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Summary : College life involves excitement, along with new challenges, risks, and responsibilities. You are meeting new people, learning new things, and making your own decisions. It can sometimes be stressful. You have to deal with pressures related to food, drink, appearance, drugs, and sexual activity. There are steps you can take to stay healthy and safe while you're in college: - Eat a balanced diet - Get enough sleep - Get regular physical activity - Maintain your health with checkups and vaccinations - If you decide to have sex, practice safe sex - Make smart choices about alcohol and drugs - Get help if you are stressed or depressed Centers for Disease Control and Prevention
Genital warts are a sexually transmitted disease (STD) caused by the human papillomavirus (HPV). The warts are soft, moist, pink, or flesh-colored bumps. You can have one or many of these bumps. In women, the warts usually occur in or around the vagina, on the cervix or around the anus. In men, genital warts are less common but might occur on the tip of the penis. You can get genital warts during oral, vaginal, or anal sex with an infected partner. Correct usage of latex condoms greatly reduces, but does not completely eliminate, the risk of catching or spreading HPV. HPV vaccines may help prevent some of the HPV infections that cause genital warts. Your health care provider usually diagnoses genital warts by seeing them. The warts might disappear on their own. If not, your health care provider can treat or remove them. The virus stays in your body even after treatment, so warts can come back. NIH: National Institute of Allergy and Infectious Diseases
Transmission of Hendra virus to humans can occur after exposure to body fluids and tissues or excretions of horses infected with Hendra virus. Horses may be infected after exposure to virus in the urine of infected flying foxes. To date, no human-to-human transmission has been documented.
Crigler Najjar syndrome, type 2 is caused by mutations in the UGT1A1 gene. The gene mutation causes the body to be unable to make adequate enzyme to convert bilirubin into a form that can easily be removed from the body. Without this enzyme, bilirubin can build up in the body and lead to extraordinarily yellow skin and eyes (jaundice). This condition is less severe than the type 1 form, however the severity of type II can vary greatly. Almost all patients with Crigler Najjar syndrome, type 2 develop normally, but there is a risk for some neurologic damage from kernicterus (bilirubin accumulation in the brain). In general people with type 2 Crigler Najjar syndrome have serum bilirubin levels ranging from 20 to 45 mg/dL. Phenobarbital treatment is the standard therapy for this condition and can often help to drastically reduce the bilirubin levels.
What causes palmoplantar keratoderma type 1? Punctate palmoplantar keratoderma type 1 is a condition that is usually inherited in an autosomal dominant manner. It has recently been shown to be caused by mutations in the AAGAB gene in several families. Although the exact function of the AAGAB gene is currently unknown, the gene is thought to play an important role in skin integrity.
ARVC can result from mutations in at least eight genes. Many of these genes are involved in the function of desmosomes, which are structures that attach heart muscle cells to one another. Desmosomes provide strength to the myocardium and play a role in signaling between neighboring cells. Mutations in the genes responsible for ARVC often impair the normal function of desmosomes. Without normal desmosomes, cells of the myocardium detach from one another and die, particularly when the heart muscle is placed under stress (such as during vigorous exercise). These changes primarily affect the myocardium surrounding the right ventricle, one of the two lower chambers of the heart. The damaged myocardium is gradually replaced by fat and scar tissue. As this abnormal tissue builds up, the walls of the right ventricle become stretched out, preventing the heart from pumping blood effectively. These changes also disrupt the electrical signals that control the heartbeat, which can lead to arrhythmia. Gene mutations have been found in 30 to 40 percent of people with ARVC. Mutations in a gene called PKP2 are most common. In people without an identified mutation, the cause of the disorder is unknown. Researchers are looking for additional genetic factors, particularly those involved in the function of desmosomes, that may play a role in causing ARVC.
Pili torti is a rare hair condition characterized by fragile hair. In pili torti hair has a flattened shaft with clusters of narrow twists at irregular intervals. Some cases may be inherited in autosomal dominant or autosomal recessive patterns, while others are acquired. In the inherited form, symptoms tend to be present from early childhood. It can occur alone or as part of other diseases like ectodermal dysplasias, Menke disease, Bjornstand syndrome, or Bazex syndrome. Acquired cases of pili torti may be associated with anorexia nervosa, malnutrition, oral retinoid treatment, or inflammatory scalp conditions (e.g., cutaneous lupus erythematousus). If pili torti is detected, it is necessary to investigate possible neurological disorders, hearing loss, and defects in the hair, nails, sweat glands and teeth. There is no specific treatment for this condition, but it may improve spontaneously after puberty. Click here to visit Medscape and view an image of a child with pili torti.
Canker sores are small, round sores in your mouth. They can be on the inside of your cheek, under your tongue, or in the back of your throat. They usually have a red edge and a gray center. They can be quite painful. They are not the same as cold sores, which are caused by herpes simplex. Canker sores aren't contagious. They may happen if you have a viral infection. They may also be triggered by stress, food allergies, lack of vitamins and minerals, hormonal changes or menstrual periods. In some cases the cause is unknown. In most cases, the sores go away by themselves. Some ointments, creams or rinses may help with the pain. Avoiding hot, spicy food while you have a canker sore also helps.
Although ankylosing spondylitis can occur in more than one person in a family, it is not a purely genetic disease. Multiple genetic and environmental factors likely play a part in determining the risk of developing this disorder. As a result, inheriting a genetic variation linked with ankylosing spondylitis does not mean that a person will develop the condition, even in families in which more than one family member has the disorder. For example, about 80 percent of children who inherit HLA-B27 from a parent with ankylosing spondylitis do not develop the disorder.
