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The National Institute of Neurological Disorders and Stroke (NINDS), one of several institutes of the National Institutes of Health (NIH), conducts and funds research aimed at understanding normal brain development, as well as disease-related disorders of the brain and nervous system. Other NIH institutes and centers also support research on disorders that may affect development. Among several projects, scientists are studying genetic mechanisms and identifying novel genes involved with brain development. Animal models are helping scientists to better understand the pathology of human disease, and to discover how the sizes of tissues and organs are impacted by developmental variability. Other researchers hope to gain a better understanding of normal brain development and the molecular and cellular mechanisms of microcephaly.
Trimethylaminuria is an uncommon genetic disorder; its incidence is unknown.
These resources address the diagnosis or management of familial HDL deficiency: - Genetic Testing Registry: Familial hypoalphalipoproteinemia 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
- Childhood nephrotic syndrome is not a disease in itself; rather, it is a group of symptoms that - indicate kidney damageparticularly damage to the glomeruli, the tiny units within the kidney where blood is filtered - result in the release of too much protein from the body into the urine - The two types of childhood nephrotic syndrome are - primarythe most common type of childhood nephrotic syndrome, which begins in the kidneys and affects only the kidneys - secondarythe syndrome is caused by other diseases - The signs and symptoms of childhood nephrotic syndrome may include - edemaswelling, most often in the legs, feet, or ankles and less often in the hands or face - albuminuriawhen a childs urine has high levels of albumin - hypoalbuminemiawhen a childs blood has low levels of albumin - hyperlipidemiawhen a childs blood cholesterol and fat levels are higher than normal - A health care provider may order urine tests to help determine if a child has kidney damage from childhood nephrotic syndrome. - Health care providers will decide how to treat childhood nephrotic syndrome based on the type: - primary childhood nephrotic syndrome: medications - secondary childhood nephrotic syndrome: treat the underlying illness or disease - congenital nephrotic syndrome: medications, surgery to remove one or both kidneys, or transplantation
What causes autosomal dominant craniometaphyseal dysplasia? Autosomal dominant craniometaphyseal dysplasia is caused by mutations in the ANKH gene. The ANKH gene provides instructions for making a protein that is present in bone and transports a molecule called pyrophosphate out of cells. Pyrophosphate helps regulate bone formation by preventing mineralization, the process by which minerals such as calcium and phosphorus are deposited in developing bones. The ANKH protein may have other, unknown functions. Mutations in the ANKH gene that cause autosomal dominant craniometaphyseal dysplasia may decrease the ANKH protein's ability to transport pyrophosphate out of cells. Reduced levels of pyrophosphate can increase bone mineralization, contributing to the bone overgrowth seen in craniometaphyseal dysplasia. Why long bones are shaped differently and only the skull bones become thicker in people with this condition remains unclear.
These resources address the diagnosis or management of Behet disease: - American Behcet's Disease Association: Diagnosis - American Behcet's Disease Association: Treatments - Genetic Testing Registry: Behcet's 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
Polycythemia vera (PV) is a condition characterized by an increased number of red blood cells in the bloodstream. Affected people may also have excess white blood cells and platelets. These extra cells cause the blood to be thicker than normal, increasing the risk for blood clots that can block blood flow in arteries and veins. People with PV have an increased risk of deep vein thrombosis which can cause a pulmonary embolism, heart attack, and stroke. Most cases of PV are not inherited and are acquired during a person's lifetime. In rare cases, the risk for PV runs in families and may be inherited in an autosomal dominant manner. The condition has been associated with mutations in the JAK2 and TET2 genes.
Bowen-Conradi syndrome is caused by a mutation in the EMG1 gene. This gene provides instructions for making a protein that is involved in the production of cellular structures called ribosomes, which process the cell's genetic instructions to create new proteins. Ribosomes are assembled in a cell compartment called the nucleolus. The particular EMG1 gene mutation known to cause Bowen-Conradi syndrome is thought to make the protein unstable, resulting in a decrease in the amount of EMG1 protein that is available in the nucleolus. A shortage of this protein in the nucleolus would impair ribosome production, which may reduce cell growth and division (proliferation); however, it is unknown how EMG1 gene mutations lead to the particular signs and symptoms of Bowen-Conradi syndrome.
Sandhoff disease is a rare inherited disorder that progressively destroys nerve cells (neurons) in the brain and spinal cord. The most common and severe form of Sandhoff disease becomes apparent in infancy. Infants with this disorder typically appear normal until the age of 3 to 6 months, when their development slows and muscles used for movement weaken. Affected infants lose motor skills such as turning over, sitting, and crawling. They also develop an exaggerated startle reaction to loud noises. As the disease progresses, children with Sandhoff disease experience seizures, vision and hearing loss, intellectual disability, and paralysis. An eye abnormality called a cherry-red spot, which can be identified with an eye examination, is characteristic of this disorder. Some affected children also have enlarged organs (organomegaly) or bone abnormalities. Children with the severe infantile form of Sandhoff disease usually live only into early childhood. Other forms of Sandhoff disease are very rare. Signs and symptoms can begin in childhood, adolescence, or adulthood and are usually milder than those seen with the infantile form. Characteristic features include muscle weakness, loss of muscle coordination (ataxia) and other problems with movement, speech problems, and mental illness. These signs and symptoms vary widely among people with late-onset forms of Sandhoff disease.
This condition is inherited in an autosomal dominant pattern, which means one copy of an altered gene in each cell is sufficient to cause the disorder. In many cases, a person with distal arthrogryposis type 1 has a parent and other close family members with the condition.
As the name suggests, mutations in the COL4A1 gene cause COL4A1-related brain small vessel disease. The COL4A1 gene provides instructions for making one component of a protein called type IV collagen. Type IV collagen molecules attach to each other to form complex protein networks. These protein networks are the main components of basement membranes, which are thin sheet-like structures that separate and support cells in many tissues. Type IV collagen networks play an important role in the basement membranes in virtually all tissues throughout the body, particularly the basement membranes surrounding the body's blood vessels (vasculature). The COL4A1 gene mutations that cause COL4A1-related brain small-vessel disease result in the production of a protein that disrupts the structure of type IV collagen. As a result, type IV collagen molecules cannot attach to each other to form the protein networks in basement membranes. Basement membranes without these networks are unstable, leading to weakening of the tissues that they surround. In people with COL4A1-related brain small-vessel disease, the vasculature in the brain weakens, which can lead to blood vessel breakage and stroke. Similar blood vessel weakness and breakage occurs in the eyes of some affected individuals.
