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symptoms | What are the symptoms of Currarino triad ? | What are the signs and symptoms of Currarino triad? The Human Phenotype Ontology provides the following list of signs and symptoms for Currarino triad. If the information is available, the table below includes how often the symptom is seen in people with this condition. You can use the MedlinePlus Medical Dictionary to look up the definitions for these medical terms. Signs and Symptoms Approximate number of patients (when available) Aplasia/Hypoplasia of the sacrum 90% Presacral teratoma 90% Hemisacrum (S2-S5) 75% Bifid sacrum 22% Arteriovenous malformation 7.5% Bifid scrotum 7.5% Displacement of the external urethral meatus 7.5% Hypoplasia of penis 7.5% Lower limb asymmetry 7.5% Male pseudohermaphroditism 7.5% Abdominal distention - Anal atresia - Anal fistula - Anal stenosis - Anterior sacral meningocele - Autosomal dominant inheritance - Bicornuate uterus - Chronic constipation - Gastrointestinal obstruction - Horseshoe kidney - Incomplete penetrance - Neurogenic bladder - Perianal abscess - Rectovaginal fistula - Recurrent urinary tract infections - Septate vagina - Tethered cord - Urinary incontinence - Vesicoureteral reflux - The Human Phenotype Ontology (HPO) has collected information on how often a sign or symptom occurs in a condition. Much of this information comes from Orphanet, a European rare disease database. The frequency of a sign or symptom is usually listed as a rough estimate of the percentage of patients who have that feature. The frequency may also be listed as a fraction. The first number of the fraction is how many people had the symptom, and the second number is the total number of people who were examined in one study. For example, a frequency of 25/25 means that in a study of 25 people all patients were found to have that symptom. Because these frequencies are based on a specific study, the fractions may be different if another group of patients are examined. Sometimes, no information on frequency is available. In these cases, the sign or symptom may be rare or common. |
exams and tests | How to diagnose Hemochromatosis ? | Health care providers use medical and family history, a physical exam, and routine blood tests to diagnose hemochromatosis or other conditions that could cause the same symptoms or complications.
- 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 hemochromatosis. The health care provider will look for clues that may indicate hemochromatosis, such as a family history of arthritis or unexplained liver disease. - Physical exam. After taking a medical history, a health care provider will perform a physical exam, which may help diagnose hemochromatosis. During a physical exam, a health care provider usually - examines a patients body - uses a stethoscope to listen to bodily sounds - taps on specific areas of the patients body - Blood tests. 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. Blood tests can determine whether the amount of iron stored in the body is higher than normal:1 - The transferrin saturation test shows how much iron is bound to the protein that carries iron in the blood. Transferrin saturation values above or equal to 45 percent are considered abnormal. - The serum ferritin test detects the amount of ferritina protein that stores ironin the blood. Levels above 300 g/L in men and 200 g/L in women are considered abnormal. Levels above 1,000 g/L in men or women indicate a high chance of iron overload and organ damage. If either test shows higher-than-average levels of iron in the body, health care providers can order a special blood test that can detect two copies of the C282Y mutation to confirm the diagnosis. If the mutation is not present, health care providers will look for other causes. - Liver biopsy. Health care providers may perform a liver biopsy, 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 temporarily stop taking certain medications 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 diseaselooks at the tissue with a microscope and sends a report to the patients health care provider. The biopsy shows how much iron has accumulated in the liver and whether the patient has liver damage.
Hemochromatosis is rare, and health care providers may not think to test for this disease. Thus, the disease is often not diagnosed or treated. The initial symptoms can be diverse, vague, and similar to the symptoms of many other diseases. Health care providers may focus on the symptoms and complications caused by hemochromatosis rather than on the underlying iron overload. However, if a health care provider diagnoses and treats the iron overload caused by hemochromatosis before organ damage has occurred, a person can live a normal, healthy life.
Who should be tested for hemochromatosis? Experts recommend testing for hemochromatosis in people who have symptoms, complications, or a family history of the disease. Some researchers have suggested widespread screening for the C282Y mutation in the general population. However, screening is not cost-effective. Although the C282Y mutation occurs quite frequently, the disease caused by the mutation is rare, and many people with two copies of the mutation never develop iron overload or organ damage. Researchers and public health officials suggest the following: - Siblings of people who have hemochromatosis should have their blood tested to see if they have the C282Y mutation. - Parents, children, and other close relatives of people who have hemochromatosis should consider being tested. - Health care providers should consider testing people who have severe and continuing fatigue, unexplained cirrhosis, joint pain or arthritis, heart problems, erectile dysfunction, or diabetes because these health issues may result from hemochromatosis. |
information | What is (are) Barotrauma ? | Barotrauma means injury to your body because of changes in barometric (air) or water pressure. One common type happens to your ear. A change in altitude may cause your ears to hurt. This can happen if you are flying in an airplane, driving in the mountains, or scuba diving. Divers can also get decompression sickness, which affects the whole body. Common symptoms of ear barotrauma include - Pain - A feeling that your ears are stuffed - Hearing loss - Dizziness Treatments for ear barotrauma include chewing gum and yawning to relieve the pressure. Medications such as decongestants may also help. |
treatment | What are the treatments for X-linked infantile nystagmus ? | These resources address the diagnosis or management of X-linked infantile nystagmus: - Gene Review: Gene Review: FRMD7-Related Infantile Nystagmus - Genetic Testing Registry: Infantile nystagmus, X-linked - MedlinePlus Encyclopedia: Nystagmus These resources from MedlinePlus offer information about the diagnosis and management of various health conditions: - Diagnostic Tests - Drug Therapy - Surgery and Rehabilitation - Genetic Counseling - Palliative Care |
symptoms | What are the symptoms of Thumb stiff brachydactyly mental retardation ? | What are the signs and symptoms of Thumb stiff brachydactyly mental retardation? The Human Phenotype Ontology provides the following list of signs and symptoms for Thumb stiff brachydactyly mental retardation. If the information is available, the table below includes how often the symptom is seen in people with this condition. You can use the MedlinePlus Medical Dictionary to look up the definitions for these medical terms. Signs and Symptoms Approximate number of patients (when available) Abnormality of the metacarpal bones 90% Abnormality of the thumb 90% Cognitive impairment 90% Limitation of joint mobility 90% Obesity 50% Autosomal dominant inheritance - Intellectual disability - Type A1 brachydactyly - The Human Phenotype Ontology (HPO) has collected information on how often a sign or symptom occurs in a condition. Much of this information comes from Orphanet, a European rare disease database. The frequency of a sign or symptom is usually listed as a rough estimate of the percentage of patients who have that feature. The frequency may also be listed as a fraction. The first number of the fraction is how many people had the symptom, and the second number is the total number of people who were examined in one study. For example, a frequency of 25/25 means that in a study of 25 people all patients were found to have that symptom. Because these frequencies are based on a specific study, the fractions may be different if another group of patients are examined. Sometimes, no information on frequency is available. In these cases, the sign or symptom may be rare or common. |
information | What is (are) Gastrointestinal Carcinoid Tumors ? | Key Points
- A gastrointestinal carcinoid tumor is cancer that forms in the lining of the gastrointestinal tract. - Health history can affect the risk of gastrointestinal carcinoid tumors. - Some gastrointestinal carcinoid tumors have no signs or symptoms in the early stages. - Carcinoid syndrome may occur if the tumor spreads to the liver or other parts of the body. - Imaging studies and tests that examine the blood and urine are used to detect (find) and diagnose gastrointestinal carcinoid tumors. - Certain factors affect prognosis (chance of recovery) and treatment options.
A gastrointestinal carcinoid tumor is cancer that forms in the lining of the gastrointestinal tract.
The gastrointestinal (GI) tract is part of the body's digestive system. It helps to digest food, takes nutrients (vitamins, minerals, carbohydrates, fats, proteins, and water) from food to be used by the body and helps pass waste material out of the body. The GI tract is made up of these and other organs: - Stomach. - Small intestine (duodenum, jejunum, and ileum). - Colon. - Rectum. Gastrointestinal carcinoid tumors form from a certain type of neuroendocrine cell (a type of cell that is like a nerve cell and a hormone -making cell). These cells are scattered throughout the chest and abdomen but most are found in the GI tract. Neuroendocrine cells make hormones that help control digestive juices and the muscles used in moving food through the stomach and intestines. A GI carcinoid tumor may also make hormones and release them into the body. GI carcinoid tumors are rare and most grow very slowly. Most of them occur in the small intestine, rectum, and appendix. Sometimes more than one tumor will form. See the following PDQ summaries for more information related to GI and other types of carcinoid tumors: - Non-Small Cell Lung Cancer Treatment. - Pancreatic Neuroendocrine Tumors (Islet Cell Tumors) Treatment. - Rectal Cancer Treatment. - Small Intestine Cancer Treatment. - Unusual Cancers of Childhood Treatment
Carcinoid syndrome may occur if the tumor spreads to the liver or other parts of the body.
The hormones made by gastrointestinal carcinoid tumors are usually destroyed by liver enzymes in the blood. If the tumor has spread to the liver and the liver enzymes cannot destroy the extra hormones made by the tumor, high amounts of these hormones may remain in the body and cause carcinoid syndrome. This can also happen if tumor cells enter the blood. Signs and symptoms of carcinoid syndrome include the following: - Redness or a feeling of warmth in the face and neck. - Abdominal pain. - Feeling bloated. - Diarrhea. - Wheezing or other trouble breathing. - Fast heartbeat. These signs and symptoms may be caused by gastrointestinal carcinoid tumors or by other conditions. Talk to your doctor if you have any of these signs or symptoms. |
information | What is (are) branchio-oculo-facial syndrome ? | Branchio-oculo-facial syndrome is a condition that affects development before birth, particularly of structures in the face and neck. Its characteristic features include skin anomalies on the neck, malformations of the eyes and ears, and distinctive facial features. "Branchio-" refers to the branchial arches, which are structures in the developing embryo that give rise to tissues in the face and neck. In people with branchio-oculo-facial syndrome, the first and second branchial arches do not develop properly, leading to abnormal patches of skin, typically on the neck or near the ears. These patches can be unusually thin, hairy, or red and densely packed with blood vessels (hemangiomatous). In a small number of individuals, tissue from a gland called the thymus is abnormally located on the skin of the neck (dermal thymus). Problems with branchial arch development underlie many of the other features of branchio-oculo-facial syndrome. "Oculo-" refers to the eyes. Many people with branchio-oculo-facial syndrome have malformations of the eyes that can lead to vision impairment. These abnormalities include unusually small eyeballs (microphthalmia), no eyeballs (anophthalmia), a gap or split in structures that make up the eyes (coloboma), or blockage of the tear ducts (nasolacrimal duct stenosis). Problems with development of the face lead to distinctive facial features in people with branchio-oculo-facial syndrome. Many affected individuals have a split in the upper lip (cleft lip) or a pointed upper lip that resembles a poorly repaired cleft lip (often called a pseudocleft lip) with or without an opening in the roof of the mouth (cleft palate). Other facial characteristics include widely spaced eyes (hypertelorism), an increased distance between the inner corners of the eyes (telecanthus), outside corners of the eyes that point upward (upslanting palpebral fissures), a broad nose with a flattened tip, and weakness of the muscles in the lower face. The ears are also commonly affected, resulting in malformed or prominent ears. Abnormalities of the inner ear or of the tiny bones in the ears (ossicles) can cause hearing loss in people with this condition. Branchio-oculo-facial syndrome can affect other structures and tissues as well. Some affected individuals have kidney abnormalities, such as malformed kidneys or multiple kidney cysts. Nail and teeth abnormalities also occur, and some people with this condition have prematurely graying hair. |
information | What is (are) Parasites - Lice - Pubic "Crab" Lice ? | Also called crab lice or "crabs," pubic lice are parasitic insects found primarily in the pubic or genital area of humans. Pubic lice infestation is found worldwide and occurs in all races, ethnic groups, and levels of society. |
information | What is (are) Diarrhea ? | Diarrhea means that you have loose, watery stools more than three times in one day. You may also have cramps, bloating, nausea and an urgent need to have a bowel movement. Causes of diarrhea include bacteria, viruses or parasites, certain medicines, food intolerances and diseases that affect the stomach, small intestine or colon. In many cases, no cause can be found. Although usually not harmful, diarrhea can become dangerous or signal a more serious problem. You should talk to your doctor if you have a strong pain in your abdomen or rectum, a fever, blood in your stools, severe diarrhea for more than three days or symptoms of dehydration. If your child has diarrhea, do not hesitate to call the doctor for advice. Diarrhea can be dangerous in children. NIH: National Institute of Diabetes and Digestive and Kidney Diseases |
exams and tests | How to diagnose X-linked congenital stationary night blindness ? | Is genetic testing available for X-linked congenital stationary night blindness? Yes. About 45% of individuals with XLCSNB have the complete form, which is caused by mutations in the NYX gene. The other 55% have the incomplete form, which is caused by mutations in the CACNA1F gene. The Genetic Testing Registry (GTR) provides information about the genetic tests for this condition. The intended audience for the GTR is health care providers and researchers. Patients and consumers with specific questions about a genetic test should contact a health care provider or a genetics professional. |
considerations | What to do for Inguinal Hernia ? | Researchers have not found that eating, diet, and nutrition play a role in causing inguinal hernias. A person with an inguinal hernia may be able to prevent symptoms by eating high-fiber foods. Fresh fruits, vegetables, and whole grains are high in fiber and may help prevent the constipation and straining that cause some of the painful symptoms of a hernia.
