 years or more. If kidney disease is detected, it should be addressed as part of a comprehensive approach to the treatment of diabetes. </s></s>

<s>[INST] How to prevent Kidney Disease of Diabetes ? [/INST] Blood Pressure Medicines Scientists have made great progress in developing methods that slow the onset and progression of kidney disease in people with diabetes. Drugs used to lower blood pressure can slow the progression of kidney disease significantly. Two types of drugs, angiotensin-converting enzyme (ACE) inhibitors and angiotensin receptor blockers (ARBs), have proven effective in slowing the progression of kidney disease. Many people require two or more drugs to control their blood pressure. In addition to an ACE inhibitor or an ARB, a diuretic can also be useful. Beta blockers, calcium channel blockers, and other blood pressure drugs may also be needed. An example of an effective ACE inhibitor is lisinopril (Prinivil, Zestril), which doctors commonly prescribe for treating kidney disease of diabetes. The benefits of lisinopril extend beyond its ability to lower blood pressure: it may directly protect the kidneys' glomeruli. ACE inhibitors have lowered proteinuria and slowed deterioration even in people with diabetes who did not have high blood pressure. An example of an effective ARB is losartan (Cozaar), which has also been shown to protect kidney function and lower the risk of cardiovascular events. Patients with even mild hypertension or persistent microalbuminuria should consult a health care provider about the use of antihypertensive medicines. Moderate-protein Diets In people with diabetes, excessive consumption of protein may be harmful. Experts recommend that people with kidney disease of diabetes consume the recommended dietary allowance for protein, but avoid high-protein diets. For people with greatly reduced kidney function, a diet containing reduced amounts of protein may help delay the onset of kidney failure. Anyone following a reduced-protein diet should work with a dietitian to ensure adequate nutrition. Intensive Management of Blood Glucose Antihypertensive drugs and low-protein diets can slow CKD. A third treatment, known as intensive management of blood glucose or glycemic control, has shown great promise for people with diabetes, especially for those in the early stages of CKD. The human body normally converts food to glucose, the simple sugar that is the main source of energy for the body's cells. To enter cells, glucose needs the help of insulin, a hormone produced by the pancreas. When a person does not make enough insulin, or the body does not respond to the insulin that is present, the body cannot process glucose, and it builds up in the bloodstream. High levels of glucose in the blood lead to a diagnosis of diabetes. Intensive management of blood glucose is a treatment regimen that aims to keep blood glucose levels close to normal. The regimen includes testing blood glucose frequently, administering insulin throughout the day on the basis of food intake and physical activity, following a diet and activity plan, and consulting a health care team regularly. Some people use an insulin pump to supply insulin throughout the day. A number of studies have pointed to the beneficial effects of intensive management of blood glucose. In the Diabetes Control and Complications Trial supported by the National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK), researchers found a 50 percent decrease in both development and progression of early diabetic kidney disease in participants who followed an intensive regimen for controlling blood glucose levels. The intensively managed patients had average blood glucose levels of 150 milligrams per deciliterabout 80 milligrams per deciliter lower than the levels observed in the conventionally managed patients. The United Kingdom Prospective Diabetes Study, conducted from 1976 to 1997, showed conclusively that, in people with improved blood glucose control, the risk of early kidney disease was reduced by a third. Additional studies conducted over the past decades have clearly established that any program resulting in sustained lowering of blood glucose levels will be beneficial to patients in the early stages of CKD. </s></s>