- Thyroid disease is a disorder that results when the thyroid gland produces more or less thyroid hormone than the body needs. - Pregnancy causes normal changes in thyroid function but can also lead to thyroid disease. - Uncontrolled hyperthyroidism during pregnancy can lead to serious health problems in the mother and the unborn baby. - During pregnancy, mild hyperthyroidism does not require treatment. More severe hyperthyroidism is treated with antithyroid medications, which act by interfering with thyroid hormone production. - Uncontrolled hypothyroidism during pregnancy can lead to serious health problems in the mother and can affect the unborn babys growth and brain development. - Hypothyroidism during pregnancy is treated with synthetic thyroid hormone, thyroxine (T4). - Postpartum thyroiditisinflammation of the thyroid glandcauses a brief period of hyperthyroidism, often followed by hypothyroidism that usually goes away within a year. Sometimes the hypothyroidism is permanent.
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 component of the National Institutes of Health, the largest supporter of biomedical research in the world. Hamatopoietic stem cell transplantation -- using stem cells from umbilical cord blood or bone marrow -- has been shown to benefit some individuals when given early in the course of the disease. Scientists plan to test hematopoietic stem cell transplantation plus gene therapy to see if it dramatically increases life expectancy in a mouse model of the disease. Also in a mouse mode, NINDS-funded scientists are testing a combined treatment approach that uses a harmless virus to increase protein production, along with blood stem cell transplantation and small-molecule-based drugs, to reduce neuroinflammation, cell death, and nerve cell degeneration seen in Krabbe disease.
These resources address the diagnosis or management of cystic fibrosis: - American Society for Reproductive Medicine: Male Infertility - Baby's First Test - Gene Review: Gene Review: CFTR-Related Disorders - Genetic Testing Registry: Cystic fibrosis - Genomics Education Programme (UK) - MedlinePlus Encyclopedia: Cystic Fibrosis 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
If you have diabetes, your blood glucose, or blood sugar, levels are too high. Over time, this can damage your eyes. The most common problem is diabetic retinopathy. It is a leading cause of blindness in American adults. Your retina is the light-sensitive tissue at the back of your eye. You need a healthy retina to see clearly. Diabetic retinopathy damages the tiny blood vessels inside your retina. You may not notice it at first. Symptoms can include - Blurry or double vision - Rings, flashing lights, or blank spots - Dark or floating spots - Pain or pressure in one or both of your eyes - Trouble seeing things out of the corners of your eyes Treatment often includes laser treatment or surgery, with follow-up care. Two other eye problems can happen to people with diabetes. A cataract is a cloud over the lens of your eye. Surgery helps you see clearly again. Glaucoma happens when pressure builds up in the eye, damaging the main nerve. Eye drops or surgery can help. If you have diabetes, you should have a complete eye exam every year. Finding and treating problems early may save your vision. NIH: National Institute of Diabetes and Digestive and Kidney Diseases
Achondrogenesis is a group of severe disorders that are present from birth and affect the development of cartilage and bone. Infants with achondrogenesis usually have a small body, short arms and legs, and other skeletal abnormalities that cause life-threatening complications. There are at least three forms of achondrogenesis, type 1A, type 1B and type 2, which are distinguished by signs and symptoms, pattern of inheritance, and the results of imaging studies such as x-rays (radiology), tissue analysis (histology), and genetic testing. Type 1A and 1B achondrogenesis are both inherited in an autosomal recessive pattern. Type 1B may be caused by mutations in the SLC26A2 gene. Type 2 achondrogenesis is inherited in an autosomal dominant pattern and is caused by new (de novo) mutations in the COL2A1 gene.
Imerslund-Grasbeck syndrome (IGS) is a rare condition characterized by vitamin B12 deficiency, often causing megaloblastic anemia. IGS usually appears in childhood. Other features may include failure to thrive, infections, and neurological damage. Mild proteinuria (with no signs of kidney disease) is present in about half of affected individuals. IGS is caused by mutations in either the CUBN or AMN gene and is inherited in an autosomal recessive manner. Treatment includes life-long vitamin B12 injections, with which affected individuals can stay healthy for decades.
If you have low vision, eyeglasses, contact lenses, medicine, or surgery may not help. Activities like reading, shopping, cooking, writing, and watching TV may be hard to do. The leading causes of low vision and blindness in the United States are age-related eye diseases: macular degeneration, cataract and glaucoma. Other eye disorders, eye injuries and birth defects can also cause vision loss. Whatever the cause, lost vision cannot be restored. It can, however, be managed. A loss of vision means that you may have to reorganize your life and learn new ways of doing things. If you have some vision, visual aids such as special glasses and large print books can make life easier. There are also devices to help those with no vision, like text-reading software and braille books. The sooner vision loss or eye disease is found and treated, the greater your chances of keeping your remaining vision. You should have regular comprehensive eye exams by an eye care professional. NIH: National Eye Institute
These resources address the diagnosis or management of Tourette syndrome: - Gene Review: Gene Review: Tourette Disorder Overview - Genetic Testing Registry: Tourette Syndrome - MedlinePlus Encyclopedia: Gilles de la Tourette 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
Kleine-Levin syndrome is a rare disorder that primarily affects adolescent males (approximately 70 percent of those with Kleine-Levin syndrome are male). It is characterized by recurring but reversible periods of excessive sleep (up to 20 hours per day). Symptoms occur as "episodes," typically lasting a few days to a few weeks. Episode onset is often abrupt, and may be associated with flu-like symptoms. Excessive food intake, irritability, childishness, disorientation, hallucinations, and an abnormally uninhibited sex drive may be observed during episodes. Mood can be depressed as a consequence, but not a cause, of the disorder. Affected individuals are completely normal between episodes, although they may not be able to remember afterwards everything that happened during the episode. It may be weeks or more before symptoms reappear. Symptoms may be related to malfunction of the hypothalamus and thalamus, parts of the brain that govern appetite and sleep.
