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The mission of the National Institute of Neurological Disorders and Stroke (NINDS) is to seek fundamental knowledge about the brain and nervous system, and to use that knowledge to reduce the burden of neurological disease. The NINDS conducts and supports a wide range of studies that explore the complex mechanisms of brain development. The knowledge gained from these fundamental studies provides the foundation for understanding how this process can change and offers hope for new ways to treat and prevent birth defects that can prevent normal brain development, such as craniosynostosis.
If you have a swallowing disorder, you may have difficulty or pain when swallowing. Some people cannot swallow at all. Others may have trouble swallowing liquids, foods, or saliva. This makes it hard to eat. Often, it can be difficult to take in enough calories and fluids to nourish your body. Anyone can have a swallowing disorder, but it is more likely in the elderly. It often happens because of other conditions, including - Nervous system disorders, such as Parkinson's disease and cerebral palsy - Problems with your esophagus, including GERD (gastroesophageal reflux disease) - Stroke - Head or spinal cord injury - Cancer of the head, neck, or esophagus Medicines can help some people, while others may need surgery. Swallowing treatment with a speech-language pathologist can help. You may find it helpful to change your diet or hold your head or neck in a certain way when you eat. In very serious cases, people may need feeding tubes. NIH: National Institute on Deafness and Other Communication Disorders
These resources address the diagnosis or management of restless legs syndrome: - Agency for Healthcare Research and Quality: Options for Treating Restless Legs Syndrome - Genetic Testing Registry: Restless legs syndrome, susceptibility to, 8 - National Heart, Lung, and Blood Institute: How is Restless Legs Syndrome Diagnosed? - National Heart, Lung, and Blood Institute: How is Restless Legs Syndrome Treated? - Restless Leg Syndrome Foundation: Diagnosis - Restless Leg Syndrome Foundation: Treatment Options 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
What are the signs and symptoms of myelomeningocele? A baby born with a myelomeningocele may have a sac sticking out of the mid to lower back that the doctor cannot see through when shining a light behind it. Symptoms of this condition include:[5182] Loss of bladder or bowel control Partial or complete lack of sensation Partial or complete paralysis of the legs Weakness of the hips, legs, or feet Some individuals may have additional symptoms. Other symptoms include: Abnormal feet or legs, such as clubfoot. Build up of fluid inside the skull (hydrocephalus) Hair at the back part of the pelvis called the sacral area Dimpling of the sacral area Meningitis Chiari II malformation Twenty to 50 percent of children with myelomeningocele develop a condition called progressive tethering, or tethered cord syndrome. A part of the spinal cord becomes fastened to an immovable structuresuch as overlying membranes and vertebraecausing the spinal cord to become abnormally stretched and the vertebrae elongated with growth and movement. This condition can cause change in the muscle function of the legs, as well as changes in bowel and bladder function. Early surgery on the spinal cord may help the child to regain a normal level of functioning and prevent further neurological deterioration.
Holt-Oram syndrome is estimated to affect 1 in 100,000 individuals.
This condition is inherited in an autosomal recessive pattern, which means both copies of the gene in each cell have mutations. The parents of an individual with an autosomal recessive condition each carry one copy of the mutated gene, but they typically do not show signs and symptoms of the condition.
These resources address the diagnosis or management of Senior-Lken syndrome: - Genetic Testing Registry: Senior-Loken syndrome 1 - Genetic Testing Registry: Senior-Loken syndrome 3 - Genetic Testing Registry: Senior-Loken syndrome 4 - Genetic Testing Registry: Senior-Loken syndrome 5 - Genetic Testing Registry: Senior-Loken syndrome 6 - Genetic Testing Registry: Senior-Loken syndrome 7 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
The mission of the National Institute of Neurological Disorders and Stroke (NINDS) is to seek fundamental knowledge about the brain and nervous system and to use that knowledge to reduce the burden of neurological disease. The NINDS is a part of the National Institutes of Health, the largest supporter of biomedical research in the world. The NINDS, along with other NIH Institutes, supports the Lysosomal Disease Network, a network of centers that addresses some of the major challenges in the diagnosis, management, and therapy of rare diseases, including the lipid storage diseases. Research funded by the NINDS focuses on better understanding of how neurological deficits rise in lipid storage diseases and on the development of new treatments targeting disease mechanisms, including gene therapies, cell-based therapies, and pharmacological approaches. NINDS funded research on the gangliosidoses includes variations of magnetic resonance imaging to develop a biomarker (a sign that may indicate risk of a disease and improve diagnosis) to effectively evaluate brain biochemistry and disease progression, and expanding the use of virus-delivered gene therapy seen in an animal model of Tay-Sachs and Sandhoff diseases for use in humans.
The prognosis for children with IS is dependent on the underlying causes of the seizures. The intellectual prognosis for children with IS is generally poor because many babies with IS have neurological impairment prior to the onset of spasms. Epileptic spasms usually reduce in number by mid-childhood, but more than half of the children with IS will develop other types of seizures. There appears to be a close relationship between IS and Lennox-Gastaut Syndrome, an epileptic disorder of later childhood.
The retina is a layer of tissue in the back of your eye that senses light and sends images to your brain. In the center of this nerve tissue is the macula. It provides the sharp, central vision needed for reading, driving and seeing fine detail. Retinal disorders affect this vital tissue. They can affect your vision, and some can be serious enough to cause blindness. Examples are - Macular degeneration - a disease that destroys your sharp, central vision - Diabetic eye disease - Retinal detachment - a medical emergency, when the retina is pulled away from the back of the eye - Retinoblastoma - cancer of the retina. It is most common in young children. - Macular pucker - scar tissue on the macula - Macular hole - a small break in the macula that usually happens to people over 60 - Floaters - cobwebs or specks in your field of vision NIH: National Eye Institute
Gaucher disease is a rare, inherited disorder in which you do not have enough of an enzyme called glucocerebrosidase. This causes too much of a fatty substance to build up in your spleen, liver, lungs, bones and, sometimes, your brain. This prevents these organs from working properly. There are three types: - Type 1, the most common form, causes liver and spleen enlargement, bone pain and broken bones, and, sometimes, lung and kidney problems. It does not affect the brain. It can occur at any age. - Type 2, which causes severe brain damage, appears in infants. Most children who have it die by age 2. - In type 3, there may be liver and spleen enlargement. The brain is gradually affected. It usually starts in childhood or adolescence. Gaucher disease has no cure. Treatment options for types 1 and 3 include medicine and enzyme replacement therapy, which is usually very effective. There is no good treatment for the brain damage of types 2 and 3. NIH: National Institute of Neurological Disorders and Stroke
Child abuse is doing something or failing to do something that results in harm to a child or puts a child at risk of harm. Child abuse can be physical, sexual or emotional. Neglect, or not providing for a child's needs, is also a form of abuse. Most abused children suffer greater emotional than physical damage. An abused child may become depressed. He or she may withdraw, think of suicide or become violent. An older child may use drugs or alcohol, try to run away or abuse others. Child abuse is a serious problem. If you suspect a child is being abused or neglected, call the police or your local child welfare agency.