<s>[INST] How to prevent Kidney Disease of Diabetes ? [/INST] Blood Pressure Medicines Scientists have made great progress in developing methods that slow the onset and progression of kidney disease in people with diabetes. Drugs used to lower blood pressure can slow the progression of kidney disease significantly. Two types of drugs, angiotensin-converting enzyme (ACE) inhibitors and angiotensin receptor blockers (ARBs), have proven effective in slowing the progression of kidney disease. Many people require two or more drugs to control their blood pressure. In addition to an ACE inhibitor or an ARB, a diuretic can also be useful. Beta blockers, calcium channel blockers, and other blood pressure drugs may also be needed. An example of an effective ACE inhibitor is lisinopril (Prinivil, Zestril), which doctors commonly prescribe for treating kidney disease of diabetes. The benefits of lisinopril extend beyond its ability to lower blood pressure: it may directly protect the kidneys' glomeruli. ACE inhibitors have lowered proteinuria and slowed deterioration even in people with diabetes who did not have high blood pressure. An example of an effective ARB is losartan (Cozaar), which has also been shown to protect kidney function and lower the risk of cardiovascular events. Patients with even mild hypertension or persistent microalbuminuria should consult a health care provider about the use of antihypertensive medicines. Moderate-protein Diets In people with diabetes, excessive consumption of protein may be harmful. Experts recommend that people with kidney disease of diabetes consume the recommended dietary allowance for protein, but avoid high-protein diets. For people with greatly reduced kidney function, a diet containing reduced amounts of protein may help delay the onset of kidney failure. Anyone following a reduced-protein diet should work with a dietitian to ensure adequate nutrition. Intensive Management of Blood Glucose Antihypertensive drugs and low-protein diets can slow CKD. A third treatment, known as intensive management of blood glucose or glycemic control, has shown great promise for people with diabetes, especially for those in the early stages of CKD. The human body normally converts food to glucose, the simple sugar that is the main source of energy for the body's cells. To enter cells, glucose needs the help of insulin, a hormone produced by the pancreas. When a person does not make enough insulin, or the body does not respond to the insulin that is present, the body cannot process glucose, and it builds up in the bloodstream. High levels of glucose in the blood lead to a diagnosis of diabetes. Intensive management of blood glucose is a treatment regimen that aims to keep blood glucose levels close to normal. The regimen includes testing blood glucose frequently, administering insulin throughout the day on the basis of food intake and physical activity, following a diet and activity plan, and consulting a health care team regularly. Some people use an insulin pump to supply insulin throughout the day. A number of studies have pointed to the beneficial effects of intensive management of blood glucose. In the Diabetes Control and Complications Trial supported by the National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK), researchers found a 50 percent decrease in both development and progression of early diabetic kidney disease in participants who followed an intensive regimen for controlling blood glucose levels. The intensively managed patients had average blood glucose levels of 150 milligrams per deciliterabout 80 milligrams per deciliter lower than the levels observed in the conventionally managed patients. The United Kingdom Prospective Diabetes Study, conducted from 1976 to 1997, showed conclusively that, in people with improved blood glucose control, the risk of early kidney disease was reduced by a third. Additional studies conducted over the past decades have clearly established that any program resulting in sustained lowering of blood glucose levels will be beneficial to patients in the early stages of CKD. </s></s>

<s>[INST] What to do for Kidney Disease of Diabetes ? [/INST] - Diabetes is the leading cause of chronic kidney disease (CKD) and kidney failure in the United States. - People with diabetes should be screened regularly for kidney disease. The two key markers for kidney disease are estimated glomerular filtration rate (eGFR) and urine albumin. - Drugs used to lower blood pressure can slow the progression of kidney disease significantly. Two types of drugs, angiotensin-converting enzyme (ACE) inhibitors and angiotensin receptor blockers (ARBs), have proven effective in slowing the progression of kidney disease. - In people with diabetes, excessive consumption of protein may be harmful. - Intensive management of blood glucose has shown great promise for people with diabetes, especially for those in the early stages of CKD. </s></s>

<s>[INST] What to do for Kidney Disease of Diabetes ? [/INST] - Diabetes is the leading cause of chronic kidney disease (CKD) and kidney failure in the United States. - People with diabetes should be screened regularly for kidney disease. The two key markers for kidney disease are estimated glomerular filtration rate (eGFR) and urine albumin. - Drugs used to lower blood pressure can slow the progression of kidney disease significantly. Two types of drugs, angiotensin-converting enzyme (ACE) inhibitors and angiotensin receptor blockers (ARBs), have proven effective in slowing the progression of kidney disease. - In people with diabetes, excessive consumption of protein may be harmful. - Intensive management of blood glucose has shown great promise for people with diabetes, especially for those in the early stages of CKD. </s></s>

<s>[INST] What is (are) What I need to know about Lactose Intolerance ? [/INST] Lactose * intestine lactase , enzyme *See the Pronunciation Guide for tips on how to say the words in bold type. </s></s>