What causes Prader-Willi syndrome? Prader-Willi syndrome (PWS) is caused by the loss of active genes in a specific region of chromosome 15. People normally inherit one copy of chromosome 15 from each parent. Some genes on chromosome 15 are only active (or "expressed") on the copy that is inherited from a person's father (the paternal copy). When genes are only active if inherited from a specific parent, it is called genomic imprinting. About 70% of cases of PWS occur when a person is missing specific genes on the long arm of the paternal copy of chromosome 15. This is called a deletion. While there are copies of these same genes on the maternal copy of chromosome 15, the maternal copies of these genes are not expressed. In about 25% of cases, PWS is due to a person inheriting only 2 maternal copies of chromosome 15, instead of one copy from each parent. This is called maternal uniparental disomy. Rarely (in about 2% of cases), PWS is caused by a rearrangement of chromosome material called a translocation, or by a change (mutation) or other defect that abnormally inactivates genes on the paternal chromosome 15. Each of these genetic changes result in a loss of gene function on part of chromosome 15, likely causing the characteristic features of PWS.
Tests that examine the skin are used to detect (find) and diagnose melanoma. If a mole or pigmented area of the skin changes or looks abnormal, the following tests and procedures can help find and diagnose melanoma: - Skin exam: A doctor or nurse checks the skin for moles, birthmarks, or other pigmented areas that look abnormal in color, size, shape, or texture. - Biopsy : A procedure to remove the abnormal tissue and a small amount of normal tissue around it. A pathologist looks at the tissue under a microscope to check for cancer cells. It can be hard to tell the difference between a colored mole and an early melanoma lesion. Patients may want to have the sample of tissue checked by a second pathologist. If the abnormal mole or lesion is cancer, the sample of tissue may also be tested for certain gene changes. It is important that abnormal areas of the skin not be shaved off or cauterized (destroyed with a hot instrument, an electric current, or a caustic substance) because cancer cells that remain may grow and spread. See the PDQ summary on Skin Cancer Screening for more information.
Proximal symphalangism, which is also called Cushing's symphalangism, is a rare genetic condition characterized by the fusion of the proximal joints in the hands and feet. These individuals usually have straight fingers and are unable to make a fist. Other joints may also be affected, leading to stiff joints in the elbows, ankles and wrists. Hearing loss due to the fusion of the auditory ossicles (bones in the middle ear) is also a characteristic feature. This condition is inherited in an autosomal dominant pattern and is caused by a mutation in the NOG gene or GDF5 gene.
Mutations in the VCAN gene cause Wagner syndrome. The VCAN gene provides instructions for making a protein called versican. Versican is found in the extracellular matrix, which is the intricate lattice of proteins and other molecules that forms in the spaces between cells. Versican interacts with many of these proteins and molecules to facilitate the assembly of the extracellular matrix and ensure its stability. Within the eye, versican interacts with other proteins to maintain the structure and gel-like consistency of the vitreous. VCAN gene mutations that cause Wagner syndrome lead to insufficient levels of versican in the vitreous. Without enough versican to interact with the many proteins of the vitreous, the structure becomes unstable. This lack of stability in the vitreous affects other areas of the eye and contributes to the vision problems that occur in people with Wagner syndrome. It is unknown why VCAN gene mutations seem solely to affect vision.
The prognosis (chance of recovery) and treatment options depend on the following: - Whether the cancer is in one or both eyes. - The size and number of tumors. - Whether the tumor has spread to the area around the eye, to the brain, or to other parts of the body. - Whether there are symptoms at the time of diagnosis, for trilateral retinoblastoma. - The age of the child. - How likely it is that vision can be saved in one or both eyes. - Whether a second type of cancer has formed.
Molybdenum cofactor deficiency is a rare condition that is estimated to occur in 1 in 100,000 to 200,000 newborns worldwide. More than 100 cases have been reported in the medical literature, although it is thought that the condition is underdiagnosed, so the number of affected individuals may be higher.
How is multiple endocrine neoplasia, type 1 inherited? Multiple endocrine neoplasia, type 1 (MEN1) is inherited in an autosomal dominant manner. This means that to be affected, a person only needs a change (mutation) in one copy of the responsible gene in each cell. In some cases, an affected person inherits the mutation from an affected parent. Other cases may result from new (de novo) mutations in the gene. These cases occur in people with no history of the disorder in their family. A person with MEN1 has a 50% chance with each pregnancy of passing along the altered gene to his or her child.
Blue cone monochromatism is an inherited X-linked vision disorder. In this condition both red and green cone sensitivities are absent, however rod function and blue cone sensitivities are present. Signs and symptoms include severely reduced visual acuity (clearnes), eccentric fixation, infantile nystagmus that decreases with age, no obvious retinal abnormalities, and poor or no color discrimination.
Although breast cancer is much more common in women, men can get it too. It happens most often to men between the ages of 60 and 70. Breast lumps usually aren't cancer. However, most men with breast cancer have lumps. Other breast symptoms can include - Dimpled or puckered skin - A red, scaly nipple or skin - Fluid discharge Risk factors for male breast cancer include exposure to radiation, a family history of breast cancer, and having high estrogen levels, which can happen with diseases like cirrhosis or Klinefelter's syndrome. Treatment for male breast cancer is usually a mastectomy, which is surgery to remove the breast. Other treatments include radiation, chemotherapy and/or hormone therapy. NIH: National Cancer Institute
There is no cure for SMA. Treatment consists of managing the symptoms and preventing complications.