Distal myopathy 2 is inherited in an autosomal dominant pattern, which means one copy of the altered MATR3 gene in each cell is sufficient to cause the disorder.
Severe combined immunodeficiencies (SCID) are inherited immune system disorders characterized by abnormalities with responses of both T cells and B cells (specific types of white blood cells needed for immune system function). Common signs and symptoms include an increased susceptibility to infections including ear infections; pneumonia or bronchitis; oral thrush; and diarrhea. Due to recurrent infections, affected children do not grow and gain weight as expected (failure to thrive). SCID may be caused by mutations in any of several genes and can be inherited in an X-linked recessive (most commonly) or autosomal recessive manner. The most effective treatment is transplantation of blood-forming stem cells from the bone marrow of a healthy person. Without treatment, affected children rarely live past the age of two.
These resources address the diagnosis or management of sialuria: - Gene Review: Gene Review: Sialuria - Genetic Testing Registry: Sialuria - MedlinePlus Encyclopedia: Hepatosplenomegaly (image) - MedlinePlus Encyclopedia: Newborn Jaundice 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
Cerebral cavernous malformations affect about 0.5 percent of the population worldwide.
Mutations in the BEST1 and PRPH2 genes cause vitelliform macular dystrophy. BEST1 mutations are responsible for Best disease and for some cases of the adult-onset form of vitelliform macular dystrophy. Changes in the PRPH2 gene can also cause the adult-onset form of vitelliform macular dystrophy; however, less than a quarter of all people with this form of the condition have mutations in the BEST1 or PRPH2 gene. In most cases, the cause of the adult-onset form is unknown. The BEST1 gene provides instructions for making a protein called bestrophin. This protein acts as a channel that controls the movement of charged chlorine atoms (chloride ions) into or out of cells in the retina. Mutations in the BEST1 gene probably lead to the production of an abnormally shaped channel that cannot properly regulate the flow of chloride. Researchers have not determined how these malfunctioning channels are related to the buildup of lipofuscin in the macula and progressive vision loss. The PRPH2 gene provides instructions for making a protein called peripherin 2. This protein is essential for the normal function of light-sensing (photoreceptor) cells in the retina. Mutations in the PRPH2 gene cause vision loss by disrupting structures in these cells that contain light-sensing pigments. It is unclear why PRPH2 mutations affect only central vision in people with adult-onset vitelliform macular dystrophy.
HGPPS has been reported in several dozen families worldwide.
What treatments for metastatic clear cell renal cell carcinoma are available in North America? There are several treatments for metastatic clear cell renal cell carcinoma available in North America. IL-2 and sunitinib - as well as the medications temsirolimus, bevacizumab with interferon therapy, pazopanib, and sorafenib - are approved by the Food and Drug Administration for the treatment of metastatic clear cell renal cell carcinoma. Because a cure for this disease has yet to be discovered, the National Cancer Institute suggests that individuals with metastatic clear cell renal cell carcinoma consider participation in a research study. IL-2 is offered as a treatment for this disease in some individuals because it has been shown to cause a complete disappearance of signs of this disease (remission) in 5% of treated patients. As IL-2 may cause toxic side effects, it is most appropriate for patients who are in excellent health. Sunitinib is offered because it has been shown to stabilize metastatic clear cell renal cell carcinoma by stopping the disease from getting worse. Individuals treated with sunitinib showed no change in their disease for an average of 11 months.
What are the signs and symptoms of Anonychia congenita? The Human Phenotype Ontology provides the following list of signs and symptoms for Anonychia congenita. 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) Anonychia - 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.
The digestive system is made up of the gastrointestinal (GI) tractalso called the digestive tractand the liver, pancreas, and gallbladder. The GI tract is a series of hollow organs joined in a long, twisting tube from the mouth to the anus. The hollow organs that make up the GI tract are the mouth, esophagus, stomach, small intestine, large intestinewhich includes the colon and rectumand anus. Food enters the mouth and passes to the anus through the hollow organs of the digestive system. The liver, pancreas, and gallbladder are the solid organs of the digestive system. The digestive system helps the body digest food.
Familial atrial fibrillation is an inherited heart condition that disrupts the heart's rhythm. It is characterized by erratic electrical activity in the heart's upper chambers (the atria), causing an irregular response in the heart's lower chambers (the ventricles). This causes a fast and irregular heartbeat (arrhythmia). Signs and symptoms may include dizziness, chest pain, palpitations, shortness of breath, or fainting. Affected people also have an increased risk of stroke and sudden death. While complications may occur at any age, some affected people never have associated health problems. Familial atrial fibrillation may be caused by changes (mutations) in any of various genes, some of which have not been identified. It is most often inherited in an autosomal dominant manner, but autosomal recessive inheritance has been reported.
Most cases of trimethylaminuria appear to be inherited in an autosomal recessive pattern, which means both copies of the gene in each cell have mutations. Most often, the parents of an individual with an autosomal recessive condition each carry one copy of the mutated gene, but typically do not show signs and symptoms of the condition. Carriers of an FMO3 mutation, however, may have mild symptoms of trimethylaminuria or experience temporary episodes of strong body odor.
The NINDS supports a broad spectrum of research on motor neuron diseases, such as Kennedy's disease. Much of this research is aimed at increasing scientific understanding of these diseases and, ultimately, finding ways to prevent, treat, and cure them.
The National Institute of Neurological Disorders and Stroke (NINDS), and other institutes of the National Institutes of Health (NIH), conduct research related to shaken baby syndrome in laboratories at the NIH and also support additional research through grants to major medical institutions across the country. Much of this research focuses on finding better ways to treat and heal medical conditions such as shaken baby syndrome.
This condition is inherited in an autosomal recessive pattern, which means both copies of the gene in each cell have mutations. The parents of an individual with an autosomal recessive condition each carry one copy of the mutated gene, but they typically do not show signs and symptoms of the condition.