The surgeon will provide instructions on eating, diet, and nutrition after inguinal hernia surgery. Most people drink liquids and eat a light diet the day of the operation and then resume their usual diet the next day. |
causes | What causes Behcet's disease ? | What causes Behcet's disease? The exact cause of Behet's disease is unknown. Most symptoms of the disease are caused by inflammation of the blood vessels. Inflammation is a characteristic reaction of the body to injury or disease and is marked by four signs: swelling, redness, heat, and pain. Doctors think that an autoimmune reaction may cause the blood vessels to become inflamed, but they do not know what triggers this reaction. Under normal conditions, the immune system protects the body from diseases and infections by killing harmful "foreign" substances, such as germs, that enter the body. In an autoimmune reaction, the immune system mistakenly attacks and harms the body's own tissues. Behet's disease is not contagious; it is not spread from one person to another. Researchers think that two factors are important for a person to get Behet's disease. First, it is believed that abnormalities of the immune system make some people susceptible to the disease. Scientists think that this susceptibility may be inherited; that is, it may be due to one or more specific genes. Second, something in the environment, possibly a bacterium or virus, might trigger or activate the disease in susceptible people. |
causes | What causes Cornelia de Lange syndrome ? | What causes Cornelia de Lange syndrome? Most cases (approximately 65%) of Cornelia de Lange syndrome (CdLS) are caused by changes (mutations) in the NIPBL gene. An additional 5% of people affected by the condition have mutations in one of four known genes (SMC1A, SMC3, HDAC8 and RAD21). Many of the genes associated with CdLS encode proteins that play an important role in human development before birth. Mutations in these genes may result in an abnormal protein that is not able to carry out its normal function. This is thought to interfere with early development leading to the many signs and symptoms of CdLS. In 30% of people with CdLS, the underlying genetic cause of the condition is unknown. |
information | What is (are) Polycystic Ovary Syndrome ? | Polycystic ovary syndrome (PCOS) happens when a woman's ovaries or adrenal glands produce more male hormones than normal. One result is that cysts (fluid-filled sacs) develop on the ovaries. Women who are obese are more likely to have polycystic ovary syndrome. Symptoms of PCOS include: - Infertility - Pelvic pain - Excess hair growth on the face, chest, stomach, thumbs, or toes - Baldness or thinning hair - Acne, oily skin, or dandruff - Patches of thickened dark brown or black skin Women with PCOS are at higher risk of diabetes, metabolic syndrome, heart disease, and high blood pressure. Medicines can help control the symptoms. Birth control pills help women have normal periods, reduce male hormone levels, and clear acne. Other medicines can reduce hair growth and control blood pressure and cholesterol. There is no cure. NIH: National Institute of Child Health and Human Development |
information | What is (are) Wolman disease ? | Wolman disease is a type of lysosomal storage disorder. It is an inherited condition that causes a buildup of lipids (fats) in body organs and calcium deposits in the adrenal glands. Common symptoms in infants include enlarged liver and spleen, poor weight gain, low muscle tone, jaundice, vomiting, diarrhea, developmental delay, anemia, and poor absorption of nutrients from food. Wolman disease is caused by mutations in the LIPA gene. It is inherited in an autosomal recessive manner. The condition is severe and life-threatening, however new therapies, such as bone marrow transplantation, have shown promise in improving the outlook of children with this disease. Enzyme replacement therapy is also being developed. |
symptoms | What are the symptoms of Budd-Chiari syndrome ? | What are the signs and symptoms of Budd-Chiari syndrome? The Human Phenotype Ontology provides the following list of signs and symptoms for Budd-Chiari syndrome. If the information is available, the table below includes how often the symptom is seen in people with this condition. You can use the MedlinePlus Medical Dictionary to look up the definitions for these medical terms. Signs and Symptoms Approximate number of patients (when available) Ascites 90% Portal hypertension 90% Splenomegaly 90% Abdominal pain 50% Abnormality of temperature regulation 50% Cirrhosis 50% Elevated hepatic transaminases 50% Esophageal varix 50% Hepatomegaly 50% Acute hepatic failure 7.5% Biliary tract abnormality 7.5% Gastrointestinal hemorrhage 7.5% Gastrointestinal infarctions 7.5% Intestinal obstruction 7.5% Malabsorption 7.5% Peritonitis 7.5% Weight loss 7.5% Budd-Chiari syndrome - Hepatocellular carcinoma - The Human Phenotype Ontology (HPO) has collected information on how often a sign or symptom occurs in a condition. Much of this information comes from Orphanet, a European rare disease database. The frequency of a sign or symptom is usually listed as a rough estimate of the percentage of patients who have that feature. The frequency may also be listed as a fraction. The first number of the fraction is how many people had the symptom, and the second number is the total number of people who were examined in one study. For example, a frequency of 25/25 means that in a study of 25 people all patients were found to have that symptom. Because these frequencies are based on a specific study, the fractions may be different if another group of patients are examined. Sometimes, no information on frequency is available. In these cases, the sign or symptom may be rare or common. |
information | What is (are) Pulmonary Fibrosis ? | Pulmonary fibrosis is a condition in which the tissue deep in your lungs becomes scarred over time. This tissue gets thick and stiff. That makes it hard for you to catch your breath, and your blood may not get enough oxygen. Causes of pulmonary fibrosis include environmental pollutants, some medicines, some connective tissue diseases, and interstitial lung disease. Interstitial lung disease is the name for a large group of diseases that inflame or scar the lungs. In most cases, the cause cannot be found. This is called idiopathic pulmonary fibrosis. Symptoms include - Shortness of breath - A dry, hacking cough that doesn't get better - Fatigue - Weight loss for no known reason - Aching muscles and joints - Clubbing, which is the widening and rounding of the tips of the fingers or toes Your doctor may use your medical history, imaging tests, a biopsy, and lung function tests to diagnose pulmonary fibrosis. There is no cure. Treatments can help with symptoms and improve your quality of life. They include medicines, oxygen therapy, pulmonary rehabilitation, or a lung transplant. NIH: National Heart, Lung, and Blood Institute |
genetic changes | What are the genetic changes related to Fuchs endothelial dystrophy ? | The genetics of Fuchs endothelial dystrophy are unclear. Researchers have identified regions of a few chromosomes and several genes that they think may play a role in the development of Fuchs endothelial dystrophy, but many of these associations need to be further tested. Fuchs endothelial dystrophy affects a thin layer of cells that line the back of the cornea, called corneal endothelial cells. These cells regulate the amount of fluid inside the cornea. An appropriate fluid balance in the cornea is necessary for clear vision. Fuchs endothelial dystrophy occurs when the endothelial cells die, and the cornea becomes swollen with too much fluid. Corneal endothelial cells continue to die over time, resulting in further vision problems. It is thought that mutations in genes that are active (expressed) primarily in corneal endothelial cells or surrounding tissue may lead to the death of corneal endothelial cells, resulting in Fuchs endothelial dystrophy. Some cases of the early-onset variant of Fuchs endothelial dystrophy are caused by mutations in the COL8A2 gene. This gene provides instructions for making a protein that is part of type VIII collagen. Type VIII collagen is largely found within the cornea, surrounding the endothelial cells. Specifically, type VIII collagen is a major component of a tissue at the back of the cornea, called Descemet's membrane. This membrane is a thin, sheet-like structure that separates and supports corneal endothelial cells. COL8A2 gene mutations that cause the early-onset variant of Fuchs endothelial dystrophy lead to an abnormal Descemet's membrane, which causes the cells to die and leads to the vision problems in people with this condition. Mutations in unidentified genes are also likely to cause the early-onset variant of Fuchs endothelial dystrophy. The genetic causes of the late-onset form of the disorder are unknown. |
inheritance | Is 47 XXX syndrome inherited ? | Is 47 XXX syndrome inherited? Most cases of 47 XXX syndrome are not inherited. The chromosomal change usually occurs as a random event during the formation of reproductive cells (eggs and sperm). An error in cell division called nondisjunction can result in reproductive cells with an abnormal number of chromosomes. For example, an egg or sperm cell may gain an extra copy of the X chromosome as a result of nondisjunction. If one of these reproductive cells contributes to the genetic makeup of a child, the child will have an extra X chromosome in each of the body's cells. 46,XX/47,XXX mosaicism is also not inherited. It occurs as a random event during cell division in the early development of an embryo. As a result, some of an affected person's cells have two X chromosomes (46,XX), and other cells have three X chromosomes (47,XXX). Transmission of an abnormal number of X chromosomes from women with 47 XXX syndrome is rare, although it has been reported. Some reports suggest a <5% increased risk for a chromosomally abnormal pregnancy, and other more recent reports suggest that <1% may be more accurate. These risks are separate from the risks of having a chromosomally abnormal pregnancy due to maternal age or any other factors. Furthermore, these risks generally apply only to women with non-mosaic 47 XXX syndrome, as mosaicism may increase the risk of passing on an abnormal number of X chromosomes and potential outcomes. Each individual with 47 XXX syndrome who is interested in learning about their own risks to have a child with a chromosome abnormality or other genetic abnormality should speak with their healthcare provider or a genetics professional. |
causes | What causes Childhood Ependymoma ? | The cause of most childhood brain tumors is unknown. |
genetic changes | What are the genetic changes related to glycogen storage disease type V ? | Mutations in the PYGM gene cause GSDV. The PYGM gene provides instructions for making an enzyme called myophosphorylase. This enzyme is found only in muscle cells, where it breaks down glycogen into a simpler sugar called glucose-1-phosphate. Additional steps convert glucose-1-phosphate into glucose, a simple sugar that is the main energy source for most cells. PYGM gene mutations prevent myophosphorylase from breaking down glycogen effectively. As a result, muscle cells cannot produce enough energy, so muscles become easily fatigued. Reduced energy production in muscle cells leads to the major features of GSDV. |
symptoms | What are the symptoms of Erdheim-Chester disease ? | What are the signs and symptoms of Erdheim-Chester disease? The Human Phenotype Ontology provides the following list of signs and symptoms for Erdheim-Chester disease. If the information is available, the table below includes how often the symptom is seen in people with this condition. You can use the MedlinePlus Medical Dictionary to look up the definitions for these medical terms. Signs and Symptoms Approximate number of patients (when available) Abnormality of epiphysis morphology 90% Abnormality of temperature regulation 90% Abnormality of the genital system 90% Abnormality of the metaphyses 90% Bone pain 90% Diabetes insipidus 90% Hyperhidrosis 90% Increased bone mineral density 90% Multiple lipomas 90% Osteolysis 90% Osteomyelitis 90% Proptosis 90% Weight loss 90% Abdominal pain 50% Abnormality of the aortic valve 50% Joint swelling 50% Abnormality of the pericardium 7.5% Abnormality of the pleura 7.5% Anemia 7.5% Aplasia/Hypoplasia of the cerebellum 7.5% Aseptic necrosis 7.5% Congestive heart failure 7.5% Hyperreflexia 7.5% Incoordination 7.5% Nausea and vomiting 7.5% Neurological speech impairment 7.5% Nystagmus 7.5% Ptosis 7.5% Pulmonary fibrosis 7.5% Renal insufficiency 7.5% Respiratory insufficiency 7.5% Skin rash 7.5% Visual impairment 7.5% The Human Phenotype Ontology (HPO) has collected information on how often a sign or symptom occurs in a condition. Much of this information comes from Orphanet, a European rare disease database. The frequency of a sign or symptom is usually listed as a rough estimate of the percentage of patients who have that feature. The frequency may also be listed as a fraction. The first number of the fraction is how many people had the symptom, and the second number is the total number of people who were examined in one study. For example, a frequency of 25/25 means that in a study of 25 people all patients were found to have that symptom. Because these frequencies are based on a specific study, the fractions may be different if another group of patients are examined. Sometimes, no information on frequency is available. In these cases, the sign or symptom may be rare or common. |
symptoms | What are the symptoms of Behr syndrome ? | What are the signs and symptoms of Behr syndrome? People with Behr syndrome typically have visual disturbances (e.g. optic atrophy, nystagmus), ataxia, and spasticity. Other signs and symptoms that may be present in patients with Behr syndrome include intellectual disability, loss of bladder control, and variable pyramidal tract dysfunction (e.g., increased tone in certain muscles, paralysis of voluntary movements, Babinski sign, increased deep tendon reflexes), peripheral neuropathy, dementia, and muscle contractures. The Human Phenotype Ontology provides the following list of signs and symptoms for Behr syndrome. If the information is available, the table below includes how often the symptom is seen in people with this condition. You can use the MedlinePlus Medical Dictionary to look up the definitions for these medical terms. Signs and Symptoms Approximate number of patients (when available) Abnormality of color vision 90% Cognitive impairment 90% Hypertonia 90% Incoordination 90% Nystagmus 90% Optic atrophy 90% Strabismus 90% Visual impairment 50% Achilles tendon contracture - Adductor longus contractures - Ataxia - Autosomal recessive inheritance - Babinski sign - Cerebellar atrophy - Gait disturbance - Hamstring contractures - Hyperreflexia - Intellectual disability - Progressive spasticity - The Human Phenotype Ontology (HPO) has collected information on how often a sign or symptom occurs in a condition. Much of this information comes from Orphanet, a European rare disease database. The frequency of a sign or symptom is usually listed as a rough estimate of the percentage of patients who have that feature. The frequency may also be listed as a fraction. The first number of the fraction is how many people had the symptom, and the second number is the total number of people who were examined in one study. For example, a frequency of 25/25 means that in a study of 25 people all patients were found to have that symptom. Because these frequencies are based on a specific study, the fractions may be different if another group of patients are examined. Sometimes, no information on frequency is available. In these cases, the sign or symptom may be rare or common. |
inheritance | Is 1q21.1 microdeletion inherited ? | 1q21.1 microdeletion is inherited in an autosomal dominant pattern, which means that missing genetic material from one of the two copies of chromosome 1 in each cell is sufficient to increase the risk of delayed development, intellectual disability, and other signs and symptoms. In at least half of cases, individuals with a 1q21.1 microdeletion inherit the chromosomal change from a parent. In general, parents who carry a 1q21.1 microdeletion have milder signs and symptoms than their children who inherit the deletion, even though the deletion is the same size. About one-quarter of these parents have no associated features. A 1q21.1 microdeletion can also occur in people whose parents do not carry the chromosomal change. In this situation, the deletion occurs most often as a random event during the formation of reproductive cells (eggs or sperm) in a parent or in early embryonic development. |
outlook | What is the outlook for Neurofibromatosis ? | In most cases, symptoms of NF1 are mild, and individuals live normal and productive lives. In some cases, however, NF1 can be severely debilitating and may cause cosmetic and psychological issues. The course of NF2 varies greatly among individuals. Loss of hearing in both ears develops in most individuals with NF2. In some cases of NF2, the damage to nearby vital structures, such as other cranial nerves and the brain stem, can be life-threatening. Most individuals with schwannomatosis have significant pain. In some extreme cases the pain will be severe and disabling. |
genetic changes | What are the genetic changes related to benign recurrent intrahepatic cholestasis ? | Mutations in the ATP8B1 gene cause benign recurrent intrahepatic cholestasis type 1 (BRIC1), and mutations in the ABCB11 gene cause benign recurrent intrahepatic cholestasis type 2 (BRIC2). These two genes are involved in the release (secretion) of bile, a fluid produced by the liver that helps digest fats. The ATP8B1 gene provides instructions for making a protein that helps to control the distribution of certain fats, called lipids, in the membranes of liver cells. This function likely plays a role in maintaining an appropriate balance of bile acids, a component of bile. This process, known as bile acid homeostasis, is critical for the normal secretion of bile and the proper functioning of liver cells. Although the mechanism is unclear, mutations in the ATP8B1 gene result in the buildup of bile acids in liver cells. The imbalance of bile acids leads to the signs and symptoms of BRIC1. The ABCB11 gene provides instructions for making a protein called the bile salt export pump (BSEP). This protein is found in the liver, and its main role is to move bile salts (a component of bile) out of liver cells. Mutations in the ABCB11 gene result in a reduction of BSEP function. This reduction leads to a decrease of bile salt secretion, which causes the features of BRIC2. The factors that trigger episodes of BRIC are unknown. Some people with BRIC do not have a mutation in the ATP8B1 or ABCB11 gene. In these individuals, the cause of the condition is unknown. |
treatment | What are the treatments for primary hyperoxaluria ? | These resources address the diagnosis or management of primary hyperoxaluria: - Gene Review: Gene Review: Primary Hyperoxaluria Type 1 - Gene Review: Gene Review: Primary Hyperoxaluria Type 2 - Gene Review: Gene Review: Primary Hyperoxaluria Type 3 - Genetic Testing Registry: Hyperoxaluria - Genetic Testing Registry: Primary hyperoxaluria These resources from MedlinePlus offer information about the diagnosis and management of various health conditions: - Diagnostic Tests - Drug Therapy - Surgery and Rehabilitation - Genetic Counseling - Palliative Care |
information | What is (are) Heart Valve Diseases ? | Your heart has four valves. Normally, these valves open to let blood flow through or out of your heart, and then shut to keep it from flowing backward. But sometimes they don't work properly. If they don't, you could have - Regurgitation - when blood leaks back through the valve in the wrong direction - Mitral valve prolapse - when one of the valves, the mitral valve, has "floppy" flaps and doesn't close tightly. It's one of the most common heart valve conditions. Sometimes it causes regurgitation. - Stenosis - when the valve doesn't open enough and blocks blood flow Valve problems can be present at birth or caused by infections, heart attacks, or heart disease or damage. The main sign of heart valve disease is an unusual heartbeat sound called a heart murmur. Your doctor can hear a heart murmur with a stethoscope. But many people have heart murmurs without having a problem. Heart tests can show if you have a heart valve disease. Some valve problems are minor and do not need treatment. Others might require medicine, medical procedures, or surgery to repair or replace the valve. NIH: National Heart, Lung, and Blood Institute |
information | What is (are) 4 Steps to Manage Your Diabetes for Life ? | What is diabetes?