Nicolaides-Baraitser syndrome is caused by mutations in the SMARCA2 gene. This gene provides instructions for making one piece (subunit) of a group of similar protein complexes known as SWI/SNF complexes. These complexes regulate gene activity (expression) by a process known as chromatin remodeling. Chromatin is the network of DNA and proteins that packages DNA into chromosomes. The structure of chromatin can be changed (remodeled) to alter how tightly DNA is packaged. Chromatin remodeling is one way gene expression is regulated during development; when DNA is tightly packed, gene expression is lower than when DNA is loosely packed. To provide energy for chromatin remodeling, the SMARCA2 protein uses a molecule called ATP. The SMARCA2 gene mutations that cause Nicolaides-Baraitser syndrome result in the production of an altered protein that interferes with the normal function of the SWI/SNF complexes. These altered proteins are able to form SWI/SNF complexes, but the complexes are nonfunctional. As a result, they cannot participate in chromatin remodeling. Disturbance of this regulatory process alters the activity of many genes, which likely explains the diverse signs and symptoms of Nicolaides-Baraitser syndrome.
Bradyopsia appears to be rare. Only a few affected individuals worldwide have been described in the medical literature.
Gastric cancer is the fourth most common form of cancer worldwide, affecting 900,000 people per year. HDGC probably accounts for less than 1 percent of these cases.
Holes in the heart are simple congenital (kon-JEN-ih-tal) heart defects. Congenital heart defects are problems with the heart's structure that are present at birth. These defects change the normal flow of blood through the heart. The heart has two sides, separated by an inner wall called the septum. With each heartbeat, the right side of the heart receives oxygen-poor blood from the body and pumps it to the lungs. The left side of the heart receives oxygen-rich blood from the lungs and pumps it to the body. The septum prevents mixing of blood between the two sides of the heart. However, some babies are born with holes in the upper or lower septum. A hole in the septum between the heart's two upper chambers is called an atrial septal defect (ASD). A hole in the septum between the heart's two lower chambers is called a ventricular septal defect (VSD). ASDs and VSDs allow blood to pass from the left side of the heart to the right side. Thus, oxygen-rich blood mixes with oxygen-poor blood. As a result, some oxygen-rich blood is pumped to the lungs instead of the body. Over the past few decades, the diagnosis and treatment of ASDs and VSDs have greatly improved. Children who have simple congenital heart defects can survive to adulthood. They can live normal, active lives because their heart defects close on their own or have been repaired.
Potocki-Shaffer syndrome is a rare condition, although its prevalence is unknown. Fewer than 100 cases have been reported in the scientific literature.
- Tests used for diagnosing diabetes and prediabetes include the A1C testfor type 2 diabetes and prediabetesthe fasting plasma glucose (FPG) test, and the oral glucose tolerance test (OGTT). Another blood test, the random plasma glucose (RPG) test, is sometimes used to diagnose diabetes when symptoms are present during a regular health checkup. - Anyone age 45 or older should consider getting tested for diabetes or prediabetes. People younger than 45 should consider testing if they are overweight or obese and have one or more additional risk factors for diabetes. - If results of testing are normal, testing should be repeated at least every 3 years. Health care providers may recommend more frequent testing depending on initial results and risk status. - People whose test results indicate they have prediabetes may be tested again in 1 year and should take steps to prevent or delay type 2 diabetes. - Many people with prediabetes develop type 2 diabetes within 10 years. - Modest weight loss and moderate physical activity can help people with prediabetes delay or prevent type 2 diabetes.
Infantile-onset ascending hereditary spastic paralysis is a rare disorder, with at least 30 cases reported in the scientific literature.
Have you ever felt dizzy, lightheaded, or as if the room is spinning around you? If the feeling happens often, it could be a sign of a balance problem. Balance problems can make you feel unsteady or as if you were moving, spinning, or floating. They are one cause of falls and fall-related injuries, such as hip fracture. Some balance problems are due to problems in the inner ear. Others may involve another part of the body, such as the brain or the heart. Aging, infections, head injury, certain medicines, or problems with blood circulation may result in a balance problem. If you are having balance problems, see your doctor. Balance disorders can be signs of other health problems, such as an ear infection or a stroke. In some cases, treating the illness that is causing the disorder will help with the balance problem. Exercises, a change in diet, and some medicines also can help. NIH: National Institute on Deafness and Other Communication Disorders
Neuromuscular disorders affect the nerves that control your voluntary muscles. Voluntary muscles are the ones you can control, like in your arms and legs. Your nerve cells, also called neurons, send the messages that control these muscles. When the neurons become unhealthy or die, communication between your nervous system and muscles breaks down. As a result, your muscles weaken and waste away. The weakness can lead to twitching, cramps, aches and pains, and joint and movement problems. Sometimes it also affects heart function and your ability to breathe. Examples of neuromuscular disorders include - Amyotrophic lateral sclerosis - Multiple sclerosis - Myasthenia gravis - Spinal muscular atrophy Many neuromuscular diseases are genetic, which means they run in families or there is a mutation in your genes. Sometimes, an immune system disorder can cause them. Most of them have no cure. The goal of treatment is to improve symptoms, increase mobility and lengthen life.
Myelofibrosis is a disorder of the bone marrow, in which the marrow is replaced by fibrous (scar) tissue. Scarring of the bone marrow causes anemia, which can lead to fatigue and weakness, as well as pooling of the blood in abnormal sites like the liver and spleen, causing these organs to swell. Although myelofibrosis can occur at any age, it typically develops after the age of 50. In most cases, myelofibrosis gets progressively worse. Treatment is aimed at relieving signs and symptoms and may include medications, blood transfusions, chemotherapy, radiation therapy and surgery.
Malignant eccrine spiradenoma is a type of tumor that develops from a sweat gland in the skin. It starts as a rapidly-growing bump on the head or abdomen, and may cause tenderness, redness, or an open wound. The exact cause of malignant eccrine spiradenoma is unknown, though it is thought that sun exposure or problems with the immune system (immunosuppression) may contribute to the development of this tumor. Because malignant eccrine spiradenoma is quite rare, there are no established treatment guidelines; however, in practice, surgery is often performed to remove the tumor and additional treatments may follow, depending on the severity and extent of the cancer.