<s>[INST] What is (are) What I need to know about Lactose Intolerance ? [/INST] Lactose intolerance means you have symptoms such as bloating, diarrhea, and gas after you have milk or milk products. If your small intestine does not produce much lactase, you cannot break down much lactose. Lactose that does not break down goes to your colon. The colon is an organ that absorbs water from stool and changes it from a liquid to a solid form. In your colon, bacteria that normally live in the colon break down the lactose and create fluid and gas, causing you to have symptoms. The causes of low lactase in your small intestine can include the following: - In some people, the small intestine makes less lactase starting at about age 2, which may lead to symptoms of lactose intolerance. Other people start to have symptoms later, when they are teenagers or adults. - Infection, disease, or other problems that harm the small intestine can cause low lactase levels. Low lactase levels can cause you to become lactose intolerant until your small intestine heals. - Being born early may cause babies to be lactose intolerant for a short time after they are born. - In a rare form of lactose intolerance, the small intestine produces little or no lactase enzyme from birth. Not all people with low lactase levels have symptoms. If you have symptoms, you are lactose intolerant. Most people who are lactose intolerant can have some milk or milk products and not have symptoms. The amount of lactose that causes symptoms is different from person to person. People sometimes confuse lactose intolerance with a milk allergy. While lactose intolerance is a digestive problem, a milk allergy is a reaction by the bodys immune system to one or more milk proteins. If you have a milk allergy, having even a small amount of milk or milk product can be life threatening. A milk allergy most commonly occurs in the first year of life. Lactose intolerance occurs more often during the teen years or adulthood. </s></s>

<s>[INST] What are the symptoms of What I need to know about Lactose Intolerance ? [/INST] Common symptoms of lactose intolerance include - bloating, a feeling of fullness or swelling, in your belly - pain in your belly - diarrhea - gas - nausea You may feel symptoms 30 minutes to 2 hours after you have milk or milk products. You may have mild or severe symptoms. </s></s>

<s>[INST] What to do for What I need to know about Lactose Intolerance ? [/INST] Talk with your doctor about your dietary plan. A dietary plan can help you manage the symptoms of lactose intolerance and get enough nutrients. If you have a child with lactose intolerance, follow the diet plan that your childs doctor recommends. Milk and milk products. You may be able to have milk and milk products without symptoms if you - drink small amounts of milkhalf a cup or lessat a time - drink small amounts of milk with meals, such as having milk with cereal or having cheese with crackers - add small amounts of milk and milk products to your diet a little at a time and see how you feel - eat milk products that are easier for people with lactose intolerance to break down: - yogurt - hard cheeses such as cheddar and Swiss Lactose-free and lactose-reduced milk and milk products. You can find lactose-free and lactose-reduced milk and milk products at the grocery store. These products are just as healthy for you as regular milk and milk products. Lactase products. You can use lactase tablets and drops when you have milk and milk products. The lactase enzyme breaks down the lactose in food. Using lactase tablets or drops can help you prevent symptoms of lactose intolerance. Check with your doctor before using these products. Some people, such as young children and pregnant and breastfeeding women, may not be able to use these products. Calcium and Vitamin D If you are lactose intolerant, make sure you get enough calcium each day. Milk and milk products are the most common sources of calcium. Other foods that contain calcium include - fish with soft bones, such as canned salmon or sardines - broccoli and other leafy green vegetables - oranges - almonds, Brazil nuts, and dried beans - tofu - products with the label showing added calcium, such as cereals, fruit juices, and soy milk Vitamin D helps the body absorb and use calcium. Be sure to eat foods that contain vitamin D, such as eggs, liver, and certain kinds of fish, such as salmon. Also, being outside in the sunlight helps your body make vitamin D. Some companies add vitamin D to milk and milk products. If you are able to drink small amounts of milk or eat yogurt, choose those that have vitamin D added. Talk with your doctor about how to get enough nutrientsincluding calcium and vitamin Din your diet or your childs diet. Ask if you should also take a supplement to get enough calcium and vitamin D. For safety reasons, talk with your doctor before using dietary supplements or any other nonmainstream medicine together with or in place of the treatment your doctor prescribes. Read more at www.ods.od.nih.gov and www.nccam.nih.gov. </s></s>