The overall incidence of GSDI is 1 in 100,000 individuals. GSDIa is more common than GSDIb, accounting for 80 percent of all GSDI cases.
Imagine if parts of your body moved when you didn't want them to. If you have a movement disorder, you experience these kinds of impaired movement. Dyskinesia is abnormal uncontrolled movement and is a common symptom of many movement disorders. Tremors are a type of dyskinesia. Nerve diseases cause many movement disorders, such as Parkinson's disease. Other causes include injuries, autoimmune diseases, infections and certain medicines. Many movement disorders are inherited, which means they run in families. Treatment varies by disorder. Medicine can cure some disorders. Others get better when an underlying disease is treated. Often, however, there is no cure. In that case, the goal of treatment is to improve symptoms and relieve pain.
This condition is inherited in an autosomal dominant pattern, which means one copy of the altered NOTCH3 gene in each cell is sufficient to cause the disorder. In most cases, an affected person inherits the mutation from one affected parent. A few rare cases may result from new mutations in the NOTCH3 gene. These cases occur in people with no history of the disorder in their family.
Adenosine deaminase deficiency is very rare and is estimated to occur in approximately 1 in 200,000 to 1,000,000 newborns worldwide. This disorder is responsible for approximately 15 percent of SCID cases.
Progressive supranuclear palsy (PSP) is a rare brain disorder that causes serious and progressive problems with control of gait and balance, along with complex eye movement and thinking problems. One of the classic signs of the disease is an inability to aim the eyes properly, which occurs because of lesions in the area of the brain that coordinates eye movements. Some individuals describe this effect as a blurring. Affected individualsoften show alterations of mood and behavior, including depression and apathy as well as progressive mild dementia. The disorder's long name indicates that the disease begins slowly and continues to get worse (progressive), and causes weakness (palsy) by damaging certain parts of the brain above pea-sized structures called nuclei that control eye movements (supranuclear). PSP was first described as a distinct disorder in 1964, when three scientists published a paper that distinguished the condition from Parkinson's disease. It is sometimes referred to as Steele-Richardson-Olszewski syndrome, reflecting the combined names of the scientists who defined the disorder. Although PSP gets progressively worse, no one dies from PSP itself.
What are the signs and symptoms of Tremor hereditary essential, 2? The Human Phenotype Ontology provides the following list of signs and symptoms for Tremor hereditary essential, 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 - Upper limb postural tremor - 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.
What causes tularemia? Tularemia is caused by the bacterium Francisella tularensis found in animals (especially rodents, rabbits, and hares). Humans can get the disease through: Direct contact, through a break in the skin, with an infected animal or its dead body The bite of an infected tick, horsefly, or mosquito Eating infected meat (rare) Breathing in the bacteria, F. tularensis Tularemia is not known to be spread from person to person. People who have tularemia do not need to be isolated.
North American Indian childhood cirrhosis results from at least one known mutation in the UTP4 gene. This gene provides instructions for making a protein called cirhin, whose precise function is unknown. Within cells, cirhin is located in a structure called the nucleolus, which is a small region inside the nucleus where ribosomal RNA (rRNA) is produced. A chemical cousin of DNA, rRNA is a molecule that helps assemble protein building blocks (amino acids) into functioning proteins. Researchers believe that cirhin may play a role in processing rRNA. Studies also suggest that cirhin may function by interacting with other proteins. Cirhin is found in many different types of cells, so it is unclear why the effects of North American Indian childhood cirrhosis appear to be limited to the liver. Researchers are working to determine how a UTP4 gene mutation causes the progressive liver damage characteristic of this disorder.
Konigsmark Knox Hussels syndrome is an inherited condition that causes both hearing and vision loss. This condition is characterized by late-onset progressive sensorineural deafness and progressive optic atrophy, which results in mildly reduced visual acuity. Some affected individuals can develop ophthalmoplegia (paralysis of the muscles that control eye movements), ptosis, ataxia, and non-specific myopathy in middle age. This condition is caused by a particular mutation in the OPA1 gene and is inerited in an autosomal dominant fashion.
How is multicentric Castleman disease diagnosed? The signs and symptoms of multicentric Castleman disease (MCD) are often nonspecific and blamed on other, more common conditions. However, if MCD is suspected, the following tests may be recommended to help establish the diagnosis and rule out other conditions that cause similar features: Blood tests can be ordered to evaluate the levels of Interleukin-6 (IL-6) and other substances in the body, which can be elevated in people with MCD. They can also be helpful in ruling out other autoimmune conditions and infections that are associated with similar signs and symptoms Imaging studies (such as a CT scan, PET scan, MRI scan, and/or ultrasound) can help identify enlarged lymph node(s) and other health problems A biopsy of affected tissue, often a lymph node, is usually recommended to confirm the diagnosis
Shprintzen-Goldberg syndrome is often caused by mutations in the SKI gene. This gene provides instructions for making a protein that regulates the transforming growth factor beta (TGF-) signaling pathway. The TGF- pathway regulates many processes, including cell growth and division (proliferation), the process by which cells mature to carry out special functions (differentiation), cell movement (motility), and the self-destruction of cells (apoptosis). By attaching to certain proteins in the pathway, the SKI protein blocks TGF- signaling. The SKI protein is found in many cell types throughout the body and appears to play a role in the development of many tissues, including the skull, other bones, skin, and brain. SKI gene mutations involved in Shprintzen-Goldberg syndrome alter the SKI protein. The altered protein is no longer able to attach to proteins in the TGF- pathway and block signaling. As a result, the pathway is abnormally active. Excess TGF- signaling changes the regulation of gene activity and likely disrupts development of many body systems, including the bones and brain, resulting in the wide range of signs and symptoms of Shprintzen-Goldberg syndrome. Not all cases of Shprintzen-Goldberg syndrome are caused by mutations in the SKI gene. Other genes may be involved in this condition, and in some cases, the genetic cause is unknown.