Mal de Meleda is a rare skin disorder that begins in early infancy. Affected individuals have a condition known as palmoplantar keratoderma, in which the skin of the palms of the hands and soles of the feet becomes thick, hard, and callused. In mal de Meleda, the thickened skin is also found on the back of the hands and feet and on the wrists and ankles. In addition, affected individuals may have rough, thick pads on the joints of the fingers and toes and on the elbows and knees. Some people with mal de Meleda have recurrent fungal infections in the thickened skin, which can lead to a strong odor. Other features of this disorder can include short fingers and toes (brachydactyly), nail abnormalities, red skin around the mouth, and excessive sweating (hyperhidrosis).
Glossopharyngeal neuralgia (GN) is a rare pain syndrome that affects the glossopharyngeal nerve (the ninth cranial nerve that lies deep within the neck) and causes sharp, stabbing pulses of pain in the back of the throat and tongue, the tonsils, and the middle ear. The excruciating pain of GN can last for a few seconds to a few minutes, and may return multiple times in a day or once every few weeks. Many individuals with GN relate the attacks of pain to specific trigger factors such as swallowing, drinking cold liquids, sneezing, coughing, talking, clearing the throat, and touching the gums or inside the mouth. GN can be caused by compression of the glossopharyngeal nerve, but in some cases, no cause is evident. Like trigeminal neuralgia, it is associated with multiple sclerosis. GN primarily affects the elderly.
A health care provider diagnoses dialysis-related amyloidosis with - urinalysis - blood tests - imaging tests A health care provider can use urinalysis and blood tests to detect the amount of amyloid proteins in urine and blood. Imaging tests, such as x-rays and CT scans, can provide pictures of bone cysts and amyloid deposits in bones, joints, tendons, and ligaments. An x-ray technician performs imaging tests in a health care providers office, an outpatient center, or a hospital. A radiologista doctor who specializes in medical imaginginterprets the images. A patient does not require anesthesia.
How is progressive osseous heteroplasia inherited? This condition is inherited in an autosomal dominant pattern, which means one copy of the altered gene in each cell is sufficient to cause the disorder. People normally inherit one copy of each gene from their mother and one copy from their father. For most genes, both copies are active, or "turned on," in all cells. For a small subset of genes, however, only one of the two copies is active. For some of these genes, only the copy inherited from a person's father (the paternal copy) is active, while for other genes, only the copy inherited from a person's mother (the maternal copy) is active. These differences in gene activation based on the gene's parent of origin are caused by a phenomenon called genomic imprinting. The GNAS gene has a complex genomic imprinting pattern. In some cells of the body the maternal copy of the gene is active, while in others the paternal copy is active. Progressive osseous heteroplasia occurs when mutations affect the paternal copy of the gene. Thus, progressive heteroplasia is usually inherited from the father.
Lemierre syndrome is a rare and potentially life-threatening illness. The bacterium responsible for this disease is typically Fusobacterium necrophorum, although a wide variety of bacteria have been reported as causing the disease. The bacterial infection begins in the oropharynx then spreads through the lymphatic vessels. Following this primary infection, thrombophlebitis of the internal jugular vein (IJV) develops. The final phase of the disease occurs when septic emboli (pus-containing tissue) migrate from their original location in the body to various organs. The lungs are most commonly involved, however other sites may include the joints, muscle, skin and soft tissue, liver, and spleen. The symptoms of Lemierre syndrome include fever, sore throat, neck swelling, pulmonary involvement and joint pain. It is an uncommon disease that occurs in about one person per million per year. The disease primarily affects healthy young people before age 40. Diagnosis of Lemierre syndrome rests on the presence of a blood clot (or clots) in the IJV and blood cultures that show the presence of Fusobacterium necrophorum. Intravenous antibiotics are the mainstay of treatment.
Summary : Diabetes means your blood glucose, or blood sugar, levels are too high. If you can't control your diabetes with wise food choices and physical activity, you may need diabetes medicines. The kind of medicine you take depends on your type of diabetes, your schedule, and your other health conditions. With type 1 diabetes, your pancreas does not make insulin. Insulin is a hormone that helps glucose get into your cells to give them energy. Without insulin, too much glucose stays in your blood. If you have type 1 diabetes, you will need to take insulin. Type 2 diabetes, the most common type, can start when the body doesn't use insulin as it should. If your body can't keep up with the need for insulin, you may need to take pills. Along with meal planning and physical activity, diabetes pills help people with type 2 diabetes or gestational diabetes keep their blood glucose levels on target. Several kinds of pills are available. Each works in a different way. Many people take two or three kinds of pills. Some people take combination pills. Combination pills contain two kinds of diabetes medicine in one tablet. Some people take pills and insulin. NIH: National Institute of Diabetes and Digestive and Kidney Diseases
The cause of most childhood brain and spinal cord tumors is unknown.
These resources address the diagnosis or management of dihydropyrimidine dehydrogenase deficiency: - Genetic Testing Registry: Dihydropyrimidine dehydrogenase deficiency 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
Type 1 diabetes, which used to be called called juvenile diabetes or insulin-dependent diabetes, develops most often in young people. However, type 1 diabetes can also develop in adults. With this form of diabetes, your body no longer makes insulin or doesnt make enough insulin because your immune system has attacked and destroyed the insulin-producing cells. About 5 to 10 percent of people with diabetes have type 1 diabetes. To survive, people with type 1 diabetes must have insulin delivered by injection or a pump. Learn more about type 1 diabetes here. Learn more about type 1 diabetes here. Type 2 diabetes, which used to be called adult-onset diabetes or non insulin-dependent diabetes, is the most common form of diabetes. Although people can develop type 2 diabetes at any age -- even during childhood -- type 2 diabetes develops most often in middle-aged and older people. Type 2 diabetes usually begins with insulin resistancea condition that occurs when fat, muscle, and liver cells do not use insulin to carry glucose into the bodys cells to use for energy. As a result, the body needs more insulin to help glucose enter cells. At first, the pancreas keeps up with the added demand by making more insulin. Over time, the pancreas doesnt make enough insulin when blood sugar levels increase, such as after meals. If your pancreas can no longer make enough insulin, you will need to treat your type 2 diabetes. Learn more about type 2 diabetes here.