<s>[INST] What to do for What I need to know about Lactose Intolerance ? [/INST] - Lactose is a sugar found in milk and milk products. - Lactose intolerance means you have symptoms such as bloating, diarrhea, and gas after you have milk or milk products. - Your doctor will try to find out if you have lactose intolerance with a medical, family, and diet history; a physical exam; and medical tests. - Most people with lactose intolerance can eat or drink some lactose without symptoms. - If you have lactose intolerance, you can make changes to what you eat and drink. Some people may only need to have less lactose. Others may need to avoid lactose altogether. - Talk with your doctor about how to get enough nutrientsincluding calcium and vitamin Din your diet or your childs diet. Ask if you should also take a supplement to get enough calcium and vitamin D. For safety reasons, talk with your doctor before using dietary supplements or any other nonmainstream medicine together with or in place of the treatment your doctor prescribes. - Lactose is in many food products and in some medicines. </s></s>

<s>[INST] What is (are) Cystocele ? [/INST] A cystocele, also called a prolapsed or dropped bladder, is the bulging or dropping of the bladder into the vagina. The bladder, located in the pelvis between the pelvic bones, is a hollow, muscular, balloon-shaped organ that expands as it fills with urine. During urination, also called voiding, the bladder empties through the urethra, located at the bottom of the bladder. The urethra is the tube that carries urine outside of the body. The vagina is the tube in a womans body that runs beside the urethra and connects the womb, or uterus, to the outside of the body. </s></s>

<s>[INST] What causes Cystocele ? [/INST] A cystocele occurs when the muscles and supportive tissues between a womans bladder and vagina weaken and stretch, letting the bladder sag from its normal position and bulge into the vagina or through the vaginal opening. In a cystocele, the bladder tissue remains covered by the vaginal skin. A cystocele may result from damage to the muscles and tissues that hold the pelvic organs up inside the pelvis. A womans pelvic organs include the vagina, cervix, uterus, bladder, urethra, and small intestine. Damage to or weakening of the pelvic muscles and supportive tissues may occur after vaginal childbirth and with conditions that repeatedly strain or increase pressure in the pelvic area, such as - repetitive straining for bowel movements - constipation - chronic or violent coughing - heavy lifting - being overweight or obese A womans chances of developing a cystocele increase with age, possibly because of weakening muscles and supportive tissues from aging. Whether menopause increases a womans chances of developing a cystocele is unclear. </s></s>

<s>[INST] What are the symptoms of Cystocele ? [/INST] The symptoms of a cystocele may include - a vaginal bulge - the feeling that something is falling out of the vagina - the sensation of pelvic heaviness or fullness - difficulty starting a urine stream - a feeling of incomplete urination - frequent or urgent urination Women who have a cystocele may also leak some urine as a result of movements that put pressure on the bladder, called stress urinary incontinence. These movements can include coughing, sneezing, laughing, or physical activity, such as walking. Urinary retentionthe inability to empty the bladder completelymay occur with more severe cystoceles if the cystocele creates a kink in the womans urethra and blocks urine flow. Women with mild cystoceles often do not have any symptoms. </s></s>

<s>[INST] How to diagnose Cystocele ? [/INST] Diagnosing a cystocele requires medical tests and a physical exam of the vagina. Medical tests take place in a health care providers office, an outpatient center, or a hospital. The health care provider will ask about symptoms and medical history. A health care provider uses a grading system to determine the severity of a womans cystocele. A cystocele receives one of three grades depending on how far a womans bladder has dropped into her vagina: - grade 1mild, when the bladder drops only a short way into the vagina - grade 2moderate, when the bladder drops far enough to reach the opening of the vagina - grade 3most advanced, when the bladder bulges out through the opening of the vagina If a woman has difficulty emptying her bladder, a health care provider may measure the amount of urine left in the womans bladder after she urinates. The remaining urine is called the postvoid residual. A health care provider can measure postvoid residual with a bladder ultrasound. A bladder ultrasound uses a device, called a transducer, that bounces safe, painless sound waves off the bladder to create an image and show the amount of remaining urine. A specially trained technician performs the procedure, and a radiologista doctor who specializes in medical imaginginterprets the images. A woman does not need anesthesia. A health care provider can also use a cathetera thin, flexible tubeto measure a womans postvoid residual. The health care provider inserts the catheter through the womans urethra into her bladder to remove and measure the amount of remaining urine after the woman has urinated. A postvoid residual of 100 mL or more is a sign that the woman is not completely emptying her bladder. A woman receives local anesthesia. A health care provider may use a voiding cystourethrograman x-ray exam of the bladderto diagnose a cystocele as well. A woman gets a voiding cystourethrogram while urinating. The x-ray images show the shape of the womans bladder and let the health care provider see any problems that might block normal urine flow. An x-ray technician performs a voiding cystourethrogram, and a radiologist interprets the images. A woman does not need anesthesia; however, some women may receive sedation. A health care provider may order additional tests to rule out problems in other parts of a womans urinary tract. </s></s>