MONA results from mutations in the MMP2 gene. This gene provides instructions for making an enzyme called matrix metallopeptidase 2, whose primary function is to cut (cleave) a protein called type IV collagen. Type IV collagen is a major structural component of basement membranes, which are thin, sheet-like structures that separate and support cells in many tissues. The activity of matrix metallopeptidase 2 appears to be important for a variety of body functions, including bone remodeling, which is a normal process in which old bone is broken down and new bone is created to replace it. The MMP2 gene mutations that cause MONA completely eliminate the activity of the matrix metallopeptidase 2 enzyme, preventing the normal cleavage of type IV collagen. It is unclear how a loss of enzyme activity leads to the specific features of MONA. Researchers suspect that it somehow disrupts the balance of new bone creation and the breakdown of existing bone during bone remodeling, resulting in a progressive loss of bone tissue. How a shortage of matrix metallopeptidase 2 leads to the other features of MONA, such as subcutaneous nodules and skin abnormalities, is unknown.
Allan-Herndon-Dudley syndrome appears to be a rare disorder. About 25 families with individuals affected by this condition have been reported worldwide.
Hermansky-Pudlak syndrome is a multisystem, genetic condition characterized by blood platelet dysfunction with prolonged bleeding, visual impairment, and abnormally light coloring of the skin, hair, and eyes (oculocutaneous albinism). Long-term sun exposure greatly increases the risk of skin damage and skin cancers. Some individuals have colitis, kidney failure, and pulmonary fibrosis. Symptoms of pulmonary fibrosis usually appear during the early thirties and rapidly worsen. This condition is inherited in an autosomal recessive fashion. Treatment is symptomatic and supportive. There are nine different types of Hermansky-Pudlak syndrome, which can be distinguished by their signs and symptoms and underlying genetic cause. Types 1 and 4 are the most severe forms. Types 1, 2, and 4 are the only types associated with pulmonary fibrosis. Individuals with type 3, 5, or 6 have the mildest symptoms of all the types. Little is known about the signs, symptoms, and severity of types 7, 8 and 9.
DMD-associated dilated cardiomyopathy has an X-linked pattern of inheritance. The DMD gene is located on the X chromosome, which is one of the two sex chromosomes. In females (who have two X chromosomes), a mutation in one of the two copies of the gene in each cell usually leads to relatively mild heart disease that appears later in life. In males (who have only one X chromosome), a mutation in the only copy of the gene in each cell causes more severe signs and symptoms that occur earlier in life. A characteristic of X-linked inheritance is that fathers cannot pass X-linked traits to their sons.
Doctors can diagnose a taste disorder by measuring the lowest concentration of a substance that a person can detect. The doctor may also ask a patient to compare the tastes of different substances or to note how the intensity of a taste grows when a substance's concentration is increased. Scientists have developed taste tests in which a person responds to different concentrations of a substance. This may involve a simple "sip, spit, and rinse" test, or the application of a substance directly to the tongue with an eye dropper. By using these tests, your doctor can determine if you have a true taste disorder and what type it is.
LADD syndrome appears to be a rare condition; at least 60 cases have been described in the scientific literature.
What are the signs and symptoms of Acatalasemia? The Human Phenotype Ontology provides the following list of signs and symptoms for Acatalasemia. 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 - Oral ulcer - Reduced catalase activity - 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.
At this time, we do not know how to prevent glaucoma. However, studies have shown that the early detection and treatment of glaucoma, before it causes major vision loss, is the best way to control the disease. So, if you fall into one of the higher risk groups for the disease, make sure to have a comprehensive dilated eye exam at least once every one to two years. Get tips on finding an eye care professional. Learn what a comprehensive dilated eye exam involves.
What causes Parkinson disease? Parkinson disease occurs when the nerve cells in the brain that make dopamine, a chemical messenger which transmits signals within the brain to produce smooth physical movements, are slowly destroyed. Without dopamine, the nerve cells in the part of the brain known as the substantia nigra cannot properly send messages. This leads to progressive loss of muscle function. Exactly why these brain cells waste away is unknown. Recent studies have shown that people with Parkinson disease also experience damage to the nerve endings that produce the neurotransmitter norepinephrine. Norepinephrine, which is closely related to dopamine, is the main chemical messenger of the sympathetic nervous system, the part of the nervous system that controls the automatic functions of the body, including pulse and blood pressure. The loss of norepinephrine may explain some of the non-motor features seen in Parkinson disease, including fatigue and problems with blood pressure regulation. More detailed information about the cause of Parkinson disease is available through an information page developed by the National Institute of Neurological Disorders and Stroke (NINDS). Click here to view this information.
The National Institute of Neurological Disorders and Stroke (NINDS) and other institutes of the National Institutes of Health (NIH) conduct research related to dementia in laboratories at the NIH and also support additional dementia research through grants to major medical institutions across the country. Current research focuses on many different aspects of dementia. This research promises to improve the lives of people affected by the dementias and may eventually lead to ways of preventing or curing these disorders.
Peroxisomal acyl-CoA oxidase deficiency is a rare disorder. Its prevalence is unknown. Only a few dozen cases have been described in the medical literature.