Diabetes mellitus type 1 (DM1) is a condition in which cells in the pancreas (beta cells) stop producing insulin, causing abnormally high blood sugar levels. Lack of insulin results in the inability of the body to use glucose for energy and control the amount of sugar in the blood. DM1 can occur at any age, but usually develops by early adulthood, most often in adolescence. Symptoms of high blood sugar may include frequent urination, excessive thirst, fatigue, blurred vision, tingling or loss of feeling in the hands and feet, and weight loss. The exact cause of DM1 is unknown, but having certain "variants" of specific genes may increase a person's risk to develop the condition. A predisposition to develop DM1 runs in families, but no known inheritance pattern exists. Treatment includes blood sugar control and insulin replacement therapy. Improper control can cause recurrence of high blood sugar, or abnormally low blood sugar (hypoglycemia) during exercise or when eating is delayed. If not treated, the condition can be life-threatening. Over many years, chronic high blood sugar may be associated with a variety of complications that affect many parts of the body.
If you are pregnant with more than one baby, you are far from alone. Multiple births are up in the United States. More women are having babies after age 30 and more are taking fertility drugs. Both boost the chance of carrying more than one baby. A family history of twins also makes multiples more likely. Years ago, most twins came as a surprise. Now, most women know about a multiple pregnancy early. Women with multiple pregnancies should see their health care providers more often than women who are expecting one baby. Multiple pregnancy babies have a much higher risk of being born prematurely and having a low birth weight. There is also more of a risk of disabilities. Some women have to go on bed rest to delay labor. Finally, they may deliver by C-section, especially if there are three babies or more. Parenting multiples can be a challenge. Volunteer help and support groups for parents of multiples can help. Dept. of Health and Human Services Office on Women's Health
SRY-positive 46,XX testicular disorder of sex development is almost never inherited. This condition results from the translocation of a Y chromosome segment containing the SRY gene during the formation of sperm (spermatogenesis). Affected people typically have no history of the disorder in their family and cannot pass on the disorder because they are infertile. In rare cases, the SRY gene may be misplaced onto a chromosome other than the X chromosome. This translocation may be carried by an unaffected father and passed on to a child with two X chromosomes, resulting in 46,XX testicular disorder of sex development. In another very rare situation, a man may carry the SRY gene on both the X and Y chromosome; a child who inherits his X chromosome will develop male sex characteristics despite having no Y chromosome. The inheritance pattern of SRY-negative 46,XX testicular disorder of sex development is unknown. A few families with unaffected parents have had more than one child with the condition, suggesting the possibility of autosomal recessive inheritance. Autosomal recessive means both copies of a 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 X-linked recessive 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), 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. 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. In about two-thirds of cases, an affected male inherits the mutation from his mother, who carries one altered copy of the DMD gene. The other one-third of cases probably result from new mutations in the gene in affected males and are not inherited. In X-linked recessive inheritance, a female with one mutated copy of the gene in each cell is called a carrier. She can pass on the altered gene but usually does not experience signs and symptoms of the disorder. Occasionally, however, females who carry a DMD gene mutation may have muscle weakness and cramping. These symptoms are typically milder than the severe muscle weakness and atrophy seen in affected males. Females who carry a DMD gene mutation also have an increased risk of developing heart abnormalities including cardiomyopathy.
Your peritoneum is the tissue that lines your abdominal wall and covers most of the organs in your abdomen. A liquid, peritoneal fluid, lubricates the surface of this tissue. Disorders of the peritoneum are not common. They include - Peritonitis - an inflammation of the peritoneum - Cancer - Complications from peritoneal dialysis Your doctor may use imaging tests or lab tests to analyze the peritoneal fluid to diagnose the problem. Treatment of peritoneal disorders depends on the cause.
What causes congenital diaphragmatic hernia? Congenital diaphragmatic hernia (CDH) can occur as an isolated finding, as part of a genetic syndrome or chromosome abnormality, or as part of a complex but nonsyndromic set of findings. Currently, about 15%-20% of individuals with CDH have an identifiable cause for their diaphragm defect. These individuals are classified as having syndromic CDH either resulting from a recognized chromosome abnormality or as a single gene disorder. In the remaining 80%-85% of individuals with CDH, the cause is not known. Potential causes in these individuals may include: a currently undetectable chromosomal microdeletion (tiny loss of genetic material) or microduplication (an extra copy of genetic material) a mutation in a major gene important for diaphragm development combined effects of multiple minor genetic mutations or variants (polygenic inheritance) effects of gene-environment interactions (multifactorial inheritance) effects of non-genetic factors (e.g. epigenetic or teratogenic) GeneReviews has more detailed information about causes of CDH; this information can be viewed by clicking here.
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.
Mucopolysaccharidosis type IIIC (MPS IIIC) is an genetic disorder that makes the body unable to break down large sugar molecules called glycosaminoglycans (GAGs, formerly called mucopolysaccharides). Specifically, people with this condition are unable to break down a GAG called heparan sulfate. Affected individuals can have severe neurological symptoms, including progressive dementia, aggressive behavior, hyperactivity, seizures, deafness, loss of vision, and an inability to sleep for more than a few hours at a time. MPS IIIC results from the missing or altered enzyme acetyl-CoAlpha-glucosaminide acetyltransferase. This condition is inherited in an autosomal recessive manner. There is no specific treatment. Most people with MPS IIIC live into their teenage years; some live longer.
The appendix is a small, tube-like organ attached to the first part of the large intestine. It is located in the lower right part of the abdomen. It has no known function. A blockage inside of the appendix causes appendicitis. The blockage leads to increased pressure, problems with blood flow, and inflammation. If the blockage is not treated, the appendix can burst and spread infection into the abdomen. This causes a condition called peritonitis. The main symptom is pain in the abdomen, often on the right side. It is usually sudden and gets worse over time. Other symptoms may include - Swelling in the abdomen - Loss of appetite - Nausea and vomiting - Constipation or diarrhea - Inability to pass gas - Low fever Not everyone with appendicitis has all these symptoms. Appendicitis is a medical emergency. Treatment almost always involves removing the appendix. Anyone can get appendicitis, but it is more common among people 10 to 30 years old. NIH: National Institute of Diabetes and Digestive and Kidney Diseases
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.