<s>[INST] What are the treatments for Cystocele ? [/INST] Cystocele treatment depends on the severity of the cystocele and whether a woman has symptoms. If a womans cystocele does not bother her, a health care provider may recommend only that she avoid heavy lifting or straining, which could worsen her cystocele. If a woman has symptoms that bother her and wants treatment, the health care provider may recommend pelvic muscle exercises, a vaginal pessary, or surgery. Pelvic floor, or Kegel, exercises involve strengthening pelvic floor muscles. Strong pelvic floor muscles more effectively hold pelvic organs in place. A woman does not need special equipment for Kegel exercises. The exercises involve tightening and relaxing the muscles that support pelvic organs. A health care provider can help a woman learn proper technique. More information about pelvic muscle exercises is provided in the NIDDK health topic, Kegel Exercise Tips. A vaginal pessary is a small, silicone medical device placed in the vagina that supports the vaginal wall and holds the bladder in place. Pessaries come in a number of shapes and sizes. A health care provider has many options to choose from to find the most comfortable pessary for a woman. A heath care provider may recommend surgery to repair the vaginal wall support and reposition the womans bladder to its normal position. The most common cystocele repair is an anterior vaginal repairor anterior colporrhaphy. The surgeon makes an incision in the wall of the womans vagina and repairs the defect by folding over and sewing together extra supportive tissue between the vagina and bladder. The repair tightens the layers of tissue that separate the organs, creating more support for the bladder. A surgeon who specializes in the urinary tract or female reproductive system performs an anterior vaginal repair in a hospital. The woman receives either regional or general anesthesia. The woman may stay overnight in the hospital, and full recovery may take up to 4 to 6 weeks. </s></s>

<s>[INST] What to do for Cystocele ? [/INST] Researchers have not found that eating, diet, and nutrition play a role in causing or preventing a cystocele. </s></s>

<s>[INST] What to do for Cystocele ? [/INST] - A cystocele, also called a prolapsed or dropped bladder, is the bulging or dropping of the bladder into the vagina. - A cystocele occurs when the muscles and supportive tissues between a womans bladder and vagina weaken and stretch, letting the bladder sag from its normal position and bulge into the vagina or through the vaginal opening. - Diagnosing a cystocele requires medical tests and a physical exam of the vagina. - Cystocele treatment depends on the severity of the cystocele and whether a woman has symptoms. </s></s>

<s>[INST] What is (are) Whipple Disease ? [/INST] Whipple disease is a rare bacterial infection that primarily affects the small intestine. The infection may spread to any organ in the body; however, it more commonly affects the - joints - central nervous system, which includes the brain, the spinal cord, and nerves located throughout the body - heart - eyes - lungs Left untreated, Whipple disease gets worse and is usually life threatening. </s></s>

<s>[INST] What is (are) Whipple Disease ? [/INST] The small intestine is part of the upper gastrointestinal (GI) tract and is a tube-shaped organ between the stomach and large intestine. The upper GI tract also includes the mouth, esophagus, stomach, and duodenum, or the first part of the small intestine. Most food digestion and nutrient absorption take place in the small intestine. The small intestine measures about 20 feet long and includes the duodenum, jejunum, and ileum. Villitiny, fingerlike protrusionsline the inside of the small intestine. Villi normally let nutrients from food be absorbed through the walls of the small intestine into the bloodstream. </s></s>