Male breast cancer is sometimes caused by inherited gene mutations (changes).The genes in cells carry the hereditary information that is received from a persons parents. Hereditary breast cancer makes up about 5% to 10% of all breast cancer. Some mutated genes related to breast cancer are more common in certain ethnic groups. Men who have a mutated gene related to breast cancer have an increased risk of this disease. There are tests that can detect (find) mutated genes. These genetic tests are sometimes done for members of families with a high risk of cancer. See the following PDQ summaries for more information: - Genetics of Breast and Gynecologic Cancers - Breast Cancer Prevention - Breast Cancer Screening
These resources address the diagnosis or management of hypermethioninemia: - Baby's First Test - Genetic Testing Registry: Glycine N-methyltransferase deficiency - Genetic Testing Registry: Hepatic methionine adenosyltransferase deficiency - Genetic Testing Registry: Hypermethioninemia with s-adenosylhomocysteine hydrolase deficiency 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
Genoa syndrome is a rare condition that primarily affects the brain and skull. Babies with this condition are generally born with semilobar holoprosencephaly, a disorder caused by failure of the developing brain to sufficiently divide into the double lobes of the cerebral hemispheres. They later develop craniosynostosis (the premature closure of one or more of the fibrous joints between the bones of the skull before brain growth is complete). Genoa syndrome also appears to be associated with other skeletal abnormalities, including those of the hands, and distinctive facial features. The underlying genetic cause of the condition is currently unknown. Some reports suggest that Genoa syndrome may be inherited in an autosomal recessive manner. Treatment is supportive and based on the signs and symptoms present in each person.
For most healthy people who receive treatment soon after the outbreak of blisters, the lesions heal, the pain subsides within 3 to 5 weeks, and the blisters often leave no scars. However, shingles is a serious threat in immunosuppressed individuals for example, those with HIV infection or who are receiving cancer treatments that can weaken their immune systems. People who receive organ transplants are also vulnerable to shingles because they are given drugs that suppress the immune system. A person with a shingles rash can pass the virus to someone, usually a child, who has never had chickenpox, but the child will develop chickenpox, not shingles. A person with chickenpox cannot give shingles to someone else. Shingles comes from the virus hiding inside the person's body, not from an outside source.
Holocarboxylase synthetase deficiency is an inherited disorder in which the body is unable to use the vitamin biotin effectively. This disorder is classified as a multiple carboxylase deficiency, a group of disorders characterized by impaired activity of certain enzymes that depend on biotin. The signs and symptoms of holocarboxylase synthetase deficiency typically appear within the first few months of life, but the age of onset varies. Affected infants often have difficulty feeding, breathing problems, a skin rash, hair loss (alopecia), and a lack of energy (lethargy). Immediate treatment and lifelong management with biotin supplements may prevent many of these complications. If left untreated, the disorder can lead to delayed development, seizures, and coma. These medical problems may be life-threatening in some cases.
Klippel-Trenaunay syndrome is almost always sporadic, which means that it occurs in people with no history of the disorder in their family. Studies suggest that the condition may result from gene mutations that are not inherited. These genetic changes, which are called somatic mutations, probably occur very early in development and are present only in certain cells. Somatic mutations could explain why the signs and symptoms of Klippel-Trenaunay syndrome are often limited to specific areas of the body. However, it is unclear whether somatic mutations are responsible for this condition because no associated genes have been found.
This condition is inherited in an X-linked pattern. The gene associated with this condition is located on the X chromosome, which is one of the two sex chromosomes. In males (who have only one X chromosome), a mutation in the only copy of the gene in each cell causes the disorder. In females (who have two X chromosomes), a mutation in one of the two copies of the gene in each cell sometimes causes features of the disorder; in other cases, these females do not experience any symptoms. In the small number of Arts syndrome cases that have been identified, affected individuals have inherited the mutation from a mother who carries an altered copy of the PRPS1 gene.
Pendred syndrome is a condition usually characterized by sensorineural hearing loss in both ears (bilateral) and euthyroid goiter (enlargement of the thyroid gland with normal thyroid gland function). The amount of hearing loss varies among affected people. In many cases, significant hearing loss is present at birth. In other cases, hearing loss does not develop until later in infancy or childhood. Some people have problems with balance caused by dysfunction of the part of the inner ear that helps with balance and orientation (the vestibular system). Pendred syndrome is inherited in an autosomal recessive manner. Mutations in 3 genes are currently known to cause the condition (SLC26A4, FOXI1, and KCNJ10) and are found in about half of affected people. Other genes responsible for the condition have not yet been identified.
Prognosis varies, although the disease is progressive. Some patients may have a mild form of the disease while others eventually lose the ability to walk normally. Troyer syndrome does not shorten the normal life span.
Mutations in the HCCS gene or a deletion of genetic material that includes the HCCS gene cause microphthalmia with linear skin defects syndrome. The HCCS gene carries instructions for producing an enzyme called holocytochrome c-type synthase. This enzyme is active in many tissues of the body and is found in the mitochondria, the energy-producing centers within cells. Within the mitochondria, the holocytochrome c-type synthase enzyme helps produce a molecule called cytochrome c. Cytochrome c is involved in a process called oxidative phosphorylation, by which mitochondria generate adenosine triphosphate (ATP), the cell's main energy source. It also plays a role in the self-destruction of cells (apoptosis). HCCS gene mutations result in a holocytochrome c-type synthase enzyme that cannot perform its function. A deletion of genetic material that includes the HCCS gene prevents the production of the enzyme. A lack of functional holocytochrome c-type synthase enzyme can damage cells by impairing their ability to generate energy. In addition, without the holocytochrome c-type synthase enzyme, the damaged cells may not be able to undergo apoptosis. These cells may instead die in a process called necrosis that causes inflammation and damages neighboring cells. During early development this spreading cell damage may lead to the eye abnormalities and other signs and symptoms of microphthalmia with linear skin defects syndrome.
This condition is inherited in an autosomal recessive pattern, which means both copies of the gene in each cell have mutations. The parents of an individual with an autosomal recessive condition each carry one copy of the mutated gene, but they typically do not show signs and symptoms of the condition.
The symptoms of Goodpasture syndrome may initially include fatigue, nausea, vomiting, and weakness. The lungs are usually affected before or at the same time as the kidneys, and symptoms can include shortness of breath and coughing, sometimes with blood. The progression from initial symptoms to the lungs being affected may be very rapid. Symptoms that occur when the kidneys are affected include blood in the urine or foamy urine, swelling in the legs, and high blood pressure.
This condition is inherited in an autosomal recessive pattern, which means both copies of the gene in each cell have mutations. The parents of an individual with an autosomal recessive condition each carry one copy of the mutated gene, but they typically do not show signs and symptoms of the condition.
What are the signs and symptoms of Congenital diaphragmatic hernia? The Human Phenotype Ontology provides the following list of signs and symptoms for Congenital diaphragmatic hernia. 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) Congenital diaphragmatic hernia 90% Multifactorial 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.
North American Indian childhood cirrhosis is a rare liver disorder that occurs in children. The liver malfunction causes yellowing of the skin and whites of the eyes (jaundice) in affected infants. The disorder worsens with age, progressively damaging the liver and leading to chronic, irreversible liver disease (cirrhosis) in childhood or adolescence. Unless it is treated with liver transplantation, North American Indian childhood cirrhosis typically causes life-threatening complications including liver failure.