Normal pressure hydrocephalus (NPH) is an abnormal buildup of cerebrospinal fluid (CSF) in the brain's ventricles, or cavities. It occurs if the normal flow of CSF throughout the brain and spinal cord is blocked in some way. This causes the ventricles to enlarge, putting pressure on the brain. Normal pressure hydrocephalus can occur in people of any age, but it is most common in the elderly. It may result from a subarachnoid hemorrhage, head trauma, infection, tumor, or complications of surgery. However, many people develop NPH even when none of these factors are present. In these cases the cause of the disorder is unknown. Symptoms of NPH include progressive mental impairment and dementia, problems with walking, and impaired bladder control. The person also may have a general slowing of movements or may complain that his or her feet feel "stuck." Because these symptoms are similar to those of other disorders such as Alzheimer's disease, Parkinson's disease, and Creutzfeldt-Jakob disease, the disorder is often misdiagnosed. Many cases go unrecognized and are never properly treated. Doctors may use a variety of tests, including brain scans (CT and/or MRI), a spinal tap or lumbar catheter, intracranial pressure monitoring, and neuropsychological tests, to help them diagnose NPH and rule out other conditions.
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.
The most common risk factor for cardiogenic shock is having a heart attack. If you've had a heart attack, the following factors can further increase your risk for cardiogenic shock: Older age A history of heart attacks or heart failure Coronary heart disease that affects all of the hearts major blood vessels High blood pressure Diabetes Women who have heart attacks are at higher risk for cardiogenic shock than men who have heart attacks.
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.
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.
Angiostrongylus cantonensis is a parasitic worm of rats. It is also called the rat lungworm. The adult form of the parasite is found only in rodents. Infected rats pass larvae of the parasite in their feces. Snails and slugs get infected by ingesting the larvae. These larvae mature in snails and slugs but do not become adult worms. The life cycle is completed when rats eat infected snails or slugs and the larvae further mature to become adult worms.
Summary : Radiation is energy that travels in the form of waves or high-speed particles. It occurs naturally in sunlight. Man-made radiation is used in X-rays, nuclear weapons, nuclear power plants and cancer treatment. If you are exposed to small amounts of radiation over a long time, it raises your risk of cancer. It can also cause mutations in your genes, which you could pass on to any children you have after the exposure. A lot of radiation over a short period, such as from a radiation emergency, can cause burns or radiation sickness. Symptoms of radiation sickness include nausea, weakness, hair loss, skin burns and reduced organ function. If the exposure is large enough, it can cause premature aging or even death. You may be able to take medicine to reduce the radioactive material in your body. Environmental Protection Agency
Cancer prevention clinical trials are used to study ways to prevent cancer. Cancer prevention clinical trials are used to study ways to lower the risk of developing certain types of cancer. Some cancer prevention trials are conducted with healthy people who have not had cancer but who have an increased risk for cancer. Other prevention trials are conducted with people who have had cancer and are trying to prevent another cancer of the same type or to lower their chance of developing a new type of cancer. Other trials are done with healthy volunteers who are not known to have any risk factors for cancer. The purpose of some cancer prevention clinical trials is to find out whether actions people take can prevent cancer. These may include eating fruits and vegetables, exercising, quitting smoking, or taking certain medicines, vitamins, minerals, or food supplements. New ways to prevent endometrial cancer are being studied in clinical trials. Clinical trials are taking place in many parts of the country. Information about clinical trials can be found in the Clinical Trials section of the NCI website. Check NCI's list of cancer clinical trials for endometrial cancer prevention trials that are now accepting patients.
Certain factors affect prognosis (chance of recovery) and treatment options. The prognosis (chance of recovery) and treatment options depend on the following: - Whether the tumor is a low-grade or high-grade astrocytoma. - Where the tumor has formed in the CNS and if it has spread to nearby tissue or to other parts of the body. - How fast the tumor is growing. - The child's age. - Whether cancer cells remain after surgery. - Whether there are changes in certain genes. - Whether the child has NF1 or tuberous sclerosis. - Whether the child has diencephalic syndrome (a condition which slows physical growth). - Whether the child has intracranial hypertension (cerebrospinal fluid pressure within the skull is high) at the time of diagnosis. - Whether the astrocytoma has just been diagnosed or has recurred (come back). For recurrent astrocytoma, prognosis and treatment depend on how much time passed between the time treatment ended and the time the astrocytoma recurred.
Bleeding is the loss of blood. It can happen inside or outside the body. Bleeding can be a reaction to a cut or other wound. It can also result from an injury to internal organs. There are many situations in which you might bleed. A bruise is bleeding under the skin. Some strokes are caused by bleeding in the brain. Other bleeding, such as gastrointestinal bleeding, coughing up blood, or vaginal bleeding, can be a symptom of a disease. Normally, when you bleed, your blood forms clots to stop the bleeding. Severe bleeding may require first aid or a trip to the emergency room. If you have a bleeding disorder, your blood does not form clots normally.
The National Institute of Neurological Disorders and Stroke (NINDS) and other institutes of the National Institutes of Health (NIH) conduct research related to congenital myopathies in their laboratories at the NIH and also support additional research through grants to major medical institutions across the country. Much of this research focuses on finding better ways to prevent, treat, and ultimately cure the disorders that make up the congenital myopathies.
In the United States, 1 in 4 women dies from heart disease. The most common cause of heart disease in both men and women is narrowing or blockage of the coronary arteries, the blood vessels that supply blood to the heart itself. This is called coronary artery disease, and it happens slowly over time. It's the major reason people have heart attacks. Heart diseases that affect women more than men include - Coronary microvascular disease (MVD) - a problem that affects the heart's tiny arteries - Broken heart syndrome - extreme emotional stress leading to severe but often short-term heart muscle failure The older a woman gets, the more likely she is to get heart disease. But women of all ages should be concerned about heart disease. All women can take steps to prevent it by practicing healthy lifestyle habits. NIH: National Heart, Lung, and Blood Institute
The NINDS conducts and supports a broad range of research on movement disorders including tardive dyskinesia. The goals of this research are to improve understanding of these disorders and to discover ways to treat, prevent, and, ultimately, cure them.
This condition is inherited in an autosomal dominant pattern, which means one copy of the altered NOTCH2 gene in each cell is sufficient to cause the disorder. Most cases result from new mutations in the gene and occur in people with no history of the disorder in their family. Less commonly, an affected person inherits the mutation from one affected parent.
MPAN is a rare condition that is estimated to affect less than 1 in 1 million people.
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.