<s>[INST] What causes Whipple Disease ? [/INST] Bacteria called Tropheryma whipplei (T. whipplei) cause Whipple disease. T. whipplei infection can cause internal sores, also called lesions, and thickening of tissues in the small intestine. The villi take on an abnormal, clublike appearance and the damaged intestinal lining does not properly absorb nutrients, causing diarrhea and malnutrition. Diarrhea is frequent, loose, and watery bowel movements. Malnutrition is a condition that develops when the body does not get the right amount of vitamins, minerals, and other nutrients it needs to maintain healthy tissues and organ function. Over time, the infection spreads to other parts of the persons body and will damage other organs. </s></s>

<s>[INST] What are the symptoms of Whipple Disease ? [/INST] Signs and symptoms of Whipple disease can vary widely from person to person. The most common symptoms of Whipple disease are - diarrhea - weight loss caused by malabsorption A person may not have diarrhea. Instead, other signs and symptoms of Whipple disease may appear, such as - abnormal yellow and white patches on the lining of the small intestine - joint pain, with or without inflammation, that may appear off and on for years before other symptoms - fatty or bloody stools - abdominal cramps or bloating felt between the chest and groin - enlarged lymph nodesthe small glands that make infection-fighting white blood cells - loss of appetite - fever - fatigue, or feeling tired - weakness - darkening of the skin People with a more advanced stage of Whipple disease may have neurologic symptomsthose related to the central nervous systemsuch as - vision problems. - memory problems or personality changes. - facial numbness. - headaches. - muscle weakness or twitching. - difficulty walking. - hearing loss or ringing in the ears. - dementiathe name for a group of symptoms caused by disorders that affect the brain. People with dementia may not be able to think well enough to do normal activities such as getting dressed or eating. Less common symptoms of Whipple disease may include - chronic cough. - chest pain. - pericarditisinflammation of the membrane surrounding the heart. - heart failurea long-lasting condition in which the heart cannot pump enough blood to meet the bodys needs. Heart failure does not mean the heart suddenly stops working. </s></s>

<s>[INST] What are the complications of Whipple Disease ? [/INST] People with Whipple disease may have complications caused by malnutrition, which is due to damaged villi in the small intestine. As a result of delayed diagnosis or treatment, people may experience the following complications in other areas of the body: - long-lasting nutritional deficiencies - heart and heart valve damage - brain damage A person with Whipple disease may experience a relapsea return of symptoms. Relapse can happen years after treatment and requires repeat treatments. </s></s>