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
Hantavirus pulmonary syndrome (HPS) is a severe, respiratory disease caused by infection with a hantavirus. People can become infected with a hantavirus through contact with hantavirus-infected rodents or their saliva, urine and/or droppings. Early symptoms universally include fatigue, fever and muscle aches (especially in the thighs, hips, and/or back), and sometimes include headaches, dizziness, chills, and abdominal problems such as nausea, vomiting, diarrhea, and pain. Later symptoms of the syndrome occur 4 to 10 days after initial onset and include coughing and shortness of breath. HPS can be fatal; approximately 38% of individuals with HPS do not survive. There is no cure or specific treatment for HPS, but early diagnosis and treatment in intensive care may increase the chance of recovery.
What causes succinic semialdehyde dehydrogenase deficiency? Succinic semialdehyde dehydrogenase deficiency (SSADH) is caused by mutations in the ALDH5A1 gene. This gene provides instructions for producing the succinic semialdehyde dehydrogenase enzyme which is involved in the breakdown of a chemical that transmits signals in the brain (neurotransmitter) called gamma-amino butyric acid (GABA). The primary role of GABA is to prevent the brain from being overloaded with too many signals. A shortage (deficiency) of succinic semialdehyde dehydrogenase leads to an increase in the amount of GABA and a related molecule called gamma-hydroxybutyrate (GHB) in the body, particularly the brain and spinal cord (central nervous system). It is unclear how an increase in GABA and GHB causes developmental delay, seizures, and other signs and symptoms of succinic semialdehyde dehydrogenase deficiency.
These resources address the diagnosis or management of Donnai-Barrow syndrome: - Gene Review: Gene Review: Donnai-Barrow Syndrome - Genetic Testing Registry: Donnai Barrow syndrome - MedlinePlus Encyclopedia: Diaphragmatic Hernia - MedlinePlus Encyclopedia: Hearing Loss - Infants - MedlinePlus Encyclopedia: Omphalocele - Nemours Foundation: Hearing Evaluation in Children 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
Mutations in the SLC16A2 gene cause Allan-Herndon-Dudley syndrome. The SLC16A2 gene, also known as MCT8, provides instructions for making a protein that plays a critical role in the development of the nervous system. This protein transports a particular hormone into nerve cells in the developing brain. This hormone, called triiodothyronine or T3, is produced by a butterfly-shaped gland in the lower neck called the thyroid. T3 appears to be critical for the normal formation and growth of nerve cells, as well as the development of junctions between nerve cells (synapses) where cell-to-cell communication occurs. T3 and other forms of thyroid hormone also help regulate the development of other organs and control the rate of chemical reactions in the body (metabolism). Gene mutations alter the structure and function of the SLC16A2 protein. As a result, this protein is unable to transport T3 into nerve cells effectively. A lack of this critical hormone in certain parts of the brain disrupts normal brain development, resulting in intellectual disability and problems with movement. Because T3 is not taken up by nerve cells, excess amounts of this hormone continue to circulate in the bloodstream. Increased T3 levels in the blood may be toxic to some organs and contribute to the signs and symptoms of Allan-Herndon-Dudley syndrome.
These resources address the diagnosis or management of glycogen storage disease type VII: - Genetic Testing Registry: Glycogen storage disease, type VII - The Swedish Information Centre for Rare Diseases 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
How is corneal endothelial dystropy type 2 inherited? Most cases of corneal endothelial dystrophy type 2 are caused by homozygous mutations in the SLC4A11 gene. The condition is transmitted in an autosomal recessive manner. This means that two unaffected parents each carry one copy of a gene mutation for the condition. Neither parent will show signs or symptoms of the condition because two copies are needed for the condition to occur. There have been several families with corneal endothelial dystrophy type 2 where no mutation was found in the SLC4A11 gene. To find laboratories offering genetic testing to confirm a diagnosis, please visit the Tests and Diagnosis section of the Web site. http://rarediseases.info.nih.gov/gard/6196/ched2/resources/12
DOLK-CDG is likely a rare condition; at least 18 cases have been reported in the scientific literature.
The symptoms of a cystocele may include - a vaginal bulge - the feeling that something is falling out of the vagina - the sensation of pelvic heaviness or fullness - difficulty starting a urine stream - a feeling of incomplete urination - frequent or urgent urination Women who have a cystocele may also leak some urine as a result of movements that put pressure on the bladder, called stress urinary incontinence. These movements can include coughing, sneezing, laughing, or physical activity, such as walking. Urinary retentionthe inability to empty the bladder completelymay occur with more severe cystoceles if the cystocele creates a kink in the womans urethra and blocks urine flow. Women with mild cystoceles often do not have any symptoms.
What causes primary hyperoxaluria type 2? Researchers have identified more than a dozen GRHPR mutations that cause this condition. These mutations either introduce signals that disrupt production of the glyoxylate reductase/hydroxypyruvate reductase enzyme or alter its structure. As a result, enzyme activity is absent or dramatically reduced. Glyoxylate builds up because of the enzyme shortage, and is converted to a compound called oxalate instead of glycolate. Oxalate, in turn, combines with calcium to form calcium oxalate, which the body cannot readily eliminate. Deposits of calcium oxalate can lead to the characteristic features of primary hyperoxaluria type 2.
What causes intervertebral disc disease? Intervertebral disc disease (IDD) is a multifactorial disorder, which means that both genetic and environmental factors probably interact to predispose an individual to the condition. It is likely that several factors are needed for development of IDD. Factors such as occupational stress, trauma, or obesity, together with genetic alterations, may result in the structural weakness of a disc, cause a herniation, and possibly initiate a cascade of events leading to sciatica and pathological disc changes. One of the best-known environmental risk factors for IDD is vibration in occupational driving. Inflammation is also likely to play an important role in the progression of this process.
Tylosis with esophageal cancer (TOC) is an inherited condition characterized by palmoplantar keratoderma and esophageal cancer. The palmoplantar keratoderma usually begins around age 10, and esophageal cancer may form after age 20. This condition is caused by a mutation in the RHBDF2 gene and is inherited in an autosomal dominant pattern.