How is Dyggve-Melchior-Clausen syndrome diagnosed? DMC syndrome may be suspected following a thorough clinical evaluation, a detailed patient history, and identification of characteristic findings (e.g., barrel chest, and disproportionate short stature). Radiographs may confirm specific skeletal abnormalities and findings consistent with DMC syndrome. Genetic testing can also confirm a diagnosis. Is genetic testing available for Dyggve-Melchior-Clausen syndrome? GeneTests lists the name of the laboratory that performs clinical genetic testing for Dyggve-Melchior-Clausen syndrome. To view the contact information for this laboratory, click here. Please note: Most of the laboratories listed through GeneTests do not accept direct contact from patients and their families; therefore, if you are interested in learning more, you will need to work with a health care provider or a genetics professional. Below, we provide a list of online resources that can assist you in locating a genetics professional near you.
Carbamoyl phosphate synthetase I deficiency is a rare disorder; its overall incidence is unknown. Researchers in Japan have estimated that it occurs in 1 in 800,000 newborns in that country.
A child who has heritable retinoblastoma has an increased risk of trilateral retinoblastoma and other cancers. A child with heritable retinoblastoma has an increased risk of a pineal tumor in the brain. When retinoblastoma and a brain tumor occur at the same time, it is called trilateral retinoblastoma. The brain tumor is usually diagnosed between 20 and 36 months of age. Regular screening using MRI (magnetic resonance imaging) may be done for a child thought to have heritable retinoblastoma or for a child with retinoblastoma in one eye and a family history of the disease. CT (computerized tomography) scans are usually not used for routine screening in order to avoid exposing the child to ionizing radiation. Heritable retinoblastoma also increases the child's risk of other types of cancer such as lung cancer, bladder cancer, or melanoma in later years. Regular follow-up exams are important.
Diabetes means your blood glucose (often called blood sugar) is too high. Your blood always has some glucose in it because your body needs glucose for energy to keep you going. But too much glucose in the blood isn't good for your health. Glucose comes from the food you eat and is also made in your liver and muscles. Your blood carries the glucose to all of the cells in your body. Insulin is a chemical (a hormone) made by the pancreas. The pancreas releases insulin into the blood. Insulin helps the glucose from food get into your cells. If your body does not make enough insulin or if the insulin doesn't work the way it should, glucose can't get into your cells. It stays in your blood instead. Your blood glucose level then gets too high, causing pre-diabetes or diabetes.
Ornithine transcarbamylase deficiency is believed to occur in approximately 1 in every 80,000 people.
Christianson syndrome is a disorder that primarily affects the nervous system. This condition becomes apparent in infancy. Its characteristic features include delayed development, intellectual disability, an inability to speak, problems with balance and coordination (ataxia), and difficulty standing or walking. Individuals who do learn to walk lose the ability in childhood. Most affected children also have recurrent seizures (epilepsy), beginning between ages 1 and 2. Other features seen in many people with Christianson syndrome include a small head size (microcephaly); a long, narrow face with prominent nose, jaw, and ears; an open mouth and uncontrolled drooling; and abnormal eye movements. Affected children often have a happy demeanor with frequent smiling and spontaneous laughter.
Summary : Many U.S. households have guns, but they can cause harm if not handled properly. Here are some things you can do to keep yourself and your family safe: - Teach children that they shouldn't touch guns and that if they see a gun, to leave it alone and tell an adult. - If your children play at another home, talk to the parents about gun safety. - Treat every gun as if it were loaded. - Always store guns unloaded. - Lock guns in a rack or safe, and hide the keys or combination. - Store ammunition away from guns and keep it locked. - Don't keep guns in your home if someone in your family has a mental illness, severe depression, or potential for violence.
Tarsal carpal coalition syndrome is a genetic condition characterized by fusion of the bones in the wrist (carpals), feet (tarsals), and the fingers and toes (phalanges). Other bone abnormalities in the hands and feet may be present. Approximately 10 affected families have been described. Tarsal carpal coalition syndrome is caused by mutations in the NOD gene, and it is inherited in an autosomal dominant pattern.
Is genetic testing for 21-hydroxylase-deficient congenital adrenal hyperplasia available? Yes. Genetic testing of 21-hydroxylase-deficient congenital adrenal hyperplasia is available. In most people with this condition, the genetic test result can be used to predict disease severity. Click here to view a list of laboratories offering CYP21A2 testing.
There is no cure for heart failure, but it can be controlled by treating the underlying conditions that cause it. Treatment for heart failure will depend on the type and stage of heart failure (the severity of the condition). The goals for treatment of all stages of heart failure are to reduce symptoms, treat the cause (such as heart disease, high blood pressure, or diabetes), stop the disease from worsening, and prolong life. Treatments for Heart Failure Treatments for heart failure include - lifestyle changes - medications - specialized care for those who are in the advanced stages. lifestyle changes medications specialized care for those who are in the advanced stages. Treatment for heart failure will reduce the chances that you will have to go to the hospital and make it easier for you to do the things you like to do. It is very important that you follow your treatment plan by keeping doctor appointments, taking medications, and making lifestyle changes.
These resources address the diagnosis or management of IMAGe syndrome: - Gene Review: Gene Review: IMAGe Syndrome - Genetic Testing Registry: Intrauterine growth retardation, metaphyseal dysplasia, adrenal hypoplasia congenita, and genital anomalies - National Institutes of Health Clinical Center: Managing Adrenal Insufficiency 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
A week or two after the blisters erupt, the oozing sores will begin to crust over. The sores are usually gone after another two weeks. The pain usually decreases over the next few weeks, but some patients may have pain for months -- sometimes, for years.
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. In many cases, an affected person has a parent and other family members with the condition. While most people with Buschke-Ollendorff syndrome have both connective tissue nevi and osteopoikilosis, some affected families include individuals who have the skin abnormalities alone or the bone abnormalities alone. When osteopoikilosis occurs without connective tissue nevi, the condition is often called isolated osteopoikilosis.
Dubin-Johnson syndrome is caused by mutations in the ABCC2 gene. The ABCC2 gene provides instructions for making a protein called multidrug resistance protein 2 (MRP2). This protein acts as a pump to transport substances out of the liver, kidneys, intestine, or placenta so they can be excreted from the body. For example, MRP2 transports a substance called bilirubin out of liver cells and into bile (a digestive fluid produced by the liver). Bilirubin is produced during the breakdown of old red blood cells and has an orange-yellow tint. ABCC2 gene mutations lead to a version of MRP2 that cannot effectively pump substances out of cells. These mutations particularly affect the transport of bilirubin into bile. As a result, bilirubin accumulates in the body, causing a condition called hyperbilirubinemia. The buildup of bilirubin in the body causes the yellowing of the skin and whites of the eyes seen in people with Dubin-Johnson syndrome.