These resources address the diagnosis or management of hypochromic microcytic anemia with iron overload: - Genetic Testing Registry: Hypochromic microcytic anemia with iron overload 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
Prothrombin thrombophilia is the second most common inherited form of thrombophilia after factor V Leiden thrombophilia. Approximately 1 in 50 people in the white population in the United States and Europe has prothrombin thrombophilia. This condition is less common in other ethnic groups, occurring in less than one percent of African American, Native American, or Asian populations.
The NINDS conducts and supports research on developmental disabilities, including PDD. Much of this research focuses on understanding the neurological basis of PDD and on developing techniques to diagnose, treat, prevent, and ultimately cure this and similar disorders.
Is genetic testing available for hypohidrotic ectodermal dysplasia? Yes. Genetic testing for hypohidrotic ectodermal dysplasia is available. In most cases, hypohidrotic ectodermal dysplasia can be diagnosed after infancy based upon the physical features in the affected child. Genetic testing may be ordered to confirm the diagnosis. Other reasons for testing may include to identify carriers or for prenatal diagnosis. Clinical testing is available for detection of disease causing mutations in the EDA, EDAR, and EDARADD genes. We recommend that you speak with a health care provider or a genetics professional to learn more about your testing options. 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.
Precocious puberty is when a person's sexual and physical traits develop and mature earlier than normal. Normal puberty typically begins between ages 10 and 14 for girls, and ages 12 and 16 for boys. The start of puberty depends on various factors such as family history, nutrition and gender. The cause of precocious puberty is not always known. Some cases of precocious puberty are due to conditions that cause changes in the body's release of hormones. Treatment involves medications that can stop the release of sexual hormones.
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 might laryngeal cleft be treated? Medical and feeding therapies are often the first treatments for patients with laryngeal cleft (particularly type I and type II).[4126] Prevention of gastroesophageal reflux is also important in all types of clefts. Type I clefts often correct themselves over time with growth. During infancy, nursing in the upright position or thickening of formula may be necessary. If these treatments are not enough, surgery may be recommended. Different surgical approaches have been proposed for the management of laryngeal cleft. The timing and approach of surgery may differ depending upon the severity of symptoms, associated abnormalities, and type of cleft.
What causes Treacher Collins syndrome? Treacher Collins syndrome (TCS) is caused by changes (mutations) in any of several genes: TCOF1 (in over 80% of cases), POLR1C, or POLR1D. In a few cases, the genetic cause of the condition is unknown. These genes appear to play important roles in the early development of bones and other tissues of the face. They are involved in making proteins that help make ribosomal RNA (rRNA). rRNA is a chemical needed to make new proteins that are necessary for normal function and survival of cells. Mutations in these genes can reduce the production of rRNA, which may cause cells involved in the development of facial bones and tissues to die early. This premature cell death may lead to the signs and symptoms of TCS. It is still unclear why the effects of these mutations are generally limited to facial development.
These resources address the diagnosis or management of Wolff-Parkinson-White syndrome: - Genetic Testing Registry: Wolff-Parkinson-White pattern - MedlinePlus Encyclopedia: Wolff-Parkinson-White 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
What are the signs and symptoms of Cortisone reductase deficiency? The Human Phenotype Ontology provides the following list of signs and symptoms for Cortisone reductase deficiency. 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) Acne - Autosomal recessive inheritance - Hirsutism - Infertility - Obesity - Oligomenorrhea - 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 juvenile hyaline fibromatosis: - Gene Review: Gene Review: Hyalinosis, Inherited Systemic - Genetic Testing Registry: Hyaline fibromatosis 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
Your tongue helps you taste, swallow, and chew. You also use it to speak. Your tongue is made up of many muscles. The upper surface contains your taste buds. Problems with the tongue include - Pain - Swelling - Changes in color or texture - Abnormal movement or difficulty moving the tongue - Taste problems These problems can have many different causes. Treatment depends on the underlying problem.
What are the signs and symptoms of Impairment of oral perception? The Human Phenotype Ontology provides the following list of signs and symptoms for Impairment of oral perception. 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 - Drooling - Incoordination - 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.
What are the signs and symptoms of Iminoglycinuria? The Human Phenotype Ontology provides the following list of signs and symptoms for Iminoglycinuria. 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 - Autosomal recessive inheritance - Hydroxyprolinuria - Hyperglycinuria - Intellectual disability - Prolinuria - 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 NINDS supports broad and varied programs of research on epilepsy and developmental disorders. This research is aimed at discovering new ways to prevent, diagnose, and treat epilepsy and developmental disorders and, ultimately, to find cures for them.
How is a pilomatrixoma diagnosed? A diagnosis of pilomatrixoma is usually suspected on physical examination. Specialized tests may be ordered to confirm the diagnosis and rule out other conditions that cause similar features. These tests may include an ultrasound, an X-ray, and/or a small biopsy of the tumor.
Friedreich's ataxia is caused by a mutation in the protein frataxin, which is involved in the function of mitochondriathe energy producing power plants of the cell. Frataxin controls important steps in mitochondrial iron metabolism and overall cell iron stability.NINDS-funded researchers are studying the metabolic functions of mitochondria in individuals with Friedreichs ataxia. Ongoing research is aimed at understanding the molecular basis for and mechanisms involved in the inactivation of the gene that provides instructions for frataxin, which could lead to potential ways to reverse the silencing and restore normal gene function.And researchers are using next-generation sequencing (which can quickly identify the structure of millions of small fragments of DNA at the same time) to identify novel genes in Friedreich's ataxia.