Mutations in the ALDH4A1 and PRODH genes cause hyperprolinemia. Inherited hyperprolinemia is caused by deficiencies in the enzymes that break down (degrade) proline. Hyperprolinemia type I is caused by a mutation in the PRODH gene, which provides instructions for producing the enzyme proline oxidase. This enzyme begins the process of degrading proline by starting the reaction that converts it to pyrroline-5-carboxylate. Hyperprolinemia type II is caused by a mutation in the ALDH4A1 gene, which provides instructions for producing the enzyme pyrroline-5-carboxylate dehydrogenase. This enzyme helps to break down the pyrroline-5-carboxylate produced in the previous reaction, converting it to the amino acid glutamate. The conversion between proline and glutamate, and the reverse reaction controlled by different enzymes, are important in maintaining a supply of the amino acids needed for protein production, and for energy transfer within the cell. A deficiency of either proline oxidase or pyrroline-5-carboxylate dehydrogenase results in a buildup of proline in the body. A deficiency of the latter enzyme leads to higher levels of proline and a buildup of the intermediate breakdown product pyrroline-5-carboxylate, causing the signs and symptoms of hyperprolinemia type II.
Q fever is a worldwide disease with acute and chronic stages caused by the bacteria known as Coxiella burnetii. Cattle, sheep, and goats are the primary reservoirs although a variety of species may be infected. Organisms are excreted in birth fluids, milk, urine, and feces of infected animals and are able to survive for long periods in the environment. Infection of humans usually occurs by inhalation of these organisms from air that contains airborne barnyard dust contaminated by dried placental material, birth fluids, and excreta of infected animals. Other modes of transmission to humans, including tick bites, ingestion of unpasteurized milk or dairy products, and human to human transmission, are rare. Humans are often very susceptible to the disease, and very few organisms may be required to cause infection. In less than 5% of cases the affected people with acute Q fever infection develop a chronic Q fever. Treatment of the acute form is made with antibiotics. The chronic form's treatment depend on the symptoms.
GSD IX can have different inheritance patterns depending on the genetic cause of the condition. When caused by mutations in the PHKA1 or PHKA2 gene, GSD IX is inherited in an X-linked recessive pattern. These genes are located on the X chromosome, which is one of the two sex chromosomes. In males (who have only one X chromosome), one altered copy of the gene in each cell is sufficient to cause the condition. In females (who have two X chromosomes), a mutation would have to occur in both copies of the gene to cause the disorder. However, some women with one altered copy of the PHKA2 gene have signs and symptoms of GSD IX, such as mild hepatomegaly or short stature in childhood. These features are usually mild but can be more severe in rare cases. Because it is unlikely that females will have two altered copies of this gene, males are affected by X-linked recessive disorders much more frequently than females. A characteristic of X-linked inheritance is that fathers cannot pass X-linked traits to their sons. When the condition is caused by mutations in the PHKB or PHKG2 gene, it is inherited in an autosomal recessive pattern, which means both copies of the gene in each cell have mutations. The parents of an individual with an autosomal recessive condition each carry one copy of the mutated gene, but they typically do not show signs and symptoms of the condition.
This condition is inherited in an autosomal recessive pattern, which means both copies of the gene in each cell have mutations. The parents of an individual with an autosomal recessive condition each carry one copy of the mutated gene, but they typically do not show signs and symptoms of the condition. Researchers speculate that if family members of affected individuals have a mutation in one copy of the LPL gene in each cell, they may have a mild increase in fat levels in the blood, which could increase their risk of health problems such as heart disease or diabetes. However, studies have not clearly demonstrated whether these individuals are more prone to develop these health problems than individuals in the general population.
How might Hashimoto's encephalitis be treated? Medical management of Hashimoto's encephalitis (HE) usually involves corticosteroids and treatment of thyroid abnormalities (if present). The optimal dose of oral steroids is not known. Most patients with HE respond to steroid therapy. Symptoms typically improve or resolve over a few months. Decisions regarding the length of steroid treatment and the rate of tapering off steroids are based on the individual's response to treatment. Treatment may last as long as two years in some patients. People with HE who experience repeated HE relapses, do not respond to steroids, and/or cannot tolerate steroid treatment have been treated with other immunosuppressive medications such as azathioprine and cyclophosphamide. Intravenous immunoglobulin, and plasmapheresis have also been used.
PD is both chronic, meaning it persists over a long period of time, and progressive, meaning its symptoms grow worse over time. Although some people become severely disabled, others experience only minor motor disruptions. Tremor is the major symptom for some individuals, while for others tremor is only a minor complaint and other symptoms are more troublesome. It is currently not possible to predict which symptoms will affect an individual, and the intensity of the symptoms also varies from person to person.
This condition is inherited in an autosomal dominant pattern, which means one copy of the altered gene in each cell is sufficient to cause the disorder. People normally inherit one copy of each gene from their mother and one copy from their father. For most genes, both copies are active, or "turned on," in all cells. For a small subset of genes, however, only one of the two copies is active. For some of these genes, only the copy inherited from a person's father (the paternal copy) is active, while for other genes, only the copy inherited from a person's mother (the maternal copy) is active. These differences in gene activation based on the gene's parent of origin are caused by a phenomenon called genomic imprinting. The GNAS gene has a complex genomic imprinting pattern. In some cells of the body the maternal copy of the gene is active, while in others the paternal copy is active. Progressive osseous heteroplasia occurs when mutations affect the paternal copy of the gene.
What are the signs and symptoms of Cataract Hutterite type? The Human Phenotype Ontology provides the following list of signs and symptoms for Cataract Hutterite type. 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) Autosomal recessive inheritance - Congenital cataract - Juvenile cataract - 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.
How might Gilbert syndrome be treated? Gilbert syndrome generally doesn't require treatment. The bilirubin levels in the blood may fluctuate over time, causing episodes of jaundice. However, the jaundice is usually mild and goes away on its own. In some cases, doctors may prescribe phenobarbital to lower extremely elevated bilirubin levels and reduce signs of jaundice. Phenobarbital administration usually alleviates signs of jaundice fairly quickly.
Medications, acupuncture, local electrical stimulation, and brain stimulation, as well as surgery, are some treatments for chronic pain. Some physicians use placebos, which in some cases has resulted in a lessening or elimination of pain. Psychotherapy, relaxation and medication therapies, biofeedback, and behavior modification may also be employed to treat chronic pain.
How is erythromelalgia diagnosed? Erythromelalgia can be diagnosed through a clinical exam and medical history. Additional tests may include a skin biopsy and thermography to evaluate skin temperature. Blood tests or other studies may be done to rule out other conditions that can cause similar symptoms. There is not a specific type of doctor that always diagnoses and treats erythromelalgia. A variety of specialists (alone or in combination) may be involved in the diagnosis and treatment of this condition. These may include vascular specialists, hematologists, dermatologists, neurologists, rheumatologists, and other types of physicians. The type of specialist that is appropriate may depend on the underlying cause when secondary erythromelalgia is present. Since erythromelalgia is a rare disease, many doctors are not familiar with the condition. The Erythromelalgia Association offers resources and support for individuals looking for more information about the diagnosis of the condition.