There are three main types of diabetes:
- Type 1 diabetes Your body does not make insulin. This is a problem because you need insulin to take the sugar (glucose) from the foods you eat and turn it into energy for your body. You need to take insulin every day to live. - Type 2 diabetes Your body does not make or use insulin well. You may need to take pills or insulin to help control your diabetes. Type 2 is the most common type of diabetes. - Gestational (jest-TAY-shun-al) diabetes Some women get this kind of diabetes when they are pregnant. Most of the time, it goes away after the baby is born. But even if it goes away, these women and their children have a greater chance of getting diabetes later in life.
You are the most important member of your health care team.
You are the one who manages your diabetes day by day. Talk to your doctor about how you can best care for your diabetes to stay healthy. Some others who can help are:
- dentist - diabetes doctor - diabetes educator - dietitian - eye doctor - foot doctor - friends and family - mental health counselor - nurse - nurse practitioner - pharmacist - social worker
How to learn more about diabetes.
- Take classes to learn more about living with diabetes. To find a class, check with your health care team, hospital, or area health clinic. You can also search online. - Join a support group in-person or online to get peer support with managing your diabetes. - Read about diabetes online. Go to National Diabetes Education Program.
Take diabetes seriously.
You may have heard people say they have a touch of diabetes or that their sugar is a little high. These words suggest that diabetes is not a serious disease. That is not correct. Diabetes is serious, but you can learn to manage it.
People with diabetes need to make healthy food choices, stay at a healthy weight, move more every day, and take their medicine even when they feel good. Its a lot to do. Its not easy, but its worth it!
Why take care of your diabetes?
Taking care of yourself and your diabetes can help you feel good today and in the future. When your blood sugar (glucose) is close to normal, you are likely to:
- have more energy - be less tired and thirsty - need to pass urine less often - heal better - have fewer skin or bladder infections
You will also have less chance of having health problems caused by diabetes such as:
- heart attack or stroke - eye problems that can lead to trouble seeing or going blind - pain, tingling, or numbness in your hands and feet, also called nerve damage - kidney problems that can cause your kidneys to stop working - teeth and gum problems
Actions you can take
- Ask your health care team what type of diabetes you have. - Learn where you can go for support. - Learn how caring for your diabetes helps you feel good today and in the future. |
information | What is (are) Nasal Cancer ? | Your paranasal sinuses are small hollow spaces around the nose. They are lined with cells that make mucus, which keeps your nose from drying out. The nasal cavity is the passageway just behind your nose. Air passes through it on the way to your throat as you breathe. Cancer of the nasal cavity and paranasal sinuses is rare. You are at greater risk if you are - Male and over 40 years old - Exposed to certain workplace chemicals - Infected with HPV - A smoker There may be no symptoms at first, and later symptoms can be like those of infections. Doctors diagnose nasal cancer with imaging tests, lighted tube-like instruments that look inside the nose, and biopsies. Treatment options include surgery, radiation, and chemotherapy. NIH: National Cancer Institute |
frequency | How many people are affected by prekallikrein deficiency ? | The prevalence of prekallikrein deficiency is unknown. Approximately 80 affected individuals in about 30 families have been described in the medical literature. Because prekallikrein deficiency usually does not cause any symptoms, researchers suspect that most people with the condition are never diagnosed. |
information | What is (are) Parkinson disease ? | Parkinson disease is a progressive disorder of the nervous system. The disorder affects several regions of the brain, especially an area called the substantia nigra that controls balance and movement. Often the first symptom of Parkinson disease is trembling or shaking (tremor) of a limb, especially when the body is at rest. Typically, the tremor begins on one side of the body, usually in one hand. Tremors can also affect the arms, legs, feet, and face. Other characteristic symptoms of Parkinson disease include rigidity or stiffness of the limbs and torso, slow movement (bradykinesia) or an inability to move (akinesia), and impaired balance and coordination (postural instability). These symptoms worsen slowly over time. Parkinson disease can also affect emotions and thinking ability (cognition). Some affected individuals develop psychiatric conditions such as depression and visual hallucinations. People with Parkinson disease also have an increased risk of developing dementia, which is a decline in intellectual functions including judgment and memory. Generally, Parkinson disease that begins after age 50 is called late-onset disease. The condition is described as early-onset disease if signs and symptoms begin before age 50. Early-onset cases that begin before age 20 are sometimes referred to as juvenile-onset Parkinson disease. |
frequency | How many people are affected by cytochrome P450 oxidoreductase deficiency ? | The prevalence of cytochrome P450 oxidoreductase deficiency is unknown. About 65 cases have been reported worldwide. Researchers suspect that cytochrome P450 oxidoreductase deficiency is underdiagnosed and that mild cases of this disorder may be relatively common. Because the signs and symptoms can be difficult to detect, people with mild cytochrome P450 oxidoreductase deficiency may never come to medical attention. |
information | What is (are) Blepharospasm ? | Benign essential blepharospasm is a progressive neurological disorder characterized by involuntary muscle contractions and spasms of the eyelid muscles. It is a form of dystonia, a movement disorder in which muscle contractions cause sustained eyelid closure, twitching or repetitive movements. Benign essential blepharospasm occurs in both men and women, although it is especially common in middle-aged and elderly women. Most cases are treated with botulinum toxin injections. The exact cause of benign essential blepharospasm is unknown. |
information | What is (are) Staphylococcal Infections ? | Staph is short for Staphylococcus, a type of bacteria. There are over 30 types, but Staphylococcus aureus causes most staph infections (pronounced "staff infections"), including - Skin infections - Pneumonia - Food poisoning - Toxic shock syndrome - Blood poisoning (bacteremia) Skin infections are the most common. They can look like pimples or boils. They may be red, swollen and painful, and sometimes have pus or other drainage. They can turn into impetigo, which turns into a crust on the skin, or cellulitis, a swollen, red area of skin that feels hot. Anyone can get a staph skin infection. You are more likely to get one if you have a cut or scratch, or have contact with a person or surface that has staph bacteria. The best way to prevent staph is to keep hands and wounds clean. Most staph skin infections are easily treated with antibiotics or by draining the infection. Some staph bacteria such as MRSA (methicillin-resistant Staphylococcus aureus) are resistant to certain antibiotics, making infections harder to treat. |
treatment | What are the treatments for Mitochondrial neurogastrointestinal encephalopathy syndrome ? | How might mitochondrial neurogastrointestinal encephalopathy syndrome be treated? References John M Shoffner. Mitochondrial Neurogastrointestinal Encephalopathy Disease. GeneReviews. May 11, 2010; http://www.ncbi.nlm.nih.gov/books/NBK1179/. Accessed 3/27/2011. |
symptoms | What are the symptoms of VLCAD deficiency ? | What are the signs and symptoms of VLCAD deficiency? There are three forms of VLCAD deficiency: a severe, early-onset form; a hepatic (liver) or hypoketotic hypoglycemic form; and a later-onset episodic myopathic form. Signs and symptoms of the severe, early-onset form occur in the first few months of life and include cardiomyopathy (heart disease), pericardial effusion (fluid around the heart), heart arrhythmias (abnormal heart beat), low muscle tone, enlarged liver, and intermittent hypoglycemia (low blood sugar). The heart problems can be life threatening, but are often improved with early treatment and diet modifications. People affected by the hepatic or hypoketotic hypoglycemic form typically develop symptoms during early childhood. These features may include hypoketotic hypoglycemia and enlarged liver (without cardiomyopathy). "Hypoketotic" refers to a low level of ketones, which are produced during the breakdown of fats and used for energy. Hypoglycemia refers to low blood sugar. Together, these signs are called "hypoketotic hypoglycemia." The episodes of hypoglycemia seen in the early-onset form and hepatic/hypoketotic hypoglycemia form can cause a child to feel weak, shaky and/or dizzy with clammy, cold skin. If not treated, it can lead to coma, and possibly death. Periods of hypoglycemia can also occur with other symptoms as part of a metabolic crisis. Signs and symptoms of the later-onset episodic myopathic form may include intermittent rhabdomyolysis (breakdown of muscle), muscle cramps, muscle pain, and exercise intolerance. It is the most common form of VLCAD deficiency. |
exams and tests | How to diagnose Brody myopathy ? | How is Brody disease diagnosed? Brody disease is suspected in people with the characteristic symptoms of this disorder (e.g., peudomyotonia, myoglobinuria etc...). In addition, people with this disease may have normal or slightly elevated creatine kinase levels. Click here to learn more about creatine kinase testing. A careful evaluation of muscle tissue samples obtained from muscle biopsy shows type 2 A and B atrophy with angulated fibers. Also, biochemical and immunological testing of the activity of certain proteins in the cell (i.e., sarcoplasmic reticulum Ca ATPase) can also help confirm the diagnosis. |
treatment | What are the treatments for Hearing Loss ? | Your doctor can recommend strategies to help reduce the effects of a hearing loss. Scientists are studying ways to develop new, more effective methods to treat and prevent hearing loss. Hearing Aids A hearing aid is a small electronic device that you wear in or behind your ear. It makes some sounds louder so that a person with hearing loss can listen, communicate, and participate more fully in daily activities. A hearing aid can help people hear more in both quiet and noisy situations. However, only about one out of five people who would benefit from a hearing aid actually uses one. A hearing aid has three basic parts: a microphone, amplifier, and speaker. The hearing aid receives sound through a microphone, which converts the sound waves to electrical signals and sends them to an amplifier. The amplifier increases the power of the signals and then sends them to the ear through a speaker. Types of Hearing Aids There are a number of different types of hearing aids to treat different kinds of hearing loss. Choosing one will depend on the kind of hearing loss you have, you lifestyle, and your own preferences. - Behind-the-ear (BTE) hearing aids consist of a hard plastic case worn behind the ear and connected to a plastic earmold that fits inside the outer ear. The electronic parts are held in the case behind the ear. Sound travels from the hearing aid through the earmold and into the ear. BTE aids are used by people of all ages for mild to profound hearing loss. Behind-the-ear (BTE) hearing aids consist of a hard plastic case worn behind the ear and connected to a plastic earmold that fits inside the outer ear. The electronic parts are held in the case behind the ear. Sound travels from the hearing aid through the earmold and into the ear. BTE aids are used by people of all ages for mild to profound hearing loss. - Open-fit hearing aids fit completely behind the ear with only a narrow tube inserted into the ear canal. This lets the ear canal remain open. Open-fit hearing aids may be a good choice for people with a buildup of earwax since this type of aid is less likely to be damaged by earwax. Some people may prefer the open-fit hearing aid because they do not perceive their voice as sounding plugged up. Open-fit hearing aids fit completely behind the ear with only a narrow tube inserted into the ear canal. This lets the ear canal remain open. Open-fit hearing aids may be a good choice for people with a buildup of earwax since this type of aid is less likely to be damaged by earwax. Some people may prefer the open-fit hearing aid because they do not perceive their voice as sounding plugged up. - In-the-ear hearing aids fit completely inside the outer ear. The case holding the electronic components is made of hard plastic. Some in-the-ear hearing aids may also use a telecoil, which is a small magnetic coil that allows you to receive sound through the circuitry of the hearing aid, rather than through the microphone. You can use the telecoil when you use the telephone and when you are in public places that have installed induction loop systems, such as churches, schools, airports, and auditoriums. In-the-ear hearing aids fit completely inside the outer ear. The case holding the electronic components is made of hard plastic. Some in-the-ear hearing aids may also use a telecoil, which is a small magnetic coil that allows you to receive sound through the circuitry of the hearing aid, rather than through the microphone. You can use the telecoil when you use the telephone and when you are in public places that have installed induction loop systems, such as churches, schools, airports, and auditoriums. - Canal hearing aids fit into the ear canal and are available in two styles. The in-the-canal hearing aid is made to fit the size and shape of your ear canal. A completely-in-canal hearing aid is nearly hidden in the ear canal. Both types are used for mild to moderately severe hearing loss. Because they are small, canal aids may be difficult for a person to adjust and remove. In addition, canal aids have less space available for batteries and additional devices, such as a telecoil. They usually are not recommended for people with severe to profound hearing loss because their reduced size limits their power and volume. Canal hearing aids fit into the ear canal and are available in two styles. The in-the-canal hearing aid is made to fit the size and shape of your ear canal. A completely-in-canal hearing aid is nearly hidden in the ear canal. Both types are used for mild to moderately severe hearing loss. Because they are small, canal aids may be difficult for a person to adjust and remove. In addition, canal aids have less space available for batteries and additional devices, such as a telecoil. They usually are not recommended for people with severe to profound hearing loss because their reduced size limits their power and volume. An audiologist or hearing aid specialist can help you determine if a hearing aid, or even two hearing aids, is the right treatment for you. Wearing two hearing aids may help balance sounds, improve your understanding of words in noisy situations, and make it easier to locate the source of sounds. Cochlear Implants If your hearing loss is severe and of a certain type, your doctor may suggest that you talk to an otolaryngologista surgeon who specializes in ear, nose, and throat diseasesabout a cochlear implant. A cochlear implant is a small electronic device that the surgeon places under the skin and behind the ear. The device picks up sounds, changes them to electrical signals, and sends them past the non-working part of the inner ear and on to the brain. A cochlear implant does not restore or create normal hearing. Instead, it can help people who are deaf or who have a severe hearing loss be more aware of their surroundings and understand speech, sometimes well enough to use the telephone. Learning to interpret sounds from the implant takes time and practice. A speech-language pathologist and audiologist can help you with this part of the process. Assistive Listening Devices Assistive listening devices devices can help you hear in certain listening environments. These can include telephone and cell phone amplifying devices, smart phone or tablet "apps," and closed circuit systems (induction coil loops) in places of worship, theaters, and auditoriums. TV listening systems help you listen to the television or the radio without being bothered by other noises around you. Some hearing aids can be plugged into televisions or stereos to help you hear better. New and Improved Treatments Under Study Researchers are studying the causes of hearing loss as well as new treatments. For example, they are studying ways to improve hearing aids so that wearers can hear certain sounds more clearly even when a person is surrounded by background noise. They are also studying how to improve cochlear implants to enhance a person's ability to understand sounds. And they are conducting a study on twins aged 50 and over to determine the extent to which age-related hearing loss runs in families. |