No genetic mutations are known to cause an abdominal wall defect. Multiple genetic and environmental factors likely influence the development of this disorder. Omphalocele and gastroschisis are caused by different errors in fetal development. Omphalocele occurs during an error in digestive tract development. During the formation of the abdominal cavity in the sixth to tenth weeks of fetal development, the intestines normally protrude into the umbilical cord but recede back into the abdomen as development continues. Omphalocele occurs when the intestines do not recede back into the abdomen, but remain in the umbilical cord. Other abdominal organs can also protrude through this opening, resulting in the varied organ involvement that occurs in omphalocele. The error that leads to gastroschisis formation is unknown. It is thought to be either a disruption in the blood flow to the digestive tract or a lack of development or injury to gastrointestinal tissue early in fetal development. For reasons that are unknown, women under the age of 20 are at the greatest risk of having a baby with gastroschisis. Other risk factors in pregnancy may include taking medications that constrict the blood vessels (called vasoconstrictive drugs) or smoking, although these risk factors have not been confirmed.
Gum disease is caused by dental plaque -- a sticky film of bacteria that builds up on teeth. Regular brushing and flossing help get rid of plaque. But plaque that is not removed can harden and form tartar that brushing doesn't clean. Only a professional cleaning by a dentist or dental hygienist can remove tartar.
How is nonalcoholic steatohepatitis diagnosed? NASH is usually first suspected when elevations are noted in liver tests that are included in routine blood test panels. These may include alanine aminotransferase (ALT) or aspartate aminotransferase (AST). When further evaluation shows no apparent reason for liver disease (such as medications, viral hepatitis, or excessive use of alcohol) and when x-rays or imaging studies of the liver show fat, NASH is suspected. The only way to definitely diagnosis NASH and separate it from simple fatty liver is through a liver biopsy. For a liver biopsy, a needle is inserted through the skin to remove a small piece of the liver. NASH is diagnosed when examination of the tissue with a microscope shows fat along with inflammation and damage to liver cells. If the tissue shows fat without inflammation and damage, simple fatty liver or NAFLD is diagnosed. An important piece of information learned from the biopsy is whether scar tissue has developed in the liver. Blood tests and scans cannot reliably provide this information at this time.
PFIC is estimated to affect 1 in 50,000 to 100,000 people worldwide. PFIC type 1 is much more common in the Inuit population of Greenland and the Old Order Amish population of the United States.
What are the signs and symptoms of Hypercholesterolemia, autosomal dominant? The Human Phenotype Ontology provides the following list of signs and symptoms for Hypercholesterolemia, autosomal dominant. 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 - Corneal arcus - Coronary artery disease - Hypercholesterolemia - Xanthelasma - 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.
Familial erythrocytosis is an inherited condition characterized by an increased number of red blood cells (erythrocytes). The primary function of these cells is to carry oxygen from the lungs to tissues and organs throughout the body. Signs and symptoms of familial erythrocytosis can include headaches, dizziness, nosebleeds, and shortness of breath. The excess red blood cells also increase the risk of developing abnormal blood clots that can block the flow of blood through arteries and veins. If these clots restrict blood flow to essential organs and tissues (particularly the heart, lungs, or brain), they can cause life-threatening complications such as a heart attack or stroke. However, many people with familial erythrocytosis experience only mild signs and symptoms or never have any problems related to their extra red blood cells.
When your kidneys fail, they are no longer able to filter blood and remove waste from your body well enough to maintain health. Kidney failure causes harmful waste and excess fluid to build up in your body. Your blood pressure may rise, and your hands and feet may swell. Since the kidneys are not working well, the goal is to find treatments that can replace kidney function in order to maintain health. There are two main options for this: dialysis and transplantation.
What are the signs and symptoms of Unna-Thost palmoplantar keratoderma? The Human Phenotype Ontology provides the following list of signs and symptoms for Unna-Thost palmoplantar keratoderma. 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 - Nonepidermolytic palmoplantar keratoderma - 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 symptoms of CHHF, as reported in the only described patient, resemble those of other South American hemorrhagic fevers, such as Argentine HF or Bolivian HF. The incubation period is unknown, but for Argentine hemorrhagic fever (AHF) is 6 to 16 days. The CHHF clinical course included: - fever - headache - articulation and muscle pain - vomiting These symptoms were followed by deterioration with multiple hemorrhagic signs. The only described CHHF patient died 14 days after onset of symptoms. Since Arenaviruses may enter the fetus through infection of the mother, and anecdotal evidence suggests that infected pregnant women may suffer miscarriages, it is reasonable to assume that both infection of the fetus and miscarriage may be associated with CHHF infection in the mother.
Studies show that approximately 1 in 450 males has the genetic change that leads to FXTAS, although the condition occurs in only about 40 percent of them. It is estimated that 1 in 3,000 men over age 50 is affected. Similarly, 1 in 200 females has the genetic change, but only an estimated 16 percent of them develop signs and symptoms of FXTAS.
Hemophagocytic lymphohistiocytosis (HLH) is a condition in which the body makes too many activated immune cells (macrophages and lymphocytes). People with HLH usually develop symptoms within the first months or years of life which may include fever, enlarged liver or spleen, cytopenia (lower-than-normal number of blood cells), and neurological abnormalities. HLH may be inherited in an autosomal recessive manner or it can have non-genetic causes in which case it is called acquired HLH. There are five subtypes of inherited HLH which are designated familial HLH, types 1-5. Each subtype is caused by a change (mutation) in a different gene. The genetic cause of type 1 is currently unknown. Types 2-5 are caused by mutations in the PRF1 gene, the UNC13D gene, the STX11 gene and the STXBP2 gene, respectively. Treatment depends on a number of factors, including the severity of symptoms, the age of onset, and the underlying cause of the condition.
These resources address the diagnosis or management of thrombotic thrombocytopenic purpura: - Genetic Testing Registry: Upshaw-Schulman syndrome - MedlinePlus Encyclopedia: Blood Clots - MedlinePlus Encyclopedia: Hemolytic anemia - MedlinePlus Encyclopedia: Purpura - MedlinePlus Encyclopedia: Thrombocytopenia - MedlinePlus Encyclopedia: Thrombotic thrombocytopenic purpura 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 OCRL gene cause Lowe syndrome. The OCRL gene provides instructions for making an enzyme that helps modify fat (lipid) molecules called membrane phospholipids. By controlling the levels of specific membrane phospholipids, the OCRL enzyme helps regulate the transport of certain substances to and from the cell membrane. This enzyme is also involved in the regulation of the actin cytoskeleton, which is a network of fibers that make up the cell's structural framework. The actin cytoskeleton has several critical functions, including determining cell shape and allowing cells to move. Some mutations in the OCRL gene prevent the production of any OCRL enzyme. Other mutations reduce or eliminate the activity of the enzyme or prevent it from interacting with other proteins within the cell. Researchers are working to determine how OCRL mutations cause the characteristic features of Lowe syndrome. Because the OCRL enzyme is present throughout the body, it is unclear why the medical problems associated with this condition are mostly limited to the brain, kidneys, and eyes. It is possible that other enzymes may be able to compensate for the defective OCRL enzyme in unaffected tissues.