The complications of kidney dysplasia can include - hydronephrosis of the working kidney. A baby with kidney dysplasia in only one kidney might have other urinary tract defects. When other defects in the urinary tract block the flow of urine, the urine backs up and causes the kidneys and ureters to swell, a condition called hydronephrosis. If left untreated, hydronephrosis can damage the working kidney and reduce its ability to filter blood. Kidney damage may lead to chronic kidney disease (CKD) and kidney failure. - a urinary tract infection (UTI). A urine blockage may increase a babys chance of developing a UTI. Recurring UTIs can also lead to kidney damage. - high blood pressure. - a slightly increased chance of developing kidney cancer. More information is provided in the NIDDK health topics, urine blockage in newbornsand UTIs in children.
These resources address the diagnosis or management of mucopolysaccharidosis type IV: - Genetic Testing Registry: Morquio syndrome - Genetic Testing Registry: Mucopolysaccharidosis, MPS-IV-A - Genetic Testing Registry: Mucopolysaccharidosis, MPS-IV-B - MedlinePlus Encyclopedia: Morquio syndrome 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
The Maat-Kievit-Brunner type of Ohdo syndrome is a very rare condition, with only a few affected individuals reported in the medical literature.
Multicentric Castleman disease (MCD) is a rare condition that affects the lymph nodes and related tissues. It is a form of Castleman disease that is "systemic" and affects multiple sets of lymph nodes and other tissues throughout the body (as opposed to unicentric Castleman disease which has more "localized" effects). The signs and symptoms of MCD are often nonspecific and blamed on other, more common conditions. They can vary but may include fever; weight loss; fatigue; night sweats; enlarged lymph nodes; nausea and vomiting; and an enlarged liver or spleen. The eact underlying cause is unknown. Treatment may involve immunotherapy, chemotherapy, corticosteroid medications and/or anti-viral drugs.
Fish-eye disease is caused by mutations in the LCAT gene. This gene provides instructions for making an enzyme called lecithin-cholesterol acyltransferase (LCAT). The LCAT enzyme plays a role in removing cholesterol from the blood and tissues by helping it attach to molecules called lipoproteins, which carry it to the liver. Once in the liver, the cholesterol is redistributed to other tissues or removed from the body. The enzyme has two major functions, called alpha- and beta-LCAT activity. Alpha-LCAT activity helps attach cholesterol to a lipoprotein called high-density lipoprotein (HDL). Beta-LCAT activity helps attach cholesterol to other lipoproteins called very low-density lipoprotein (VLDL) and low-density lipoprotein (LDL). LCAT gene mutations that cause fish-eye disease impair alpha-LCAT activity, reducing the enzyme's ability to attach cholesterol to HDL. Impairment of this mechanism for reducing cholesterol in the body leads to cholesterol-containing opacities in the corneas. It is not known why the cholesterol deposits affect only the corneas in this disorder. Mutations that affect both alpha-LCAT activity and beta-LCAT activity lead to a related disorder called complete LCAT deficiency, which involves corneal opacities in combination with features affecting other parts of the body.
The NINDS supports research on genetic disorders such as ALD. The aim of this research is to find ways to prevent, treat, and cure these disorders. Studies are currently underway to identify new biomarkers of disease progression and to determine which patients will develop the childhood cerebral form of X-ALD. A recent case study in Europe demonstrated that the combination of gene therapy with bone marrow transplantation, using the patient's own bone marrow cells, may arrest disease progression in childhood cerebral X-ALD. A therapeutic trail in the United States is currently being discussed with the U.S. Food and Drug Administration.
What causes Castleman disease? The exact underlying cause of Castleman disease (CD) is poorly understood. However, some scientists suspect that an increased production of interleukin-6 (IL-6) by the immune system may contribute to the development of CD. IL-6 is a substance normally produced by cells within the lymph nodes that helps coordinate the immune response to infection. Increased production of IL-6 may result in an overgrowth of lymphatic cells, leading to many of the signs and symptoms of CD. It has also been found that a virus called human herpes virus type 8 (also known as HHV-8, Kaposi's sarcoma-associated herpesvirus, or KSHV) is present in many people with multicentric CD, specifically. HHV-8 is found in nearly all people who are HIV-positive and develop multicentric CD, and in up to 60% of affected people without HIV. The HHV-8 virus may possibly cause multicentric CD by making its own IL-6.
Mutations in the EMD and LMNA genes cause Emery-Dreifuss muscular dystrophy. The EMD and LMNA genes provide instructions for making proteins that are components of the nuclear envelope, which surrounds the nucleus in cells. The nuclear envelope regulates the movement of molecules into and out of the nucleus, and researchers believe it may play a role in regulating the activity of certain genes. Most cases of Emery-Dreifuss muscular dystrophy are caused by mutations in the EMD gene. This gene provides instructions for making a protein called emerin, which appears to be essential for the normal function of skeletal and cardiac muscle. Most EMD gene mutations prevent the production of any functional emerin. It remains unclear how a lack of this protein results in the signs and symptoms of Emery-Dreifuss muscular dystrophy. Less commonly, Emery-Dreifuss muscular dystrophy results from mutations in the LMNA gene. This gene provides instructions for making two very similar proteins, lamin A and lamin C. Most of the LMNA mutations that cause this condition result in the production of an altered version of these proteins. Researchers are investigating how the altered versions of lamins A and C lead to muscle wasting and heart problems in people with Emery-Dreifuss muscular dystrophy.
Scientists are pursuing a wide range of basic and clinical studies on osteoporosis. Significant advances in preventing and treating osteoporosis continue to be made. Such advances are the direct result of research focused on - determining the causes and consequences of bone loss at the cellular and tissue levels - assessing risk factors - developing new strategies to maintain and even enhance bone density and reduce fracture risk - exploring the roles of such factors as genetics, hormones, calcium, vitamin D, drugs, and exercise on bone mass. determining the causes and consequences of bone loss at the cellular and tissue levels assessing risk factors developing new strategies to maintain and even enhance bone density and reduce fracture risk exploring the roles of such factors as genetics, hormones, calcium, vitamin D, drugs, and exercise on bone mass. Get more information about ongoing research on osteoporosis from the National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS) at NIH.
What are the signs and symptoms of Lymphedema and cerebral arteriovenous anomaly? The Human Phenotype Ontology provides the following list of signs and symptoms for Lymphedema and cerebral arteriovenous anomaly. 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 cerebral vasculature 90% Lymphedema 90% Autosomal dominant inheritance - Pulmonary hypertension - 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.