genetic changes | What are the genetic changes related to nonsyndromic hearing loss ? | The causes of nonsyndromic hearing loss are complex. Researchers have identified more than 90 genes that, when altered, are associated with nonsyndromic hearing loss. Many of these genes are involved in the development and function of the inner ear. Mutations in these genes contribute to hearing loss by interfering with critical steps in processing sound. Different mutations in the same gene can be associated with different types of hearing loss, and some genes are associated with both syndromic and nonsyndromic forms. In many affected families, the factors contributing to hearing loss have not been identified. Most cases of nonsyndromic hearing loss are inherited in an autosomal recessive pattern. About half of all severe-to-profound autosomal recessive nonsyndromic hearing loss results from mutations in the GJB2 gene; these cases are designated DFNB1. The GJB2 gene provides instructions for making a protein called connexin 26, which is a member of the connexin protein family. Mutations in another connexin gene, GJB6, can also cause DFNB1. The GJB6 gene provides instructions for making a protein called connexin 30. Connexin proteins form channels called gap junctions, which allow communication between neighboring cells, including cells in the inner ear. Mutations in the GJB2 or GJB6 gene alter their respective connexin proteins, which changes the structure of gap junctions and may affect the function or survival of cells that are needed for hearing. The most common cause of moderate autosomal recessive nonsyndromic hearing loss is mutations in the STRC gene. These mutations cause a form of the condition known as DFNB16. Mutations in more than 60 other genes can also cause autosomal recessive nonsyndromic hearing loss. Many of these gene mutations have been found in one or a few families. Nonsyndromic hearing loss can also be inherited in an autosomal dominant pattern. Mutations in at least 30 genes have been identified in people with autosomal dominant nonsyndromic hearing loss; mutations in some of these genes (including GJB2 and GJB6) can also cause autosomal recessive forms of the condition. Although no single gene is associated with a majority of autosomal dominant nonsyndromic hearing loss cases, mutations in a few genes, such as KCNQ4 and TECTA, are relatively common. Mutations in many of the other genes associated with autosomal dominant nonsyndromic hearing loss have been found in only one or a few families. X-linked and mitochondrial forms of nonsyndromic hearing loss are rare. About half of all X-linked cases are caused by mutations in the POU3F4 gene. This form of the condition is designated DFNX2. Mutations in at least three other genes have also been identified in people with X-linked nonsyndromic hearing loss. Mitochondrial forms of hearing loss result from changes in mitochondrial DNA (mtDNA). Mitochondria are structures within cells that convert the energy from food into a form that cells can use. Although most DNA is packaged in chromosomes within the nucleus, mitochondria also have a small amount of their own DNA. Only a few mutations in mtDNA have been associated with hearing loss, and their role in the condition is still being studied. Mutations in some of the genes associated with nonsyndromic hearing loss can also cause syndromic forms of hearing loss, such as Usher syndrome (CDH23 and MYO7A, among others), Pendred syndrome (SLC26A4), Wolfram syndrome (WFS1), and Stickler syndrome (COL11A2). It is often unclear how mutations in the same gene can cause isolated hearing loss in some individuals and hearing loss with additional signs and symptoms in others. In addition to genetic changes, hearing loss can result from environmental factors or a combination of genetic risk and a person's environmental exposures. Environmental causes of hearing loss include certain medications, specific infections before or after birth, and exposure to loud noise over an extended period. Age is also a major risk factor for hearing loss. Age-related hearing loss (presbyacusis) is thought to have both genetic and environmental influences. |
symptoms | What are the symptoms of Pellagra like syndrome ? | What are the signs and symptoms of Pellagra like syndrome? The Human Phenotype Ontology provides the following list of signs and symptoms for Pellagra like syndrome. If the information is available, the table below includes how often the symptom is seen in people with this condition. You can use the MedlinePlus Medical Dictionary to look up the definitions for these medical terms. Signs and Symptoms Approximate number of patients (when available) Aminoaciduria 90% Dry skin 90% Nystagmus 90% Skin rash 90% Urticaria 90% Abnormality of movement 50% Cataract 50% Cognitive impairment 50% Diplopia 50% Muscular hypotonia 50% Neurological speech impairment 50% Reduced consciousness/confusion 50% Short stature 50% Ataxia - Autosomal recessive inheritance - Confusion - Dysarthria - The Human Phenotype Ontology (HPO) has collected information on how often a sign or symptom occurs in a condition. Much of this information comes from Orphanet, a European rare disease database. The frequency of a sign or symptom is usually listed as a rough estimate of the percentage of patients who have that feature. The frequency may also be listed as a fraction. The first number of the fraction is how many people had the symptom, and the second number is the total number of people who were examined in one study. For example, a frequency of 25/25 means that in a study of 25 people all patients were found to have that symptom. Because these frequencies are based on a specific study, the fractions may be different if another group of patients are examined. Sometimes, no information on frequency is available. In these cases, the sign or symptom may be rare or common. |
causes | What causes Rheumatoid Arthritis ? | Scientists believe that rheumatoid arthritis may result from the interaction of many factors such as genetics, hormones, and the environment. Although rheumatoid arthritis sometimes runs in families, the actual cause of rheumatoid arthritis is still unknown. Research suggests that a person's genetic makeup is an important part of the picture, but not the whole story. Some evidence shows that infectious agents, such as viruses and bacteria, may trigger rheumatoid arthritis in people with an inherited tendency to develop the disease. The exact agent or agents, however, are not yet known. It is important to note that rheumatoid arthritis is not contagious. A person cannot catch it from someone else. Learn more about the causes of rheumatoid arthritis. |
frequency | How many people are affected by glutaric acidemia type I ? | Glutaric acidemia type I occurs in approximately 1 of every 30,000 to 40,000 individuals. It is much more common in the Amish community and in the Ojibwa population of Canada, where up to 1 in 300 newborns may be affected. |
exams and tests | How to diagnose Amniotic band syndrome ? | How is amniotic band syndrome diagnosed? The earliest reported detection of an amniotic band is at 12 weeks gestation, by vaginal ultrasound. On ultrasound the bands appear as thin, mobile lines, which may be seen attached to or around the baby. However these bands may be difficult to detect by ultrasound, and are more often diagnosed by the results of the fusion, such as missing or deformed limbs. |
treatment | What are the treatments for Kniest dysplasia ? | These resources address the diagnosis or management of Kniest dysplasia: - Genetic Testing Registry: Kniest dysplasia - MedlinePlus Encyclopedia: Clubfoot - MedlinePlus Encyclopedia: Retinal Detachment - MedlinePlus Encyclopedia: Scoliosis These resources from MedlinePlus offer information about the diagnosis and management of various health conditions: - Diagnostic Tests - Drug Therapy - Surgery and Rehabilitation - Genetic Counseling - Palliative Care |
prevention | How to prevent Parasites - African Trypanosomiasis (also known as Sleeping Sickness) ? | There is no vaccine or drug for prophylaxis against African trypanosomiasis. Preventive measures are aimed at minimizing contact with tsetse flies. Local residents are usually aware of the areas that are heavily infested and they can provide advice about places to avoid. Other helpful measures include:
- Wear long-sleeved shirts and pants of medium-weight material in neutral colors that blend with the background environment. Tsetse flies are attracted to bright or dark colors, and they can bite through lightweight clothing.
- Inspect vehicles before entering. The flies are attracted to the motion and dust from moving vehicles.
- Avoid bushes. The tsetse fly is less active during the hottest part of the day but will bite if disturbed.
- Use insect repellent. Permethrin-impregnated clothing and insect repellent have not been proved to be particularly effective against tsetse flies, but they will prevent other insect bites that can cause illness.
Control of African trypanosomiasis rests on two strategies: reducing the disease reservoir and controlling the tsetse fly vector. Because humans are the significant disease reservoir for T. b. gambiense, the main control strategy for this subspecies is active case-finding through population screening, followed by treatment of the infected persons that are identified. Tsetse fly traps are sometimes used as an adjunct. Reducing the reservoir of infection is more difficult for T. b. rhodesiense, since there are a variety of animal hosts. Vector control is the primary strategy in use. This is usually done with traps or screens, in combination with insecticides and odors that attract the flies. |
information | What is (are) Alzheimer's Caregiving ? | Everyone needs help at times. However, many caregivers find it hard to ask for help. They may feel they should be able to do everything themselves, or that it's not all right to leave the person in their care with someone else. Or maybe they cant afford to pay someone to watch the person for an hour or two. Family members, friends, and community resources can help caregivers of people with Alzheimers disease. Here are some tips about asking for help. - It's okay to ask for help from family, friends, and others. You don't have to do everything yourself. - Ask people to help out in specific ways, like making a meal, visiting the person, or taking the person out for a short time. - Call for help from home health care or adult day care services when needed. - Use national and local resources to find out how to pay for some of this help. It's okay to ask for help from family, friends, and others. You don't have to do everything yourself. Ask people to help out in specific ways, like making a meal, visiting the person, or taking the person out for a short time. Call for help from home health care or adult day care services when needed. Use national and local resources to find out how to pay for some of this help. To learn where to get help in your community, contact - The Alzheimers Disease Education and Referral (ADEAR) Center, 1-800-438-4380 or www.nia.nih.gov/alzheimers - The Alzheimer's Association, 1-800-272-3900 or www.alz.org - The Eldercare Locator, 1-800-677-1116 or www.eldercare.gov. The Alzheimers Disease Education and Referral (ADEAR) Center, 1-800-438-4380 or www.nia.nih.gov/alzheimers The Alzheimer's Association, 1-800-272-3900 or www.alz.org The Eldercare Locator, 1-800-677-1116 or www.eldercare.gov. You can also contact your local area agency on aging. |
information | What is (are) Childhood Ependymoma ? | Key Points
- Childhood ependymoma is a disease in which malignant (cancer) cells form in the tissues of the brain and spinal cord. - There are different types of ependymomas. - The part of the brain that is affected depends on where the ependymoma forms. - The cause of most childhood brain tumors is unknown. - The signs and symptoms of childhood ependymoma are not the same in every child. - Tests that examine the brain and spinal cord are used to detect (find) childhood ependymoma. - Childhood ependymoma is diagnosed and removed in surgery. - Certain factors affect prognosis (chance of recovery) and treatment options.
Childhood ependymoma is a disease in which malignant (cancer) cells form in the tissues of the brain and spinal cord.
The brain controls vital functions such as memory and learning, emotion, and the senses (hearing, sight, smell, taste, and touch). The spinal cord is made up of bundles of nerve fibers that connect the brain with nerves in most parts of the body. Ependymomas form from ependymal cells that line the ventricles and passageways in the brain and the spinal cord. Ependymal cells make cerebrospinal fluid (CSF). This summary is about the treatment of primary brain tumors (tumors that begin in the brain). Treatment of metastatic brain tumors, which are tumors that begin in other parts of the body and spread to the brain, is not discussed in this summary. There are many different types of brain tumors. Brain tumors can occur in both children and adults. However, treatment for children is different than treatment for adults. See the following PDQ summaries for more information: - Childhood Brain and Spinal Cord Tumors Treatment Overview - Adult Central Nervous System Tumors Treatment
There are different types of ependymomas.
The World Health Organization (WHO) groups ependymal tumors into five main subtypes: - Subependymoma (WHO Grade I). - Myxopapillary ependymoma (WHO Grade I). - Ependymoma (WHO Grade II). - RELA fusionpositive ependymoma (WHO Grade II or Grade III with change in the RELA gene). - Anaplastic ependymoma (WHO Grade III). The grade of a tumor describes how abnormal the cancer cells look under a microscope and how quickly the tumor is likely to grow and spread. Low-grade (Grade I) cancer cells look more like normal cells than high-grade cancer cells (Grade II and III). They also tend to grow and spread more slowly than Grade II and III cancer cells.
The part of the brain that is affected depends on where the ependymoma forms.
Ependymomas can form anywhere in the fluid -filled ventricles and passageways in the brain and spinal cord. Most ependymomas form in the fourth ventricle and affect the cerebellum and the brain stem. Once an ependymoma forms, areas of the brain that may be affected include: - Cerebrum: The largest part of the brain, at the top of the head. The cerebrum controls thinking, learning, problem-solving, speech, emotions, reading, writing, and voluntary movement. - Cerebellum: The lower, back part of the brain (near the middle of the back of the head). The cerebellum controls movement, balance, and posture. - Brain stem: The part that connects the brain to the spinal cord, in the lowest part of the brain (just above the back of the neck). The brain stem controls breathing, heart rate, and the nerves and muscles used in seeing, hearing, walking, talking, and eating. - Spinal cord: The column of nerve tissue that runs from the brain stem down the center of the back. It is covered by three thin layers of tissue called membranes. The spinal cord and membranes are surrounded by the vertebrae (back bones). Spinal cord nerves carry messages between the brain and the rest of the body, such as a message from the brain to cause muscles to move or a message from the skin to the brain to feel touch. |
exams and tests | How to diagnose Rh Incompatibility ? | Rh incompatibility is diagnosed with blood tests. To find out whether a baby is developing hemolytic anemia and how serious it is, doctors may use more advanced tests, such as ultrasound.
Specialists Involved
An obstetrician will screen for Rh incompatibility. This is a doctor who specializes in treating pregnant women. The obstetrician also will monitor the pregnancy and the baby for problems related to hemolytic anemia. He or she also will oversee treatment to prevent problems with future pregnancies.
A pediatrician or hematologist treats newborns who have hemolytic anemia and related problems. A pediatrician is a doctor who specializes in treating children. A hematologist is a doctor who specializes in treating people who have blood diseases and disorders.
Diagnostic Tests
If you're pregnant, your doctor will order a simple blood test at your first prenatal visit to learn whether you're Rh-positive or Rh-negative.
If you're Rh-negative, you also may have another blood test called an antibody screen. This test shows whether you have Rh antibodies in your blood. If you do, it means that you were exposed to Rh-positive blood before and you're at risk for Rh incompatibility.
If you're Rh-negative and you don't have Rh antibodies, your baby's father also will be tested to find out his Rh type. If he's Rh-negative too, the baby has no chance of having Rh-positive blood. Thus, there's no risk of Rh incompatibility.
However, if the baby's father is Rh-positive, the baby has a 50 percent or more chance of having Rh-positive blood. As a result, you're at high risk of developing Rhincompatibility.
If your baby's father is Rh-positive, or if it's not possible to find out his Rh status, your doctor may do a test called amniocentesis.
For this test, your doctor inserts a hollow needle through your abdominal wall into your uterus. He or she removes a small amount of fluid from the sac around the baby. The fluid is tested to learn whether the baby is Rh-positive. (Rarely, an amniocentesis can expose you to Rh-positive blood).
Your doctor also may use this test to measure bilirubin levels in your baby. Bilirubin builds up as a result of red blood cells dying too quickly. The higher the level of bilirubin is, the greater the chance that the baby has hemolytic anemia.
If Rh incompatibility is known or suspected, you'll be tested for Rh antibodies one or more times during your pregnancy. This test often is done at least once at your sixth or seventh month of pregnancy.