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.
These resources address the diagnosis or management of polycystic kidney disease: - Gene Review: Gene Review: Polycystic Kidney Disease, Autosomal Dominant - Gene Review: Gene Review: Polycystic Kidney Disease, Autosomal Recessive - Genetic Testing Registry: Polycystic kidney disease 2 - Genetic Testing Registry: Polycystic kidney disease 3, autosomal dominant - Genetic Testing Registry: Polycystic kidney disease, adult type - Genetic Testing Registry: Polycystic kidney disease, infantile type - MedlinePlus Encyclopedia: Polycystic kidney disease 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
Mal de debarquement syndrome is a balance disorder that most commonly develops following an ocean cruise or other type of water travel and less commonly following air travel, train travel, or other motion experiences. The symptoms typically reported include: persistent sensation of motion such as rocking, swaying, and/or bobbing, difficulty maintaining balance, anxiety, fatigue, unsteadiness, and difficulty concentrating. The symptoms may be last anywhere from a month to years. Symptoms may or may not go away with time; however, they may reoccur following another motion experience or during periods of stress or illness. Although there is no known cure for mal de debarquement syndrome, there is evidence that some patients have responded positively to antidepressants or anti-seizure medications. Customized vestibular therapy and exercise routines may also be effective.
You can't prevent pernicious anemia caused by a lack of intrinsic factor. Without intrinsic factor, you won't be able to absorb vitamin B12 and will develop pernicious anemia. Although uncommon, some people develop pernicious anemia because they don't get enough vitamin B12 in their diets. You can take steps to prevent pernicious anemia caused by dietary factors. Eating foods high in vitamin B12 can help prevent low vitamin B12 levels. Good food sources of vitamin B12 include: Breakfast cereals with added vitamin B12 Meats such as beef, liver, poultry, and fish Eggs and dairy products (such as milk, yogurt, and cheese) Foods fortified with vitamin B12, such as soy-based beverages and vegetarian burgers If youre a strict vegetarian, talk with your doctor about having your vitamin B12 level checked regularly. Vitamin B12 also is found in multivitamins and B-complex vitamin supplements. Doctors may recommend supplements for people at risk for vitamin B12 deficiency, such as strict vegetarians or people who have had stomach surgery. Older adults may have trouble absorbing vitamin B12. Thus, doctors may recommend that older adults eat foods fortified with vitamin B12 or take vitamin B12 supplements.
These resources address the diagnosis or management of North American Indian childhood cirrhosis: - Children's Organ Transplant Association - Genetic Testing Registry: North american indian childhood cirrhosis 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 FRMD7 gene cause X-linked infantile nystagmus. The FRMD7 gene provides instructions for making a protein whose exact function is unknown. This protein is found mostly in areas of the brain that control eye movement and in the light-sensitive tissue at the back of the eye (retina). Research suggests that FRMD7 gene mutations cause nystagmus by disrupting the development of certain nerve cells in the brain and retina. In some people with X-linked infantile nystagmus, no mutation in the FRMD7 gene has been found. The genetic cause of the disorder is unknown in these individuals. Researchers believe that mutations in at least one other gene, which has not been identified, can cause this disorder.
MCPH can result from mutations in at least seven genes. Mutations in the ASPM gene are the most common cause of the disorder, accounting for about half of all cases. The genes associated with MCPH play important roles in early brain development, particularly in determining brain size. Studies suggest that the proteins produced from many of these genes help regulate cell division in the developing brain. Mutations in any of the genes associated with MCPH impair early brain development. As a result, affected infants have fewer nerve cells (neurons) than normal and are born with an unusually small brain. The reduced brain size underlies the small head size, intellectual disability, and developmental delays seen in many affected individuals.
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.
Symptoms of primary myelofibrosis include pain below the ribs on the left side and feeling very tired. Primary myelofibrosis often does not cause early signs or symptoms. It may be found during a routine blood test. Signs and symptoms may be caused by primary myelofibrosis or by other conditions. Check with your doctor if you have any of the following: - Feeling pain or fullness below the ribs on the left side. - Feeling full sooner than normal when eating. - Feeling very tired. - Shortness of breath. - Easy bruising or bleeding. - Petechiae (flat, red, pinpoint spots under the skin that are caused by bleeding). - Fever. - Night sweats. - Weight loss.
The NINDS conducts a broad range of research on neuromuscular disorders such as PLS. This research is aimed at developing techniques to diagnose, treat, prevent, and ultimately cure these devastating diseases.
These resources address the diagnosis or management of hereditary cerebral amyloid angiopathy: - Genetic Testing Registry: Cerebral amyloid angiopathy, APP-related - Genetic Testing Registry: Dementia familial British - Genetic Testing Registry: Dementia, familial Danish - Genetic Testing Registry: Hereditary cerebral amyloid angiopathy, Icelandic type - Johns Hopkins Medicine: Intracerebral Hemorrhage - MedlinePlus Encyclopedia: Cerebral Amyloid Angiopathy 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
Cold-induced sweating syndrome is inherited in anautosomal recessive pattern, which means both copies of the CRLF1 or CLCF1 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.
How is hereditary geniospasm inherited? Hereditary geniospasm is inherited in an autosomal dominant manner. This means that having only one mutated copy of the causative gene in each body cell is sufficient to cause signs and symptoms of the condition. When an individual with an autosomal dominant condition has children, each child has a 50% (1 in 2) chance to inherit the mutated copy of the gene and also be affected. Because there is a 50% chance for each child, it is possible for all of the children of an affected individual to be affected, or likewise, for all of the children to be unaffected.