Binswanger's disease is a type of dementia caused by widespread, microscopic areas of damage to the deep layers of white matter in the brain. Most affected people experience progressive memory loss and deterioration of intellectual abilities (dementia); urinary urgency or incontinence; and an abnormally slow, unsteady gait (style of walking). While there is no cure, the progression of Binswanger's disease can be slowed with healthy lifestyle choices. Treatment is based on the signs and symptoms present in each person.
Most doctors will attempt to treat the pain first with drugs. Some individuals respond well to anticonvulsant drugs, such as carbamazepine and gabapentin. Surgical options, including nerve resection, tractotomy, or microvascular decompression, should be considered when individuals either dont respond to, or stop responding to, drug therapy. Surgery is usually successful at ending the cycles of pain, although there may be some sensory loss in the mouth, throat, or tongue.
MECP2-related severe neonatal encephalopathy has an X-linked pattern of inheritance. A condition is considered X-linked if the mutated gene that causes the disorder is located on the X chromosome, one of the two sex chromosomes in each cell. In males, who have only one X chromosome, a mutation in the only copy of the gene in each cell is sufficient to cause the condition. In females, who have two X chromosomes, a mutation in one of the two copies of the gene in each cell is usually sufficient to cause the condition. However, females with a mutation in the MECP2 gene do not develop MECP2-related severe neonatal encephalopathy. Instead, they typically develop Rett syndrome, which has signs and symptoms that include intellectual disability, seizures, and movement problems. In some cases, males with MECP2-related severe neonatal encephalopathy inherit the mutation from a mother with mild neurological problems or from a mother with no features related to the mutation. A characteristic of X-linked inheritance is that fathers cannot pass X-linked traits to their sons. Other cases result from new mutations in the gene and occur in people with no history of the disorder in their family.
There is no specific therapy for Angelman syndrome. Medical therapy for seizures is usually necessary. Physical and occupational therapies, communication therapy, and behavioral therapies are important in allowing individuals with Angelman syndrome to reach their maximum developmental potential.
The usual course of treatment may include medications such as methylphenidate (Ritalin) or dextroamphetamine (Dexedrine), which are stimulants that decrease impulsivity and hyperactivity and increase attention. Most experts agree that treatment for ADHD should address multiple aspects of the individual's functioning and should not be limited to the use of medications alone. Treatment should include structured classroom management, parent education (to address discipline and limit-setting), and tutoring and/or behavioral therapy for the child.
What are the signs and symptoms of Sjogren-Larsson-like syndrome? The Human Phenotype Ontology provides the following list of signs and symptoms for Sjogren-Larsson-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) Abnormality of the eye - Abnormality of the nervous system - Autosomal recessive inheritance - Congenital ichthyosiform erythroderma - Hyperkeratosis - 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.
These resources address the diagnosis or management of prothrombin deficiency: - Genetic Testing Registry: Prothrombin deficiency, congenital - MedlinePlus Encyclopedia: Factor II deficiency 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
Carney complex is an inherited condition characterized by spotty skin pigmentation, cardiac (heart) myxomas (tumors composed of mucous connective tissue), skin myxomas, endocrine tumors or over-activity, and schwannomas. Some families with this condition have been found to have mutations in the PRKAR1A gene. Carney complex is believed to be inherited in an autosomal dominant manner, which means that one copy of the altered gene in each cell is sufficient to cause the disorder. In most cases, an affected person inherits the mutation from one affected parent.
Complement component 2 deficiency (C2D) is a genetic condition that affects the immune system. Signs and symptoms include recurrent bacterial infections and risk for a variety of autoimmune conditions. Infections can be very serious and are common in early life. They become less frequent during the teen and adult years. The most frequent autoimmune conditions associated with C2D are lupus (10-20%) and vasculitis. C2D is caused by mutations in the C2 gene and is inherited in an autosomal recessive fashion.
These resources address the diagnosis or management of familial paroxysmal nonkinesigenic dyskinesia: - Gene Review: Gene Review: Familial Paroxysmal Nonkinesigenic Dyskinesia - Genetic Testing Registry: Paroxysmal choreoathetosis - Genetic Testing Registry: Paroxysmal nonkinesigenic dyskinesia 2 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
What are the signs and symptoms of Van Buchem disease type 2? The Human Phenotype Ontology provides the following list of signs and symptoms for Van Buchem disease type 2. 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) Autosomal dominant inheritance - Mandibular prognathia - Thickened calvaria - Thickened cortex of long bones - 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.
Although there is no specific treatment for any of the mitochondrial myopathies, physical therapy may extend the range of movement of muscles and improve dexterity. Vitamin therapies such as riboflavin, coenzyme Q, and carnitine (a specialized amino acid) may provide subjective improvement in fatigue and energy levels in some patients.
In some instances Tarlov cysts can cause nerve pain and other pain, weakness, or nerve root compression. Acute and chronic pain may require changes in lifestyle. If left untreated, nerve root compression can cause permanent neurological damage.
Some brachial plexus injuries may heal without treatment. Many children who are injured during birth improve or recover by 3 to 4 months of age. Treatment for brachial plexus injuries includes physical therapy and, in some cases, surgery.
What causes dihydropyrimidine dehydrogenase (DPD) deficiency? DPD deficiency is caused by mutations in the DPYD gene. This gene provides instructions for making an enzyme called dihydropyrimidine dehydrogenase (DPD), which is involved in the breakdown of molecules called uracil and thymine. Uracil and thymine are building blocks of DNA, RNA, and molecules that serve as energy sources in cells. Mutations in the DPYD gene result in deficiencies (to various degrees) of functional DPD, interfering with the breakdown of uracil and thymine in cells. This results in excessive amounts of uracil and thymine in the blood, urine, and the fluid that surrounds the brain and spinal cord. It is currently poorly understood exactly how this cascade of events causes the signs and symptoms of the condition.
Most cases of multiple system atrophy are sporadic, which means they occur in people with no history of the disorder in their family. Rarely, the condition has been reported to run in families; however, it does not have a clear pattern of inheritance.
Hanhart syndrome is a rare condition that primarily affects the craniofacial region and the limbs (arms and legs). People affected by this condition are often born with a short, incompletely developed tongue; absent or partially missing fingers and/or toes; abnormalities of the arms and/or legs; and an extremely small jaw. The severity of these physical abnormalities varies greatly among affected people, and children with this condition often have some, but not all, of the symptoms. The cause of Hanhart syndrome is not fully understood. Treatment depends on the signs and symptoms present in each person.