The results from this test also can suggest how severe the baby's hemolytic anemia has become. Higher levels of antibodies suggest more severe hemolytic anemia.
To check your baby for hemolytic anemia, your doctor also may use a test called Doppler ultrasound. He or she will use this test to measure how fast blood is flowing through an artery in the baby's head.
Doppler ultrasound uses sound waves to measure how fast blood is moving. The faster the blood flow is, the greater the risk of hemolytic anemia. This is because the anemia will cause the baby's heart to pump more blood. |
information | What is (are) Hereditary cerebral hemorrhage with amyloidosis ? | Cerebral amyloid angiopathy (CAA) is a neurological condition in which amyloid protein is deposited onto the walls of the arteries of the brain (and less frequently, veins). Although CAA often does not cause symptoms, it may cause bleeding into the brain (hemorrhagic stroke), dementia, or neurologic episodes in some patients. The majority of CAA cases occur in individuals who do not have a family history. However, two familial forms of CAA have been identified. |
treatment | What are the treatments for Meesmann corneal dystrophy ? | How might Meesmann corneal dystrophy be treated? Treatment is usually not needed unless a person is experiencing symptoms. Most people only need lubricating eye drops. If symptoms are more severe, therapeutic contact lenses or cycloplegic eye drops may be used for severe sensitivity to light (photophobia). Hypertonic saline may be given if symptoms get worse when a person wakes up. Surgical procedures are sometimes tried when these treatments do not help, and may include epithelial debridement, or keratectomy. There is a high risk of recurrence with these procedures. Researchers are also evaluating a form of gene therapy called RNA interference (RNAi) which is also called therapeutic siRNA. This therapy may be able to silence the mutated gene that causes Meesman corneal dystrophy. |
information | What is (are) Fecal Incontinence ? | Fecal incontinence can cause embarrassment, fear, and loneliness. Taking steps to cope is important. The following tips can help:
- carrying a bag with cleanup supplies and a change of clothes when leaving the house. - finding public restrooms before one is needed. - using the toilet before leaving home. - wearing disposable underwear or absorbent pads inserted in the underwear. - using fecal deodorantspills that reduce the smell of stool and gas. Although fecal deodorants are available over the counter, a health care provider can help people find them.
Eating tends to trigger contractions of the large intestine that push stool toward the rectum and also cause the rectum to contract for 30 to 60 minutes. Both these events increase the likelihood that a person will pass gas and have a bowel movement soon after eating. This activity may increase if the person is anxious. People with fecal incontinence may want to avoid eating in restaurants or at social gatherings, or they may want to take antidiarrheal medications before eating in these situations.
Anal Discomfort The skin around the anus is delicate and sensitive. Constipation and diarrhea or contact between skin and stool can cause pain or itching. The following steps can help relieve anal discomfort: - Washing the anal area after a bowel movement. Washing with water, but not soap, can help prevent discomfort. Soap can dry out the skin, making discomfort worse. Ideally, the anal area should be washed in the shower with lukewarm water or in a sitz batha special plastic tub that allows a person to sit in a few inches of warm water. No-rinse skin cleansers, such as Cavilon, are a good alternative. Wiping with toilet paper further irritates the skin and should be avoided. Premoistened, alcohol-free towelettes are a better choice. - Keeping the anal area dry. The anal area should be allowed to air dry after washing. If time doesnt permit air drying, the anal area can be gently patted dry with a lint-free cloth. - Creating a moisture barrier. A moisture barrier cream that contains ingredients such as dimethiconea type of siliconecan help form a barrier between skin and stool. The anal area should be cleaned before applying barrier cream. However, people should talk with their health care provider before using anal creams and ointments because some can irritate the anus. - Using nonmedicated powders. Nonmedicated talcum powder or cornstarch can also relieve anal discomfort. As with moisture barrier creams, the anal area should be clean and dry before use. - Using wicking pads or disposable underwear. Pads and disposable underwear with a wicking layer can pull moisture away from the skin. - Wearing breathable clothes and underwear. Clothes and underwear should allow air to flow and keep skin dry. Tight clothes or plastic or rubber underwear that blocks air can worsen skin problems. - Changing soiled underwear as soon as possible. |
exams and tests | How to diagnose Non-involuting congenital hemangioma ? | How is non-involuting congenital hemangioma diagnosed? Non-involuting congenital hemangioma (NICH) is diagnosed by taking a biopsy of the skin mark and examining the tissue under a microscope. NICH looks different under the microscope than most infantile hemangiomas because the blood vessels are arranged more irregularly. Also, the cells in an NICH do not have glucose receptors, whereas the cells of almost all hemangiomas do have glucose receptors. Finally, NICH is different from more common types of hemangiomas because NICH does not spontaneously disappear (involute). Instead, NICH remains stable over time. |
inheritance | Is Bartter syndrome inherited ? | How is Bartter syndrome inherited? Bartter syndrome is inherited in an autosomal recessive manner, which means that both copies of the disease-causing gene (one inherited from each parent) have a mutation in an affected individual. Parents who each carry one mutated copy of the gene are referred to as carriers and typically do not have signs or symptoms of the condition. When two carriers for an autosomal recessive condition have children, each child has a 25% (1 in 4) risk to have the condition, a 50% (1 in 2) risk to be a carrier like each of the parents, and a 25% chance to not have the condition and not be a carrier. Click here to visit the Genetic Home Reference Web site and view an illustration that demonstrates autosomal recessive inheritance. |
information | What is (are) Gastritis ? | Gastritis is a condition in which the stomachliningknown as the mucosais inflamed, or swollen. The stomach lining contains glands that produce stomach acid and an enzyme called pepsin. The stomach acid breaks down food and pepsin digests protein. A thick layer of mucus coats the stomach lining and helps prevent the acidic digestive juice from dissolving the stomach tissue. When the stomach lining is inflamed, it produces less acid and fewer enzymes. However, the stomach lining also produces less mucus and other substances that normally protect the stomach lining from acidic digestive juice.
Gastritis may be acute or chronic:
- Acute gastritis starts suddenly and lasts for a short time. - Chronic gastritis is long lasting. If chronic gastritis is not treated, it may last for years or even a lifetime.
Gastritis can be erosive or nonerosive:
- Erosive gastritis can cause the stomach lining to wear away, causing erosionsshallow breaks in the stomach liningor ulcersdeep sores in the stomach lining. - Nonerosive gastritis causes inflammation in the stomach lining; however, erosions or ulcers do not accompany nonerosive gastritis.
A health care provider may refer a person with gastritis to a gastroenterologista doctor who specializes in digestive diseases. |
symptoms | What are the symptoms of Renal hypouricemia ? | What are the signs and symptoms of Renal hypouricemia? The Human Phenotype Ontology provides the following list of signs and symptoms for Renal hypouricemia. If the information is available, the table below includes how often the symptom is seen in people with this condition. You can use the MedlinePlus Medical Dictionary to look up the definitions for these medical terms. Signs and Symptoms Approximate number of patients (when available) Acute kidney injury - Autosomal recessive inheritance - Hypouricemia - Increased urinary urate - Uric acid nephrolithiasis - The Human Phenotype Ontology (HPO) has collected information on how often a sign or symptom occurs in a condition. Much of this information comes from Orphanet, a European rare disease database. The frequency of a sign or symptom is usually listed as a rough estimate of the percentage of patients who have that feature. The frequency may also be listed as a fraction. The first number of the fraction is how many people had the symptom, and the second number is the total number of people who were examined in one study. For example, a frequency of 25/25 means that in a study of 25 people all patients were found to have that symptom. Because these frequencies are based on a specific study, the fractions may be different if another group of patients are examined. Sometimes, no information on frequency is available. In these cases, the sign or symptom may be rare or common. |
research | what research (or clinical trials) is being done for Meralgia Paresthetica ? | Within the NINDS research programs, meralgia paresthetica is addressed primarily through studies associated with pain research. NINDS vigorously pursues a research program seeking new treatments for pain and nerve damage with the ultimate goal of reversing these debilitating conditions. |
genetic changes | What are the genetic changes related to Kuskokwim syndrome ? | Kuskokwim syndrome is caused by mutations in the FKBP10 gene, which provides instructions for making the FKBP10 protein (formerly known as FKBP65). This protein is important for the correct processing of complex molecules called collagens, which provide structure and strength to connective tissues that support the body's bones, joints, and organs. Collagen molecules are cross-linked to one another to form long, thin fibrils, which are found in the spaces around cells (the extracellular matrix). The formation of cross-links results in very strong collagen fibrils. The FKBP10 protein attaches to collagens and plays a role in their cross-linking. A mutation in the FKBP10 gene alters the FKBP10 protein, making it unstable and easily broken down. As a result, people with Kuskokwim syndrome have only about 5 percent of the normal amount of FKBP10 protein. This reduction in protein levels impairs collagen cross-linking and leads to a disorganized network of collagen molecules. It is unclear how these changes in the collagen matrix are involved in the development of joint contractures and other abnormalities in people with Kuskokwim syndrome. |
stages | What are the stages of Adult Primary Liver Cancer ? | Key Points
- After adult primary liver cancer has been diagnosed, tests are done to find out if cancer cells have spread within the liver or to other parts of the body. - There are three ways that cancer spreads in the body. - Cancer may spread from where it began to other parts of the body. - The Barcelona Clinic Liver Cancer Staging System may be used to stage adult primary liver cancer. - The following groups are used to plan treatment. - BCLC stages 0, A, and B - BCLC stages C and D
After adult primary liver cancer has been diagnosed, tests are done to find out if cancer cells have spread within the liver or to other parts of the body.
The process used to find out if cancer has spread within the liver or to other parts of the body is called staging. The information gathered from the staging process determines the stage of the disease. It is important to know the stage in order to plan treatment. The following tests and procedures may be used in the staging process: - CT scan (CAT scan): A procedure that makes a series of detailed pictures of areas inside the body, such as the chest, abdomen, and pelvis, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography. - MRI (magnetic resonance imaging): A procedure that uses a magnet, radio waves, and a computer to make a series of detailed pictures of areas inside the body. This procedure is also called nuclear magnetic resonance imaging (NMRI). - PET scan (positron emission tomography scan): A procedure to find malignant tumor cells in the body. A small amount of radioactive glucose (sugar) is injected into a vein. The PET scanner rotates around the body and makes a picture of where glucose is being used in the body. Malignant tumor cells show up brighter in the picture because they are more active and take up more glucose than normal cells do.
There are three ways that cancer spreads in the body.
Cancer can spread through tissue, the lymph system, and the blood: - Tissue. The cancer spreads from where it began by growing into nearby areas. - Lymph system. The cancer spreads from where it began by getting into the lymph system. The cancer travels through the lymph vessels to other parts of the body. - Blood. The cancer spreads from where it began by getting into the blood. The cancer travels through the blood vessels to other parts of the body.
Cancer may spread from where it began to other parts of the body.
When cancer spreads to another part of the body, it is called metastasis. Cancer cells break away from where they began (the primary tumor) and travel through the lymph system or blood. - Lymph system. The cancer gets into the lymph system, travels through the lymph vessels, and forms a tumor (metastatic tumor) in another part of the body. - Blood. The cancer gets into the blood, travels through the blood vessels, and forms a tumor (metastatic tumor) in another part of the body. The metastatic tumor is the same type of cancer as the primary tumor. For example, if primary liver cancer spreads to the lung, the cancer cells in the lung are actually liver cancer cells. The disease is metastatic liver cancer, not lung cancer.
The Barcelona Clinic Liver Cancer Staging System may be used to stage adult primary liver cancer.
There are several staging systems for liver cancer. The Barcelona Clinic Liver Cancer (BCLC) Staging System is widely used and is described below. This system is used to predict the patient's chance of recovery and to plan treatment, based on the following: - Whether the cancer has spread within the liver or to other parts of the body. - How well the liver is working. - The general health and wellness of the patient. - The symptoms caused by the cancer. The BCLC staging system has five stages: - Stage 0: Very early - Stage A: Early - Stage B: Intermediate - Stage C: Advanced - Stage D: End-stage
The following groups are used to plan treatment.