Cancer prevention clinical trials are used to study ways to prevent cancer. Cancer prevention clinical trials are used to study ways to lower the risk of developing certain types of cancer. Some cancer prevention trials are conducted with healthy people who have not had cancer but who have an increased risk for cancer. Other prevention trials are conducted with people who have had cancer and are trying to prevent another cancer of the same type or to lower their chance of developing a new type of cancer. Other trials are done with healthy volunteers who are not known to have any risk factors for cancer. The purpose of some cancer prevention clinical trials is to find out whether actions people take can prevent cancer. These may include eating fruits and vegetables, exercising, quitting smoking, or taking certain medicines, vitamins, minerals, or food supplements. New ways to prevent ovarian, fallopian tube, and primary peritoneal cancer are being studied in clinical trials. Clinical trials are taking place in many parts of the country. Information about clinical trials can be found in the Clinical Trials section of the NCI website. Check NCI's list of cancer clinical trials for ovarian cancer prevention trials that are now accepting patients.
What causes pityriasis rubra pilaris? In most cases, pityriasis rubra pilaris (PRP) occurs sporadically for unknown reasons. In a few families with the inherited form, familial PRP, the condition is caused by mutations in the CARD14 gene. This gene gives instructions for making a protein that turns on other proteins that regulate genes that control the body's immune responses and inflammatory reactions. It also protects cells from certain signals that would otherwise cause them to self-destruct. The CARD14 protein is particularly abundant in the skin. Mutations in the gene can cause a person to have an abnormal inflammatory response. Researchers are trying to find out how these mutations cause the specific features of familial PRP.
Mutations in the PTPN11, RAF1, or BRAF genes cause multiple lentigines syndrome. Approximately 90 percent of individuals with multiple lentigines syndrome have mutations in the PTPN11 gene. RAF1 and BRAF gene mutations are responsible for a total of about 10 percent of cases. A small proportion of people with multiple lentigines syndrome do not have an identified mutation in any of these three genes. In these individuals, the cause of the condition is unknown. The PTPN11, RAF1, and BRAF genes all provide instructions for making proteins that are involved in important signaling pathways needed for the proper formation of several types of tissue during development. These proteins also play roles in the regulation of cell division, cell movement (migration), and cell differentiation (the process by which cells mature to carry out specific functions). Mutations in the PTPN11, RAF1, or BRAF genes lead to the production of a protein that functions abnormally. This abnormal functioning impairs the protein's ability to respond to cell signals. A disruption in the regulation of systems that control cell growth and division leads to the characteristic features of multiple lentigines syndrome.
Periodic fever, aphthous stomatitis, pharyngitis, cervical adenitis (PFAPA) is a periodic disease, which is a heterogeneous group of disorders characterized by short episodes of illness that regularly recur for several years alternated with healthy periods. PFAPA is characterized by high fevers lasting three to six days and recurring every 21 to 28 days, accompanied by some or all of the signs noted in its name, namely mouth sores (aphthous stomatitis), sore throat (pharyngitis), and enlarged lymph nodes (cervical adenitis). The syndrome usually occurs in children younger than five years; although it has been reported in children up to 13 years. The syndrome is sporadic and non-hereditary. The course of PFAPA can be persistent for years before spontaneous, full resolution.
Malakoplakia is a rare chronic inflammatory disease. It commonly involves the urinary tract, but may also involve the prostate, ureter, pelvis, bones, lungs, testes, gastrointestinal tract, skin, and kidney. Malakoplakia of the kidney is often associated with chronic kidney infection and obstruction. E. coli is the most common organism found in urine samples. Common symptoms of malakoplakia of the kidney include flank pain and signs of active kidney infection. It may affect one or both kidneys and can cause symptoms similar to that of kidney failure.Careful studies of the involved tissues can help to distinguish malakoplakia of the kidney from similar conditions, namely xanthogranulomatous pyelonephritis and megalocytic interstitial nephritis.
Summary : Arsenic is a natural element found in soil and minerals. Arsenic compounds are used to preserve wood, as pesticides, and in some industries. Arsenic can get into air, water, and the ground from wind-blown dust. It may also get into water from runoff. You may be exposed to arsenic by - Taking in small amounts in food, drinking water, or air - Breathing sawdust or burning smoke from arsenic-treated wood - Living in an area with high levels of arsenic in rock - Working in a job where arsenic is made or used Exposure to arsenic can cause many health problems. Being exposed to low levels for a long time can change the color of your skin. It can cause corns and small warts. Exposure to high levels of arsenic can cause death. Agency for Toxic Substances Disease Registry
The most common symptom of microscopic colitis is chronic, watery, nonbloody diarrhea. Episodes of diarrhea can last for weeks, months, or even years. However, many people with microscopic colitis may have long periods without diarrhea. Other signs and symptoms of microscopic colitis can include - a strong urgency to have a bowel movement or a need to go to the bathroom quickly - pain, cramping, or bloating in the abdomenthe area between the chest and the hipsthat is usually mild - weight loss - fecal incontinenceaccidental passing of stool or fluid from the rectumespecially at night - nausea - dehydrationa condition that results from not taking in enough liquids to replace fluids lost through diarrhea The symptoms of microscopic colitis can come and go frequently. Sometimes, the symptoms go away without treatment.
Essential pentosuria occurs almost exclusively in individuals with Ashkenazi Jewish ancestry. Approximately 1 in 3,300 people in this population are affected.
Experts have not yet found a way to prevent Whipple disease.
What are the signs and symptoms of Hairy palms and soles? The Human Phenotype Ontology provides the following list of signs and symptoms for Hairy palms and soles. 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 - Hypermelanotic macule - 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.
Scientists are evaluating new and improving current treatments for myasthenia gravis. Different drugs are being tested, either alone or in combination with existing drug therapies, to see if they are effective in treating the disorder. One study seeks to understand the molecular basis of synaptic transmission in the nervous system. Thymectomy is being studied in individuals who do not have thymoma, to assess long-term benefit the surgery may have over medical therapy alone. And investigators are examining the safety and efficacy of autologous hematopoietic stem cell transplantation to treat refractory and severe myasthenia gravis.
Fetal hydantoin syndrome is a disorder that is caused by exposure of a fetus to phenytoin, a drug commonly prescribed for epilepsy. Not all infants exposed to phenytoin will be affected with the disorder. Symptoms in affected individuals may include abnormalities of the skull and facial features, growth deficiencies, underdeveloped nails of the fingers and toes, and/or mild developmental delays. Other findings occasionally associated with this syndrome include cleft lip and palate, having an abnormally small head (microcephaly) and brain malformations with more significant developmental delays. Treatment may include surgery for cleft lip and palate and special education and related services for children with learning delays. Other treatment is symptomatic and supportive.