Split hand foot malformation (SHFM) is a type of birth defect that consists of missing digits (fingers and/or toes), a deep cleft down the center of the hand or foot, and fusion of remaining digits. The severity of this condition varies widely among affected individuals. SHFM is sometimes called ectrodactyly; however, this is a nonspecific term used to describe missing digits. SHFM may occur by itself (isolated) or it may be part of a syndrome with abnormalities in other parts of the body. At least six different forms of isolated SHFM have been described. Each type is associated with a different underlying genetic cause. SHFM1 has been linked to chromosome 7, and SHFM2 is linked to the X chromosome. SHFM3 is caused by a duplication of chromosome 10 at position 10q24. Changes (mutations) in the TP63 gene cause SHFM4. SHFM5 is linked to chromosome 2, and SHFM6 is caused by mutations in the WNT10B gene. SHFM may be inherited in an autosomal dominant, autosomal recessive, or X-linked manner.
Dyggve-Melchior-Clausen (DMC) syndrome is a rare, progressive genetic condition characterized by abnormal skeletal development, microcephaly, and intellectual disability. Only about 100 cases have been reported to date. Skeletal abnormalities may include a barrel-shaped chest with a short truck, partial dislocation of the hips, knock knees, bowlegs, and decreased joint mobility. A small number of affected individuals experience instability in the upper neck vertebrae that can lead to spinal cord compression, weakness and paralysis. Normally, there is growth deficiency resulting in short stature. DMC is caused by mutations in the DYM gene and is inherited in an autosomal recessive manner. Some researchers have described an X-linked pattern of inheritance, which has not been confirmed to date.
Is Pyle disease inherited? Pyle disease in inherited in an autosomal recessive manner, 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 often don't have any signs and symptoms of the condition. Some carriers (obligate heterozygotes) of Pyle disease show minor skeletal changes.
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 GI tract. The liver, pancreas, and gallbladder are the solid organs of the digestive system. The digestive system helps the body digest food, which includes breaking food down into nutrients the body needs. Nutrients are substances the body uses for energy, growth, and cell repair.
Pyelonephritis is caused by a bacterium or virus infecting the kidneys. Though many bacteria and viruses can cause pyelonephritis, the bacterium Escherichia coli is often the cause. Bacteria and viruses can move to the kidneys from the bladder or can be carried through the bloodstream from other parts of the body. A UTI in the bladder that does not move to the kidneys is called cystitis.
Pigmented villonodular synovitis (PVNS) is a disease in which the tissue lining the joints and tendons in the body (synovium) grows abnormally. It is characterized by a noncancerous mass or tumor. There are two types of PVNS: the local or nodular form (where the tumor involves the tendons that support the joint, or in one area of the joint) and the diffuse form (where the entire lining of the joint is involved). Symptoms might include: pain, limitation of movement, and locking of the joint. In some cases, the normal joint structure can be destroyed. The knee is most commonly affected by this condition, though it can occur in other joints such as the hip, shoulder, elbow, ankle, wrist, and rarely the jaw. The average age of diagnosis for this condition is 35 years. The cause of PVNS is grossly unknown. Treatment involves surgery to remove the tumor and damaged portions of the synovium.
These resources address the diagnosis or management of beta thalassemia: - Gene Review: Gene Review: Beta-Thalassemia - Genetic Testing Registry: Beta-thalassemia, dominant inclusion body type - Genetic Testing Registry: beta Thalassemia - MedlinePlus Encyclopedia: Thalassemia 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
PRICKLE1-related progressive myoclonus epilepsy with ataxia is caused by mutations in the PRICKLE1 gene. This gene provides instructions for making a protein called prickle homolog 1, whose function is unknown. Studies suggest that it interacts with other proteins that are critical for brain development and function. Mutations in the PRICKLE1 gene alter the structure of prickle homolog 1 and disrupt its ability to interact with other proteins. However, it is unclear how these changes lead to movement problems, seizures, and the other features of PRICKLE1-related progressive myoclonus epilepsy with ataxia.
The National Institute of Neurological Disorders and Stroke (NINDS) conducts research related to Wallenbergs syndrome in its laboratories at the National Institutes of Health (NIH), and also supports 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 disorders such as Wallenbergs syndrome.
Ollier disease is not inherited. The mutations that cause this disorder are somatic, which means they occur during a person's lifetime. A somatic mutation occurs in a single cell. As that cell continues to grow and divide, the cells derived from it also have the same mutation. In Ollier disease, the mutation is thought to occur in a cell during early development before birth; cells that arise from that abnormal cell have the mutation, while the body's other cells do not. This situation is called mosaicism.
The prognosis for individuals with Sandhoff disease is poor. Death usually occurs by age 3 and is generally caused by respiratory infections.
The prevalence of renal coloboma syndrome is unknown; at least 60 cases have been reported in the scientific literature.
This condition is likely a rare disorder, but its prevalence is unknown. At least 15 cases have been described in the scientific literature.
Classic Rett syndrome and some variant forms of the condition are caused by mutations in the MECP2 gene. This gene provides instructions for making a protein (MeCP2) that is critical for normal brain function. Although the exact function of the MeCP2 protein is unclear, it is likely involved in maintaining connections (synapses) between nerve cells (neurons). It may also be necessary for the normal function of other types of brain cells. The MeCP2 protein is thought to help regulate the activity of genes in the brain. This protein may also control the production of different versions of certain proteins in brain cells. Mutations in the MECP2 gene alter the MeCP2 protein or result in the production of less protein, which appears to disrupt the normal function of neurons and other cells in the brain. Specifically, studies suggest that changes in the MeCP2 protein may reduce the activity of certain neurons and impair their ability to communicate with one another. It is unclear how these changes lead to the specific features of Rett syndrome. Several conditions with signs and symptoms overlapping those of Rett syndrome have been found to result from mutations in other genes. These conditions, including FOXG1 syndrome, were previously thought to be variant forms of Rett syndrome. However, doctors and researchers have identified some important differences between the conditions, so they are now usually considered to be separate disorders.