BCLC stages 0, A, and B Treatment to cure the cancer is given for BCLC stages 0, A, and B. BCLC stages C and D Treatment to relieve the symptoms caused by liver cancer and improve the patient's quality of life is given for BCLC stages C and D. Treatments are not likely to cure the cancer. |
treatment | What are the treatments for Blau syndrome ? | These resources address the diagnosis or management of Blau syndrome: - Genetic Testing Registry: Blau syndrome - Genetic Testing Registry: Sarcoidosis, early-onset - Merck Manual Consumer Version: Overview of Dermatitis - Merck Manual Consumer Version: Uveitis These resources from MedlinePlus offer information about the diagnosis and management of various health conditions: - Diagnostic Tests - Drug Therapy - Surgery and Rehabilitation - Genetic Counseling - Palliative Care |
information | What is (are) Hereditary endotheliopathy, retinopathy, nephropathy, and stroke ? | Hereditary endotheliopathy with retinopathy, nephropathy, and stroke (HERNS) is a rare genetic condition that affects the vascular endothelium (the inner lining of the arteries and blood vessels). Specifically, the small blood vessels of the brain (microangiopathy); retina (vascular retinopathy); and kidneys are affected. Signs and symptoms may include progressive adult onset vision loss, psychiatric disturbances, stroke-like episodes, neurologic decline, and kidney disease. HERNS is inherited in an autosomal dominant manner. The term retinal vasculopathy with cerebral leukodystrophy (RVCL) has recently been adopted to include HERNS; cerebroretinal vasculopathy (CRV); and hereditary vascular retinopathy (HVR); historically, these 3 conditions have been considered distinct. Genetic studies have shown that these 3 conditions are likely variations of RVCL and are caused by mutations in the TREX1 gene. |
genetic changes | What are the genetic changes related to fibrodysplasia ossificans progressiva ? | Mutations in the ACVR1 gene cause fibrodysplasia ossificans progressiva. The ACVR1 gene provides instructions for producing a member of a protein family called bone morphogenetic protein (BMP) type I receptors. The ACVR1 protein is found in many tissues of the body including skeletal muscle and cartilage. It helps to control the growth and development of the bones and muscles, including the gradual replacement of cartilage by bone (ossification) that occurs in normal skeletal maturation from birth to young adulthood. Researchers believe that a mutation in the ACVR1 gene may change the shape of the receptor under certain conditions and disrupt mechanisms that control the receptor's activity. As a result, the receptor may be constantly turned on (constitutive activation). Constitutive activation of the receptor causes overgrowth of bone and cartilage and fusion of joints, resulting in the signs and symptoms of fibrodysplasia ossificans progressiva. |
information | What is (are) cerebrotendinous xanthomatosis ? | Cerebrotendinous xanthomatosis is a fat (lipid) storage disorder that affects many areas of the body. People with this disorder cannot break down certain lipids effectively, specifically different forms of cholesterol, so these fats accumulate in various areas of the body. Xanthomatosis refers to the formation of fatty yellow nodules (xanthomas). Cerebrotendinous refers to the typical locations of the xanthomas (cerebro- meaning the brain and -tendinous meaning connective tissue called tendons that attach muscle to bone). Other features of cerebrotendinous xanthomatosis include chronic diarrhea during infancy, clouding of the lens of the eye (cataracts) developing in late childhood, progressively brittle bones that are prone to fracture, and neurological problems in adulthood, such as dementia, seizures, hallucinations, depression, and difficulty with coordinating movements (ataxia) and speech (dysarthria). The neurological symptoms are thought to be caused by an accumulation of fats and an increasing number of xanthomas in the brain. Xanthomas can also accumulate in the fatty substance that insulates and protects nerves (myelin), disrupting nerve signaling in the brain. Disorders that involve the destruction of myelin are known as leukodystrophies. Degeneration (atrophy) of brain tissue caused by excess lipid deposits also contributes to the neurological problems. Xanthomas in the tendons (most commonly in the Achilles tendon, which connects the heel of the foot to the calf muscles) begin to form in early adulthood. Tendon xanthomas may cause discomfort and interfere with tendon flexibility. People with cerebrotendinous xanthomatosis are also at an increased risk of developing cardiovascular disease. If untreated, the signs and symptoms related to the accumulation of lipids throughout the body worsen over time; however, the course of this condition varies greatly among those who are affected. |
symptoms | What are the symptoms of Ichthyosis, acquired ? | What are the signs and symptoms of Ichthyosis, acquired? The Human Phenotype Ontology provides the following list of signs and symptoms for Ichthyosis, acquired. If the information is available, the table below includes how often the symptom is seen in people with this condition. You can use the MedlinePlus Medical Dictionary to look up the definitions for these medical terms. Signs and Symptoms Approximate number of patients (when available) Dry skin 90% Ichthyosis 90% Pruritus 90% Immunologic hypersensitivity 50% Palmoplantar keratoderma 50% Skin ulcer 50% Autoimmunity 7.5% Lymphoma 7.5% Multiple myeloma 7.5% Renal insufficiency 7.5% Sarcoma 7.5% The Human Phenotype Ontology (HPO) has collected information on how often a sign or symptom occurs in a condition. Much of this information comes from Orphanet, a European rare disease database. The frequency of a sign or symptom is usually listed as a rough estimate of the percentage of patients who have that feature. The frequency may also be listed as a fraction. The first number of the fraction is how many people had the symptom, and the second number is the total number of people who were examined in one study. For example, a frequency of 25/25 means that in a study of 25 people all patients were found to have that symptom. Because these frequencies are based on a specific study, the fractions may be different if another group of patients are examined. Sometimes, no information on frequency is available. In these cases, the sign or symptom may be rare or common. |
symptoms | What are the symptoms of Rhabdomyosarcoma alveolar ? | What are the signs and symptoms of Rhabdomyosarcoma alveolar? The Human Phenotype Ontology provides the following list of signs and symptoms for Rhabdomyosarcoma alveolar. If the information is available, the table below includes how often the symptom is seen in people with this condition. You can use the MedlinePlus Medical Dictionary to look up the definitions for these medical terms. Signs and Symptoms Approximate number of patients (when available) Alveolar rhabdomyosarcoma - Autosomal recessive inheritance - The Human Phenotype Ontology (HPO) has collected information on how often a sign or symptom occurs in a condition. Much of this information comes from Orphanet, a European rare disease database. The frequency of a sign or symptom is usually listed as a rough estimate of the percentage of patients who have that feature. The frequency may also be listed as a fraction. The first number of the fraction is how many people had the symptom, and the second number is the total number of people who were examined in one study. For example, a frequency of 25/25 means that in a study of 25 people all patients were found to have that symptom. Because these frequencies are based on a specific study, the fractions may be different if another group of patients are examined. Sometimes, no information on frequency is available. In these cases, the sign or symptom may be rare or common. |
information | What is (are) Peters plus syndrome ? | Peters plus syndrome is an inherited condition that is characterized by eye abnormalities, short stature, an opening in the lip (cleft lip) with or without an opening in the roof of the mouth (cleft palate), distinctive facial features, and intellectual disability. The eye problems in Peters plus syndrome occur in an area at the front part of the eye known as the anterior segment. The anterior segment consists of structures including the lens, the colored part of the eye (iris), and the clear covering of the eye (cornea). An eye problem called Peters anomaly is the most common anterior segment abnormality seen in Peters plus syndrome. Peters anomaly involves abnormal development of the anterior segment, which results in a cornea that is cloudy (opaque) and causes blurred vision. Peters anomaly may also be associated with clouding of the lenses of the eyes (cataracts) or other lens abnormalities. Peters anomaly is usually bilateral, which means that it affects both eyes. The severity of corneal clouding and other eye problems can vary between individuals with Peters plus syndrome, even among members of the same family. Many people with Peters plus syndrome experience vision loss that worsens over time. All people with Peters plus syndrome have short stature, which is evident before birth. The height of adult males with this condition ranges from 141 centimeters to 155 centimeters (4 feet, 7 inches to 5 feet, 1 inch), and the height of adult females ranges from 128 centimeters to 151 centimeters (4 feet, 2 inches to 4 feet, 11 inches). Individuals with Peters plus syndrome also have shortened upper limbs (rhizomelia) and shortened fingers and toes (brachydactyly). The characteristic facial features of Peters plus syndrome include a prominent forehead; small, malformed ears; narrow eyes; a long area between the nose and mouth (philtrum); and a pronounced double curve of the upper lip (Cupid's bow). The neck may also be broad and webbed. A cleft lip with or without a cleft palate is present in about half of the people with this condition. Developmental milestones, such as walking and speech, are delayed in most children with Peters plus syndrome. Most affected individuals also have intellectual disability that can range from mild to severe, although some have normal intelligence. The severity of physical features does not predict the level of intellectual disability. Less common signs and symptoms of Peters plus syndrome include heart defects, structural brain abnormalities, hearing loss, and kidney or genital abnormalities. |
outlook | What is the outlook for Microcephaly ? | Some children with microcephaly will have normal intelligence and a head that will grow bigger, but they may track below the normal growth curves for head circumference. Some children may have only mild disability, while those with more severe cases may face significant learning disabilities, cognitive delays, or develop other neurological disorders. Many, if not most, cases if Zika microcephaly will be very severe, possibly requiring lifelong intensive care. |
causes | What causes Acromegaly ? | Acromegaly is caused by prolonged overproduction of GH by the pituitary gland. The pituitary produces several important hormones that control body functions such as growth and development, reproduction, and metabolism. But hormones never seem to act simply and directly. They usually "cascade" or flow in a series, affecting each other's production or release into the bloodstream.
GH is part of a cascade of hormones that, as the name implies, regulates the physical growth of the body. This cascade begins in a part of the brain called the hypothalamus. The hypothalamus makes hormones that regulate the pituitary. One of the hormones in the GH series, or "axis," is growth hormone-releasing hormone (GHRH), which stimulates the pituitary gland to produce GH.
Secretion of GH by the pituitary into the bloodstream stimulates the liver to produce another hormone called insulin-like growth factor I (IGF-I). IGF-I is what actually causes tissue growth in the body. High levels of IGF-I, in turn, signal the pituitary to reduce GH production.
The hypothalamus makes another hormone called somatostatin, which inhibits GH production and release. Normally, GHRH, somatostatin, GH, and IGF-I levels in the body are tightly regulated by each other and by sleep, exercise, stress, food intake, and blood sugar levels. If the pituitary continues to make GH independent of the normal regulatory mechanisms, the level of IGF-I continues to rise, leading to bone overgrowth and organ enlargement. High levels of IGF-I also cause changes in glucose (sugar) and lipid (fat) metabolism and can lead to diabetes, high blood pressure, and heart disease.
Pituitary Tumors
In more than 95 percent of people with acromegaly, a benign tumor of the pituitary gland, called an adenoma, produces excess GH. Pituitary tumors are labeled either micro- or macro-adenomas, depending on their size. Most GH-secreting tumors are macro-adenomas, meaning they are larger than 1 centimeter. Depending on their location, these larger tumors may compress surrounding brain structures. For example, a tumor growing upward may affect the optic chiasm-where the optic nerves crossleading to visual problems and vision loss. If the tumor grows to the side, it may enter an area of the brain called the cavernous sinus where there are many nerves, potentially damaging them.
Compression of the surrounding normal pituitary tissue can alter production of other hormones. These hormonal shifts can lead to changes in menstruation and breast discharge in women and erectile dysfunction in men. If the tumor affects the part of the pituitary that controls the thyroidanother hormone-producing glandthen thyroid hormones may decrease. Too little thyroid hormone can cause weight gain, fatigue, and hair and skin changes. If the tumor affects the part of the pituitary that controls the adrenal gland, the hormone cortisol may decrease. Too little cortisol can cause weight loss, dizziness, fatigue, low blood pressure, and nausea.
Some GH-secreting tumors may also secrete too much of other pituitary hormones. For example, they may produce prolactin, the hormone that stimulates the mammary glands to produce milk. Rarely, adenomas may produce thyroid-stimulating hormone. Doctors should assess all pituitary hormones in people with acromegaly.
Rates of GH production and the aggressiveness of the tumor vary greatly among people with adenomas. Some adenomas grow slowly and symptoms of GH excess are often not noticed for many years. Other adenomas grow more rapidly and invade surrounding brain areas or the venous sinuses, which are located near the pituitary gland. Younger patients tend to have more aggressive tumors. Regardless of size, these tumors are always benign.
Most pituitary tumors develop spontaneously and are not genetically inherited. They are the result of a genetic alteration in a single pituitary cell, which leads to increased cell division and tumor formation. This genetic change, or mutation, is not present at birth, but happens later in life. The mutation occurs in a gene that regulates the transmission of chemical signals within pituitary cells. It permanently switches on the signal that tells the cell to divide and secrete GH. The events within the cell that cause disordered pituitary cell growth and GH oversecretion currently are the subject of intensive research.
Nonpituitary Tumors
Rarely, acromegaly is caused not by pituitary tumors but by tumors of the pancreas, lungs, and other parts of the brain. These tumors also lead to excess GH, either because they produce GH themselves or, more frequently, because they produce GHRH, the hormone that stimulates the pituitary to make GH. When these non-pituitary tumors are surgically removed, GH levels fall and the symptoms of acromegaly improve.
In patients with GHRH-producing, non-pituitary tumors, the pituitary still may be enlarged and may be mistaken for a tumor. Physicians should carefully analyze all "pituitary tumors" removed from patients with acromegaly so they do not overlook the rare possibility that a tumor elsewhere in the body is causing the disorder. |
symptoms | What are the symptoms of Neuropathy, congenital, with arthrogryposis multiplex ? | What are the signs and symptoms of Neuropathy, congenital, with arthrogryposis multiplex? The Human Phenotype Ontology provides the following list of signs and symptoms for Neuropathy, congenital, with arthrogryposis multiplex. If the information is available, the table below includes how often the symptom is seen in people with this condition. You can use the MedlinePlus Medical Dictionary to look up the definitions for these medical terms. Signs and Symptoms Approximate number of patients (when available) Areflexia of lower limbs - Autosomal dominant inheritance - Babinski sign - Broad-based gait - Calcaneovalgus deformity - Congenital onset - Congenital peripheral neuropathy - Distal amyotrophy - Distal muscle weakness - Hyperlordosis - Hyporeflexia of lower limbs - Nonprogressive - The Human Phenotype Ontology (HPO) has collected information on how often a sign or symptom occurs in a condition. Much of this information comes from Orphanet, a European rare disease database. The frequency of a sign or symptom is usually listed as a rough estimate of the percentage of patients who have that feature. The frequency may also be listed as a fraction. The first number of the fraction is how many people had the symptom, and the second number is the total number of people who were examined in one study. For example, a frequency of 25/25 means that in a study of 25 people all patients were found to have that symptom. Because these frequencies are based on a specific study, the fractions may be different if another group of patients are examined. Sometimes, no information on frequency is available. In these cases, the sign or symptom may be rare or common. |
treatment | What are the treatments for Congenital Myopathy ? | Currently, only central core disease has an effective treatment (see above). There are no known cures for any of these disorders. Supportive treatment may involve orthopedic treatments, as well as physical, occupational or speech therapy. |
information | What is (are) Acquired pure red cell aplasia ? | Acquired pure red cell aplasia (PRCA) is a bone marrow disorder characterized by a reduction of red blood cells (erythrocytes) produced by the bone marrow. Signs and symptoms may include fatigue, lethargy, and/or abnormal paleness of the skin (pallor) due to the anemia the caused by the disorder. In most cases, the cause of acquired PRCA is unknown (idiopathic). In other cases it may occur secondary to autoimmune disorders, tumors of the thymus gland (thymomas), hematologic cancers, solid tumors, viral infections, or certain drugs. Treatment depends on the cause of the condition (if known) but often includes transfusions for individuals who are severely anemic and have cardiorespiratory failure. |
information | What is (are) Schwartz-Jampel syndrome ? | Schwartz-Jampel syndrome is a rare condition characterized by permanent muscle stiffness (myotonia) and bone abnormalities known as chondrodysplasia. The signs and symptoms of this condition become apparent sometime after birth, usually in early childhood. Either muscle stiffness or chondrodysplasia can appear first. The muscle and bone abnormalities worsen in childhood, although most affected individuals have a normal lifespan. The specific features of Schwartz-Jampel syndrome vary widely. Myotonia involves continuous tensing (contraction) of muscles used for movement (skeletal muscles) throughout the body. This sustained muscle contraction causes stiffness that interferes with eating, sitting, walking, and other movements. Sustained contraction of muscles in the face leads to a fixed, "mask-like" facial expression with narrow eye openings (blepharophimosis) and pursed lips. This facial appearance is very specific to Schwartz-Jampel syndrome. Affected individuals may also be nearsighted and experience abnormal blinking or spasms of the eyelids (blepharospasm). Chondrodysplasia affects the development of the skeleton, particularly the long bones in the arms and legs and the bones of the hips. These bones are shortened and unusually wide at the ends, so affected individuals have short stature. The long bones may also be abnormally curved (bowed). Other bone abnormalities associated with Schwartz-Jampel syndrome include a protruding chest (pectus carinatum), abnormal curvature of the spine, flattened bones of the spine (platyspondyly), and joint abnormalities called contractures that further restrict movement. Researchers originally described two types of Schwartz-Jampel syndrome. Type 1 has the signs and symptoms described above, while type 2 has more severe bone abnormalities and other health problems and is usually life-threatening in early infancy. Researchers have since discovered that the condition they thought was Schwartz-Jampel syndrome type 2 is actually part of another disorder, Stve-Wiedemann syndrome, which is caused by mutations in a different gene. They have recommended that the designation Schwartz-Jampel syndrome type 2 no longer be used. |
treatment | What are the treatments for Alternating Hemiplegia ? | Drug therapy including verapamil may help to reduce the severity and duration of attacks of paralysis associated with the more serious form of alternating hemiplegia |
stages | What are the stages of Renal Cell Cancer ? | Key Points
- After renal cell cancer has been diagnosed, tests are done to find out if cancer cells have spread within the kidney or to other parts of the body. - There are three ways that cancer spreads in the body. - Cancer may spread from where it began to other parts of the body. - The following stages are used for renal cell cancer: - Stage I - Stage II - Stage III - Stage IV
After renal cell cancer has been diagnosed, tests are done to find out if cancer cells have spread within the kidney or to other parts of the body.