<s>[INST] How to diagnose Whipple Disease ? [/INST] A health care provider may use several tests and exams to diagnose Whipple disease, including the following: - medical and family history - physical exam - blood tests - upper GI endoscopy and enteroscopy A patient may be referred to a gastroenterologista doctor who specializes in digestive diseases. A health care provider may first try to rule out more common conditions with similar symptoms, including - inflammatory rheumatic diseasecharacterized by inflammation and loss of function in one or more connecting or supporting structures of the body. - celiac diseasea digestive disease that damages the small intestine and interferes with the absorption of nutrients from food. People who have celiac disease cannot tolerate gluten, a protein in wheat, rye, and barley. - neurologic diseasesdisorders of the central nervous system. - intra-abdominal lymphomaabdominal cancer in part of the immune system called the lymphatic system. - Mycobacterium avium complexan infection that affects people with AIDS. Medical and Family History Taking a family and medical history can help a health care provider diagnose Whipple disease. Physical Exam A physical exam may help diagnose Whipple disease. During a physical exam, a health care provider usually - examines a patients body - uses a stethoscope to listen to sounds related to the abdomen - taps on specific areas of the patients body checking for pain or tenderness Blood Tests A technician or nurse draws a blood sample during an office visit or at a commercial facility and sends the sample to a lab for analysis. The health care provider may use blood tests to check for - malabsorption. When the damaged villi do not absorb certain nutrients from food, the body has a shortage of protein, calories, and vitamins. Blood tests can show shortages of protein, calories, and vitamins in the body. - abnormal levels of electrolytes. Electrolyteschemicals in body fluids, including sodium, potassium, magnesium, and chlorideregulate a persons nerve and muscle function. A patient who has malabsorption or a lot of diarrhea may lose fluids and electrolytes, causing an imbalance in the body. - anemia. Anemia is a condition in which the body has fewer red blood cells than normal. A patient with Whipple disease does not absorb the proper nutrients to make enough red blood cells in the body, leading to anemia. - T. whipplei DNA. Although not yet approved, rapid polymerase chain reaction diagnostic tests have been developed to detect T. whipplei DNA and may be useful in diagnosis. Upper Gastrointestinal Endoscopy and Enteroscopy An upper GI endoscopy and enteroscopy are procedures that use an endoscopea small, flexible tube with a lightto see the upper GI tract. A health care provider performs these tests at a hospital or an outpatient center. The health care provider carefully feeds the endoscope down the esophagus and into the stomach and duodenum. Once the endoscope is in the duodenum, the health care provider will use smaller tools and a smaller scope to see more of the small intestine. These additional procedures may include - push enteroscopy, which uses a long endoscope to examine the upper portion of the small intestine. - double-balloon enteroscopy, which uses balloons to help move the endoscope through the entire small intestine. - capsule enteroscopy, during which the patient swallows a capsule containing a tiny camera. As the capsule passes through the GI tract, the camera will transmit images to a video monitor. Using this procedure, the health care provider can examine the entire digestive tract. A small camera mounted on the endoscope transmits a video image to a monitor, allowing close examination of the intestinal lining. A health care provider may give a patient a liquid anesthetic to gargle or may spray anesthetic on the back of the patients throat. A health care provider will place an intravenous (IV) needle in a vein in the arm or hand to administer sedation. Sedatives help patients stay relaxed and comfortable. The test can show changes in the lining of the small intestine that can occur with Whipple disease. The health care provider can use tiny tools passed through the endoscope to perform biopsies. A biopsy is a procedure that involves taking a piece of tissue for examination with a microscope. A pathologista doctor who specializes in examining tissues to diagnose diseasesexamines the tissue from the stomach lining in a lab. The pathologist applies a special stain to the tissue and examines it for T. whipplei-infected cells with a microscope. Once the pathologist completes the examination of the tissue, he or she sends a report to the gastroenterologist for review. More information is provided in the NIDDK health topic, Upper GI Endoscopy. </s></s>

<s>[INST] What are the treatments for Whipple Disease ? [/INST] The health care provider prescribes antibiotics to destroy the T. whipplei bacteria and treat Whipple disease. Health care providers choose antibiotics that treat the infection in the small intestine and cross the blood-brain barriera layer of tissue around the brain. Using antibiotics that cross the blood-brain barrier ensures destruction of any bacteria that may have entered the patients brain and central nervous system. The health care provider usually prescribes IV antibiotics for the first 2 weeks of treatment. Most patients feel relief from symptoms within the first week or two. A nurse or technician places an IV in the patients arm to give the antibiotics. IV antibiotics used to treat Whipple disease may include - ceftriaxone (Rocephin) - meropenem (Merrem I.V.) - penicillin G (Pfizerpen) - streptomycin (Streptomycin) After a patient completes the IV antibiotics, the health care provider will prescribe long-term oral antibiotics. Patients receive long-term treatmentat least 1 to 2 yearsto cure the infection anywhere in the body. Oral antibiotics may include - trimethoprim/sulfamethoxazole (Septra, Bactrim)a combination antibiotic - doxycycline (Vibramycin) Patients should finish the prescribed course of antibiotics to ensure the medication destroyed all T. whipplei bacteria in the body. Patients who feel better may still have the bacteria in the small intestine or other areas of the body for 1 to 2 years. A health care provider will monitor the patient closely, repeat the blood tests, and repeat the upper GI endoscopy with biopsy during and after treatment to determine whether T. whipplei is still present. People may relapse during or after treatment. A health care provider will prescribe additional or new antibiotics if a relapse occurs. Some people will relapse years after treatment, so it is important for patients to schedule routine follow-ups with the health care provider. Most patients have good outcomes with an early diagnosis and complete treatment. Health care providers treat patients with neurologic symptoms at diagnosis or during relapse more aggressively. Treatment may include - a combination of antibiotics - hydroxychloroquine (Plaquenil)an antimalarial medication - weekly injections of interferon gammaa substance made by the body that activates the immune system - corticosteroidsmedications that decrease inflammation </s></s>

<s>[INST] How to prevent Whipple Disease ? [/INST] Experts have not yet found a way to prevent Whipple disease. </s></s>