The process used to find out if cancer has spread within the kidney or to other parts of the body is called staging. The information gathered from the staging process determines the stage of the disease. It is important to know the stage in order to plan treatment. The following tests and procedures may be used in the staging process: - CT scan (CAT scan): A procedure that makes a series of detailed pictures of areas inside the body, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography. - MRI (magnetic resonance imaging): A procedure that uses a magnet, radio waves, and a computer to make a series of detailed pictures of areas inside the body. This procedure is also called nuclear magnetic resonance imaging (NMRI). - Chest x-ray : An x-ray of the organs and bones inside the chest. An x-ray is a type of energy beam that can go through the body and onto film, making a picture of areas inside the body.
There are three ways that cancer spreads in the body.
Cancer can spread through tissue, the lymph system, and the blood: - Tissue. The cancer spreads from where it began by growing into nearby areas. - Lymph system. The cancer spreads from where it began by getting into the lymph system. The cancer travels through the lymph vessels to other parts of the body. - Blood. The cancer spreads from where it began by getting into the blood. The cancer travels through the blood vessels to other parts of the body.
Cancer may spread from where it began to other parts of the body.
When cancer spreads to another part of the body, it is called metastasis. Cancer cells break away from where they began (the primary tumor) and travel through the lymph system or blood. - Lymph system. The cancer gets into the lymph system, travels through the lymph vessels, and forms a tumor (metastatic tumor) in another part of the body. - Blood. The cancer gets into the blood, travels through the blood vessels, and forms a tumor (metastatic tumor) in another part of the body. The metastatic tumor is the same type of cancer as the primary tumor. For example, if renal cell cancer spreads to the bone, the cancer cells in the bone are actually cancerous renal cells. The disease is metastatic renal cell cancer, not bone cancer.
The following stages are used for renal cell cancer:
Stage I In stage I, the tumor is 7 centimeters or smaller and is found only in the kidney. Stage II In stage II, the tumor is larger than 7 centimeters and is found only in the kidney. Stage III In stage III: - the tumor is any size and cancer is found only in the kidney and in 1 or more nearby lymph nodes; or - cancer is found in the main blood vessels of the kidney or in the layer of fatty tissue around the kidney. Cancer may be found in 1 or more nearby lymph nodes. Stage IV In stage IV, cancer has spread: - beyond the layer of fatty tissue around the kidney and may be found in the adrenal gland above the kidney with cancer, or in nearby lymph nodes; or - to other organs, such as the lungs, liver, bones, or brain, and may have spread to lymph nodes. |
treatment | What are the treatments for Carpenter syndrome ? | These resources address the diagnosis or management of Carpenter syndrome: - Genetic Testing Registry: Carpenter syndrome 1 - Genetic Testing Registry: Carpenter syndrome 2 - Great Ormond Street Hospital for Children (UK): Craniosynostosis Information - Johns Hopkins Medicine: Craniosynostosis Treatment Options - MedlinePlus Encyclopedia: Craniosynostosis Repair - MedlinePlus Encyclopedia: Dextrocardia These resources from MedlinePlus offer information about the diagnosis and management of various health conditions: - Diagnostic Tests - Drug Therapy - Surgery and Rehabilitation - Genetic Counseling - Palliative Care |
information | What is (are) Colorectal Cancer ? | Various drugs are under study as possible treatments for colorectal cancer. A 2005 study found that patients who took the drug AvastinTM with their standard chemotherapy treatment had a longer progression-free survival than those who did not take Avastin, but the evidence is mixed on whether or not Avastin can extend life. (The generic name for Avastin is bevacizumab.) Scientists are also working on vaccine therapies and monoclonal antibodies that may improve how patients' immune systems respond to colorectal cancers. Monoclonal antibodies are a single type of antibody that researchers make in large amounts in a laboratory. |
genetic changes | What are the genetic changes related to hereditary sensory and autonomic neuropathy type II ? | There are two types of HSAN2, called HSAN2A and HSAN2B, each caused by mutations in a different gene. HSAN2A is caused by mutations in the WNK1 gene, and HSAN2B is caused by mutations in the FAM134B gene. Although two different genes are involved, the signs and symptoms of HSAN2A and HSAN2B are the same. The WNK1 gene provides instructions for making multiple versions (isoforms) of the WNK1 protein. HSAN2A is caused by mutations that affect a particular isoform called the WNK1/HSN2 protein. This protein is found in the cells of the nervous system, including nerve cells that transmit the sensations of pain, temperature, and touch (sensory neurons). The mutations involved in HSAN2A result in an abnormally short WNK1/HSN2 protein. Although the function of this protein is unknown, it is likely that the abnormally short version cannot function properly. People with HSAN2A have a reduction in the number of sensory neurons; however, the role that WNK1/HSN2 mutations play in that loss is unclear. HSAN2B is caused by mutations in the FAM134B gene. These mutations may lead to an abnormally short and nonfunctional protein. The FAM134B protein is found in sensory and autonomic neurons. It is involved in the survival of neurons, particularly those that transmit pain signals, which are called nociceptive neurons. When the FAM134B protein is nonfunctional, neurons die by a process of self-destruction called apoptosis. The loss of neurons leads to the inability to feel pain, temperature, and touch sensations and to the impairment of the autonomic nervous system seen in people with HSAN2. |
research | what research (or clinical trials) is being done for Childhood Astrocytomas ? | New types of treatment are being tested in clinical trials.
This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI website. Other drug therapy Lenalidomide is a type of angiogenesis inhibitor. It prevents the growth of new blood vessels that are needed by a tumor to grow.
Patients may want to think about taking part in a clinical trial.
For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment. Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment. Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward.
Patients can enter clinical trials before, during, or after starting their cancer treatment.
Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment. Clinical trials are taking place in many parts of the country. See the Treatment Options section that follows for links to current treatment clinical trials. These have been retrieved from NCI's listing of clinical trials. |
causes | What causes Childhood Interstitial Lung Disease ? | Researchers don't yet know all of the causes of childhood interstitial lung disease (chILD). Many times, these diseases have no clear cause.
Some conditions and factors that may cause or lead to chILD include:
Inherited conditions, such as surfactant disorders. Surfactant is a liquid that coats the inside of the lungs. It helps with breathing and may help protect the lungs from bacterial and viral infections.
Birth defects that cause problems with the structure or function of the lungs.
Aspiration (as-pih-RA-shun). This term refers to inhaling substancessuch as food, liquid, or vomitinto the lungs. Inhaling these substances can injure the lungs. Aspiration may occur in children who have swallowing problems or gastroesophageal (GAS-tro-eh-so-fa-JE-al) reflux disease (GERD). GERD occurs if acid from the stomach backs up into the throat.
Immune system disorders. The immune system protects the body against bacteria, viruses, and toxins. Children who have immune system disorders aren't able to fight illness and disease as well as children who have healthy immune systems.
Exposure to substances in the environment that can irritate the lungs, such as molds and chemicals.
Some cancer treatments, such as radiation and chemotherapy.
Systemic or autoimmune diseases, such as collagen vascular disease or inflammatory bowel disease. Systemic diseases are diseases that involve many of the body's organs. Autoimmune diseases occur if the body's immune system mistakenly attacks the body's tissues and cells.
A bone marrow transplant or a lung transplant. |
information | What is (are) Coffin-Lowry syndrome ? | Coffin-Lowry syndrome is a condition that affects many parts of the body. The signs and symptoms are usually more severe in males than in females, although the features of this disorder range from very mild to severe in affected women. Males with Coffin-Lowry syndrome typically have severe to profound intellectual disability and delayed development. Affected women may be cognitively normal, or they may have intellectual disability ranging from mild to profound. Beginning in childhood or adolescence, some people with this condition experience brief episodes of collapse when excited or startled by a loud noise. These attacks are called stimulus-induced drop episodes (SIDEs). Most affected males and some affected females have distinctive facial features including a prominent forehead, widely spaced and downward-slanting eyes, a short nose with a wide tip, and a wide mouth with full lips. These features become more pronounced with age. Soft hands with short, tapered fingers are also characteristic of Coffin-Lowry syndrome. Additional features of this condition include short stature, an unusually small head (microcephaly), progressive abnormal curvature of the spine (kyphoscoliosis), and other skeletal abnormalities. |
frequency | How many people are affected by oculopharyngeal muscular dystrophy ? | In Europe, the prevalence of oculopharyngeal muscular dystrophy is estimated to be 1 in 100,000 people. The autosomal dominant form of this condition is much more common in the French-Canadian population of the Canadian province of Quebec, where it is estimated to affect 1 in 1,000 individuals. Autosomal dominant oculopharyngeal muscular dystrophy is also seen more frequently in the Bukharan (Central Asian) Jewish population of Israel, affecting 1 in 600 people. The autosomal recessive form of this condition is very rare; only a few cases of autosomal recessive oculopharyngeal muscular dystrophy have been identified. |
information | Do you have information about Health Occupations | Summary : Every day, around the clock, people who work in the health care industry provide care for millions of people, from newborns to the very ill. In fact, the health care industry is one of largest providers of jobs in the United States. Many health jobs are in hospitals. Others are in nursing homes, doctors' offices, dentists' offices, outpatient clinics and laboratories. To work in a health occupation, you often must have special training. Some, like doctors, must have more than 4 years of college. Bureau of Labor Statistics |
genetic changes | What are the genetic changes related to Chanarin-Dorfman syndrome ? | Mutations in the ABHD5 gene cause Chanarin-Dorfman syndrome. The ABHD5 gene provides instructions for making a protein that turns on (activates) the ATGL enzyme, which breaks down triglycerides. Triglycerides are the main source of stored energy in cells. These fats must be broken down into simpler molecules called fatty acids before they can be used for energy. ABHD5 gene mutations impair the protein's ability to activate the ATGL enzyme. An inactive enzyme makes the breakdown of triglycerides impossible, causing them to accumulate in tissues throughout the body. The buildup of triglycerides results in the signs and symptoms of Chanarin-Dorfman syndrome. |
symptoms | What are the symptoms of Congenital lipoid adrenal hyperplasia ? | What are the signs and symptoms of Congenital lipoid adrenal hyperplasia? The Human Phenotype Ontology provides the following list of signs and symptoms for Congenital lipoid adrenal hyperplasia. If the information is available, the table below includes how often the symptom is seen in people with this condition. You can use the MedlinePlus Medical Dictionary to look up the definitions for these medical terms. Signs and Symptoms Approximate number of patients (when available) Adrenogenital syndrome - Autosomal recessive inheritance - Congenital adrenal hyperplasia - Hypospadias - Renal salt wasting - The Human Phenotype Ontology (HPO) has collected information on how often a sign or symptom occurs in a condition. Much of this information comes from Orphanet, a European rare disease database. The frequency of a sign or symptom is usually listed as a rough estimate of the percentage of patients who have that feature. The frequency may also be listed as a fraction. The first number of the fraction is how many people had the symptom, and the second number is the total number of people who were examined in one study. For example, a frequency of 25/25 means that in a study of 25 people all patients were found to have that symptom. Because these frequencies are based on a specific study, the fractions may be different if another group of patients are examined. Sometimes, no information on frequency is available. In these cases, the sign or symptom may be rare or common. |
information | Do you have information about Mammography | Summary : A mammogram is an x-ray picture of the breast. It can be used to check for breast cancer in women who have no signs or symptoms of the disease. It can also be used if you have a lump or other sign of breast cancer. Screening mammography is the type of mammogram that checks you when you have no symptoms. It can help reduce the number of deaths from breast cancer among women ages 40 to 70. But it can also have drawbacks. Mammograms can sometimes find something that looks abnormal but isn't cancer. This leads to further testing and can cause you anxiety. Sometimes mammograms can miss cancer when it is there. It also exposes you to radiation. You should talk to your doctor about the benefits and drawbacks of mammograms. Together, you can decide when to start and how often to have a mammogram. Mammograms are also recommended for younger women who have symptoms of breast cancer or who have a high risk of the disease. When you have a mammogram, you stand in front of an x-ray machine. The person who takes the x-rays places your breast between two plastic plates. The plates press your breast and make it flat. This may be uncomfortable, but it helps get a clear picture. You should get a written report of your mammogram results within 30 days. NIH: National Cancer Institute |
genetic changes | What are the genetic changes related to childhood myocerebrohepatopathy spectrum ? | MCHS is caused by mutations in the POLG gene. This gene provides instructions for making one part, the alpha subunit, of a protein called polymerase gamma (pol ). Pol functions in mitochondria, which are structures within cells that use oxygen to convert the energy from food into a form cells can use. Mitochondria each contain a small amount of DNA, known as mitochondrial DNA (mtDNA), which is essential for the normal function of these structures. Pol "reads" sequences of mtDNA and uses them as templates to produce new copies of mtDNA in a process called DNA replication. Most POLG gene mutations change single protein building blocks (amino acids) in the alpha subunit of pol . These changes result in a mutated pol that has a reduced ability to replicate DNA. Although the mechanism is unknown, mutations in the POLG gene often result in fewer copies of mtDNA (mtDNA depletion), particularly in muscle, brain, or liver cells. MtDNA depletion causes a decrease in cellular energy, which could account for the signs and symptoms of MCHS. |
treatment | What are the treatments for autoimmune polyglandular syndrome, type 1 ? | These resources address the diagnosis or management of autoimmune polyglandular syndrome, type 1: - Genetic Testing Registry: Autoimmune polyglandular syndrome type 1, autosomal dominant - Genetic Testing Registry: Autoimmune polyglandular syndrome type 1, with reversible metaphyseal dysplasia - Genetic Testing Registry: Polyglandular autoimmune syndrome, type 1 - MedlinePlus Encyclopedia: Addison's Disease - MedlinePlus Encyclopedia: Autoimmune Disorders - MedlinePlus Encyclopedia: Cutaneous Candidiasis - MedlinePlus Encyclopedia: Hypoparathyroidism These resources from MedlinePlus offer information about the diagnosis and management of various health conditions: - Diagnostic Tests - Drug Therapy - Surgery and Rehabilitation - Genetic Counseling - Palliative Care |
research | what research (or clinical trials) is being done for Chiari Malformation ? | The NINDS supports research on disorders of the brain and nervous system such as Chiari malformations. The goals of this research are to increase scientific understanding of these disorders and to find ways to prevent, treat, and, ultimately, cure them. Current NINDS-funded research includes studies to better understand the genetic factors responsible for the malformation, and factors that influence the development, progression, and relief of symptoms among people with syringomyelia, including those with Chiari I malformations. |
information | What is (are) Birdshot chorioretinopathy ? | Birdshot chorioretinopathy is an eye condition in which painless, light-colored spots develop on the retina. These spots are scattered in a "birdshot" pattern. The effects of this condition on vision are quite variable; some individuals' vision is only mildly affected, whereas others experience a significant decline in vision, the appearance of floaters (small specks that appear in one's line of sight), night blindness, and other vision problems. Symptoms typically begin around middle age; Caucasians are affected more than individuals of other ethnicities. The cause of birdshot chorioretinopathy is currently unknown, but it is suspected to be an autoimmune disease. Treatment may include medications that aim to regulate the body's immune response. |
information | What is (are) Learning Disorders ? | Learning disorders affect how a person understands, remembers and responds to new information. People with learning disorders may have problems - Listening or paying attention - Speaking - Reading or writing - Doing math Although learning disorders occur in very young children, they are usually not recognized until the child reaches school age. About one-third of children who have learning disabilities also have ADHD, which makes it hard to focus. Evaluation and testing by a trained professional can help identify a learning disorder. The next step is special education, which involves helping your child in the areas where he or she needs the most help. Sometimes tutors or speech or language therapists also work with the children. Learning disorders do not go away, but strategies to work around them can make them less of a problem. NIH: National Institute of Neurological Disorders and Stroke |
information | What is (are) Lenz microphthalmia syndrome ? | Lenz microphthalmia syndrome is a genetic disorder that causes abnormal development of the eyes and several other parts of the body. Eye symptoms vary, but may include underdeveloped (small) or absent eyes, cataract, nystagmus, coloboma (a gap or split in structures that make up the eye), and glaucoma. Eye symptoms may affect one or both eyes and may cause vision loss or blindness. Other signs and symptoms may include abnormalities of the ears, teeth, hands, skeleton, urinary system and occasionally heart defects. Around 60% of people with this condition have delayed development or intellectual disability ranging from mild to severe. Mutations in the BCOR gene cause some cases of Lenz microphthalmia syndrome. The other causative gene(s) have yet to be identified. This condition is inherited in an X-linked recessive fashion. |
prevention | How to prevent Mitral Valve Prolapse ? | You can't prevent mitral valve prolapse (MVP). Most people who have the condition are born with it.
Complications from MVP, such as arrhythmias (irregular heartbeats) and infective endocarditis (IE), are rare. IE is an infection of the inner lining of your heart chambers and valves.
People at high risk for IE may be given antibiotics before some types of surgery and dental work. Antibiotics can help prevent IE. Your doctor will tell you whether you need this type of treatment.
People at high risk for IE may include those who've had valve repair or replacement or who have some types of underlying heart disease. |
symptoms | What are the symptoms of Churg Strauss syndrome ? | What are the signs and symptoms of Churg Strauss syndrome? The specific signs and symptoms of Churg Strauss syndrome (CSS) vary from person to person depending on the organ systems involved. The severity, duration and age of onset also vary. CSS is considered to have three distinct phases - prodromal (allergic), eosinophilic and vasculitic - which don't always occur sequentially. Some people do not develop all three phases. The prodromal (or allergic) phase is characterized by various allergic reactions. Affected people may develop asthma (including a cough, wheezing, and shortness of breath); hay fever (allergic rhinitis); and/or repeated episodes of sinusitis. This phase can last from months to many years. Most people develop asthma-like symptoms before any other symptoms. The eosinophilic phase is characterized by accumulation of eosinophils (a specific type of white blood cell) in various tissues of the body - especially the lungs, gastrointestinal tract and skin. The vasculitic phase is characterized by widespread inflammation of various blood vessels (vasculitis). Chronic vasculitis can cause narrowing of blood vessels, which can block or slow blood flow to organs. Inflamed blood vessels can also become thin and fragile (potentially rupturing) or develop a bulge (aneurysm). People with CSS often develop nonspecific symptoms including fatigue, fever, weight loss, night sweats, abdominal pain, and/or joint and muscle pain. Neurological symptoms (such as pain, tingling or numbness) are common and depend on the specific nerves involved. About half of affected people develop skin abnormalities due to accumulation of eosinophils in skin tissue. Symptoms of skin involvement may include purplish skin lesions, a rash with hives, and/or small bumps, especially on the elbows. Gastrointestinal involvement may cause various symptoms also. Heart problems may include inflammation of heart tissues and in severe cases, heart failure. The kidneys can also become involved, eventually causing glomerulonephritis. The Human Phenotype Ontology provides the following list of signs and symptoms for Churg Strauss syndrome. If the information is available, the table below includes how often the symptom is seen in people with this condition. You can use the MedlinePlus Medical Dictionary to look up the definitions for these medical terms. Signs and Symptoms Approximate number of patients (when available) Abnormality of eosinophils 90% Asthma 90% Autoimmunity 90% Congestive heart failure 90% Polyneuropathy 90% Pulmonary infiltrates 90% Sinusitis 90% Subcutaneous hemorrhage 90% Urticaria 90% Vasculitis 90% Weight loss 90% Abdominal pain 50% Abnormality of the pericardium 50% Abnormality of the pleura 50% Arthralgia 50% Feeding difficulties in infancy 50% Gait disturbance 50% Hematuria 50% Hypertension 50% Hypertrophic cardiomyopathy 50% Hypopigmented skin patches 50% Nausea and vomiting 50% Skin rash 50% Thrombophlebitis 50% Abnormality of temperature regulation 7.5% Abnormality of the endocardium 7.5% Acrocyanosis 7.5% Arthritis 7.5% Cerebral ischemia 7.5% Coronary artery disease 7.5% Cranial nerve paralysis 7.5% Cutis marmorata 7.5% Glomerulopathy 7.5% Hemiplegia/hemiparesis 7.5% Hemoptysis 7.5% Intestinal obstruction 7.5% Malabsorption 7.5% Myalgia 7.5% Myositis 7.5% Nasal polyposis 7.5% Proteinuria 7.5% Pulmonary embolism 7.5% Renal insufficiency 7.5% Respiratory insufficiency 7.5% The Human Phenotype Ontology (HPO) has collected information on how often a sign or symptom occurs in a condition. Much of this information comes from Orphanet, a European rare disease database. The frequency of a sign or symptom is usually listed as a rough estimate of the percentage of patients who have that feature. The frequency may also be listed as a fraction. The first number of the fraction is how many people had the symptom, and the second number is the total number of people who were examined in one study. For example, a frequency of 25/25 means that in a study of 25 people all patients were found to have that symptom. Because these frequencies are based on a specific study, the fractions may be different if another group of patients are examined. Sometimes, no information on frequency is available. In these cases, the sign or symptom may be rare or common. |
symptoms | What are the symptoms of Accessory navicular bone ? | What are the signs and symptoms of Accessory navicular bone? Accessory navicular bone may cause no symptoms, but in some cases causes pain, tenderness, or irritation on or around the top of the instep. It may also cause the foot to be abnormally positioned, and may limit the normal motion of the foot. Symptoms may worsen with increased activity or tight shoes. The Human Phenotype Ontology provides the following list of signs and symptoms for Accessory navicular bone. If the information is available, the table below includes how often the symptom is seen in people with this condition. You can use the MedlinePlus Medical Dictionary to look up the definitions for these medical terms. Signs and Symptoms Approximate number of patients (when available) Abnormality of the skeletal system - Autosomal dominant inheritance - The Human Phenotype Ontology (HPO) has collected information on how often a sign or symptom occurs in a condition. Much of this information comes from Orphanet, a European rare disease database. The frequency of a sign or symptom is usually listed as a rough estimate of the percentage of patients who have that feature. The frequency may also be listed as a fraction. The first number of the fraction is how many people had the symptom, and the second number is the total number of people who were examined in one study. For example, a frequency of 25/25 means that in a study of 25 people all patients were found to have that symptom. Because these frequencies are based on a specific study, the fractions may be different if another group of patients are examined. Sometimes, no information on frequency is available. In these cases, the sign or symptom may be rare or common. |
symptoms | What are the symptoms of Retinopathy pigmentary mental retardation ? | What are the signs and symptoms of Retinopathy pigmentary mental retardation? The Human Phenotype Ontology provides the following list of signs and symptoms for Retinopathy pigmentary mental retardation. If the information is available, the table below includes how often the symptom is seen in people with this condition. You can use the MedlinePlus Medical Dictionary to look up the definitions for these medical terms. Signs and Symptoms Approximate number of patients (when available) Arachnodactyly - Autosomal recessive inheritance - Cataract - Hypogonadism - Intellectual disability, progressive - Intellectual disability, severe - Joint hypermobility - Microcephaly - Moderately short stature - Myopia - Narrow palm - Pigmentary retinal degeneration - Reduced visual acuity - Retinopathy - Scoliosis - Truncal obesity - Visual impairment - The Human Phenotype Ontology (HPO) has collected information on how often a sign or symptom occurs in a condition. Much of this information comes from Orphanet, a European rare disease database. The frequency of a sign or symptom is usually listed as a rough estimate of the percentage of patients who have that feature. The frequency may also be listed as a fraction. The first number of the fraction is how many people had the symptom, and the second number is the total number of people who were examined in one study. For example, a frequency of 25/25 means that in a study of 25 people all patients were found to have that symptom. Because these frequencies are based on a specific study, the fractions may be different if another group of patients are examined. Sometimes, no information on frequency is available. In these cases, the sign or symptom may be rare or common. |
genetic changes | What are the genetic changes related to 1q21.1 microdeletion ? | Most people with a 1q21.1 microdeletion are missing a sequence of about 1.35 million DNA building blocks (base pairs), also written as 1.35 megabases (Mb), in the q21.1 region of chromosome 1. However, the exact size of the deleted region varies. This deletion affects one of the two copies of chromosome 1 in each cell. The signs and symptoms that can result from a 1q21.1 microdeletion are probably related to the loss of several genes in this region. Researchers are working to determine which missing genes contribute to the specific features associated with the deletion. Because some people with a 1q21.1 microdeletion have no obvious related features, additional genetic or environmental factors are thought to be involved in the development of signs and symptoms. Researchers sometimes refer to 1q21.1 microdeletion as the recurrent distal 1.35-Mb deletion to distinguish it from the genetic change that causes thrombocytopenia-absent radius syndrome (TAR syndrome). TAR syndrome results from the deletion of a different, smaller DNA segment in the chromosome 1q21.1 region near the area where the 1.35-Mb deletion occurs. The chromosomal change related to TAR syndrome is often called the 200-kb deletion. |
treatment | What are the treatments for pantothenate kinase-associated neurodegeneration ? | These resources address the diagnosis or management of pantothenate kinase-associated neurodegeneration: - Gene Review: Gene Review: Pantothenate Kinase-Associated Neurodegeneration - Genetic Testing Registry: Hypoprebetalipoproteinemia, acanthocytosis, retinitis pigmentosa, and pallidal degeneration - MedlinePlus Encyclopedia: Hallervorden-Spatz Disease - MedlinePlus Encyclopedia: MRI These resources from MedlinePlus offer information about the diagnosis and management of various health conditions: - Diagnostic Tests - Drug Therapy - Surgery and Rehabilitation - Genetic Counseling - Palliative Care |
information | What is (are) alveolar capillary dysplasia with misalignment of pulmonary veins ? | Alveolar capillary dysplasia with misalignment of pulmonary veins (ACD/MPV) is a disorder affecting the development of the lungs and their blood vessels. The disorder affects the millions of small air sacs (alveoli) in the lungs and the tiny blood vessels (capillaries) in the alveoli. It is through these alveolar capillaries that inhaled oxygen enters the bloodstream for distribution throughout the body and carbon dioxide leaves the bloodstream to be exhaled. In ACD/MPV, the alveolar capillaries fail to develop normally. The number of capillaries is drastically reduced, and existing capillaries are improperly positioned within the walls of the alveoli. These abnormalities in capillary number and location impede the exchange of oxygen and carbon dioxide. Other abnormalities of the blood vessels in the lungs also occur in ACD/MPV. The veins that carry blood from the lungs into the heart (pulmonary veins) are improperly positioned and may be abnormally bundled together with arteries that carry blood from the heart to the lungs (pulmonary arteries). The muscle tissue in the walls of the pulmonary arteries may be overgrown, resulting in thicker artery walls and a narrower channel. These changes restrict normal blood flow, which causes high blood pressure in the pulmonary arteries (pulmonary hypertension) and requires the heart to pump harder. Most infants with ACD/MPV are born with additional abnormalities. These may include abnormal twisting (malrotation) of the large intestine or other malformations of the gastrointestinal tract. Cardiovascular and genitourinary abnormalities are also common in affected individuals. Infants with ACD/MPV typically develop respiratory distress within a few minutes to a few hours after birth. They experience shortness of breath and cyanosis, which is a bluish appearance of the skin, mucous membranes, or the area underneath the fingernails caused by a lack of oxygen in the blood. Without lung transplantation, infants with ACD/MPV have not been known to survive past one year of age, and most affected infants live only a few weeks. |
genetic changes | What are the genetic changes related to multiple familial trichoepithelioma ? | Multiple familial trichoepithelioma can be caused by mutations in the CYLD gene. This gene provides instructions for making a protein that helps regulate nuclear factor-kappa-B. Nuclear factor-kappa-B is a group of related proteins that help protect cells from self-destruction (apoptosis) in response to certain signals. In regulating the action of nuclear factor-kappa-B, the CYLD protein allows cells to respond properly to signals to self-destruct when appropriate, such as when the cells become abnormal. By this mechanism, the CYLD protein acts as a tumor suppressor, which means that it helps prevent cells from growing and dividing too fast or in an uncontrolled way. People with CYLD-related multiple familial trichoepithelioma are born with a mutation in one of the two copies of the CYLD gene in each cell. This mutation prevents the cell from making functional CYLD protein from the altered copy of the gene. However, enough protein is usually produced from the other, normal copy of the gene to regulate cell growth effectively. For tumors to develop, a second mutation or deletion of genetic material involving the other copy of the CYLD gene must occur in certain cells during a person's lifetime. When both copies of the CYLD gene are mutated in a particular cell, that cell cannot produce any functional CYLD protein. The loss of this protein allows the cell to grow and divide in an uncontrolled way to form a tumor. In people with multiple familial trichoepithelioma, a second CYLD mutation typically occurs in multiple cells over an affected person's lifetime. The loss of CYLD protein in these cells leads to the growth of skin appendage tumors. Some researchers consider multiple familial trichoepithelioma and two related conditions called familial cylindromatosis and Brooke-Spiegler syndrome, which are also caused by CYLD gene mutations, to be different forms of the same disorder. It is unclear why mutations in the CYLD gene cause different patterns of skin appendage tumors in each of these conditions, or why the tumors are generally confined to the skin in these disorders. Some people with multiple familial trichoepithelioma do not have mutations in the CYLD gene. Scientists are working to identify the genetic cause of the disorder in these individuals. |
information | What is (are) Glucose transporter type 1 deficiency syndrome ? | Glucose transporter type 1 deficiency syndrome (GLUT1 deficiency syndrome) is an inherited condition that affects the nervous system. Signs and symptoms generally develop within the first few months of life and may include recurrent seizures (epilepsy) and involuntary eye movements. Affected people may also have microcephaly (unusually small head size) that develops after birth, developmental delay, intellectual disability and other neurological problems such as spasticity, ataxia (difficulty coordinating movements), and dysarthria. Approximately 10% of affected people have the "non-epileptic" form of GLUT1 deficiency syndrome which is associated with all the typical symptoms of the condition without seizures. GLUT1 deficiency syndrome is caused by changes (mutations) in the SLC2A1 gene and is inherited in an autosomal dominant manner. Although there is currently no cure for GLUT1 deficiency syndrome, a special diet (called a ketogenic diet) may help alleviate symptoms. |
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