Milroy disease 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 inherits the mutation from one affected parent. Other cases may result from new mutations in the FLT4 gene. These cases occur in people with no history of the disorder in their family. About 10 percent to 15 percent of people with a mutation in the FLT4 gene do not develop the features of Milroy disease.
Hereditary sensory autonomic neuropathy (HSAN) is a group of rare peripheral neuropathies where neurons and/or axons are affected. The major feature of these conditions is the loss of large myelinated and unmyelinated fibers. Myelin is an insulating layer, or sheath that forms around nerves, made up of protein and fatty substances, that allows electrical impulses to transmit along the nerve cells. If myelin is damaged, these impulses slow down. Symptoms of HSAN include diminished sensation of pain and its associated consequences of delayed healing, Charcot arthopathies, infections, osteomyelitis, and amputations. They have been categorized into types one through five, although some children do not fit well into this classification and do not all have altered pain sensation and/or autonomic function.[9873] HSAN type I is the most common form of HSAN. It is caused by a mutation in the SPTLC1 gene and inherited in an autosomal dominant pattern. HSAN type 2 is caused by mutations in the WNK1 gene and inheritance is autosomal recessive . HSAN type 3 (Riley-Day syndrome or familial dysautonomia) is caused by mutations in the IKBKAP gene and inheritance is autosomal recessive. HSAN type 4, also called congenital insensitivity to pain with anhidrosis (CIPA), is caused by mutations in the NTRK1 gene and is an autosomal recessive disorder. HSAN type 5 is caused by mutations in the NGFB gene and inherited in an autosomal recessive manner.
Olmsted syndrome is a rare congenital (present from birth) disorder characterized by symmetrical, well-defined palmoplantar keratoderma (PPK) surrounded by reddened skin and deformities of the joints that lead to constriction and spontaneous amputation; horny growths around the eyes and mouth, nail abnormalities, white thickened patches around the anus and mouth; and sparse hair. It may be complicated by multiple infections and squamous cell carcinoma. Olmstead syndrome is caused by mutations in the TRPV3 gene. It is transmitted through autosomal dominant inheritance. Treatment includes oral and topical retinoids, such as acetretin.
Lewy body disease is one of the most common causes of dementia in the elderly. Dementia is the loss of mental functions severe enough to affect normal activities and relationships. Lewy body disease happens when abnormal structures, called Lewy bodies, build up in areas of the brain. The disease may cause a wide range of symptoms, including - Changes in alertness and attention - Hallucinations - Problems with movement and posture - Muscle stiffness - Confusion - Loss of memory Lewy body disease can be hard to diagnose, because Parkinson's disease and Alzheimer's disease cause similar symptoms. Scientists think that Lewy body disease might be related to these diseases, or that they sometimes happen together. Lewy body disease usually begins between the ages of 50 and 85. The disease gets worse over time. There is no cure. Treatment focuses on drugs to help symptoms. NIH: National Institute of Neurological Disorders and Stroke
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. Although carriers typically do not show signs and symptoms of the condition, some parents of children with Majeed syndrome have had an inflammatory skin disorder called psoriasis.
KID syndrome is usually inherited in an autosomal dominant pattern, which means one copy of the altered gene in each cell is sufficient to cause the disorder. In some cases, an affected person inherits the mutation from one affected parent. However, most cases result from new mutations in the gene and occur in people with no history of the disorder in their family. A few families have had a condition resembling KID syndrome with an autosomal recessive pattern of inheritance. In autosomal recessive inheritance, 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. Affected individuals in these families have liver disease, which is not a feature of the autosomal dominant form. The autosomal recessive condition is sometimes called Desmons syndrome. It is unknown whether it is also caused by GJB2 gene mutations.
McLeod neuroacanthocytosis syndrome is rare; approximately 150 cases have been reported worldwide.
Summary : Acupuncture has been practiced in China and other Asian countries for thousands of years. Acupuncture involves stimulating specific points on the body. This is most often done by inserting thin needles through the skin, to cause a change in the physical functions of the body. Research has shown that acupuncture reduces nausea and vomiting after surgery and chemotherapy. It can also relieve pain. Researchers don't fully understand how acupuncture works. It might aid the activity of your body's pain-killing chemicals. It also might affect how you release chemicals that regulate blood pressure and flow. NIH: National Center for Complementary and Integrative Health
A combination of autoimmunity, environmental triggers, and a genetic predisposition can lead to autoimmune hepatitis.
Research suggests that coronary heart disease (CHD) starts when certain factors damage the inner layers of the coronary arteries. These factors include: Smoking High levels of certain fats and cholesterol in the blood High blood pressure High levels of sugar in the blood due to insulin resistance or diabetes Blood vessel inflammation Plaque might begin to build up where the arteries are damaged. The buildup of plaque in the coronary arteries may start in childhood. Over time, plaque can harden or rupture (break open). Hardened plaque narrows the coronary arteries and reduces the flow of oxygen-rich blood to the heart. This can cause angina (chest pain or discomfort). If the plaque ruptures, blood cell fragments called platelets (PLATE-lets) stick to the site of the injury. They may clump together to form blood clots. Blood clots can further narrow the coronary arteries and worsen angina. If a clot becomes large enough, it can mostly or completely block a coronary artery and cause a heart attack.
You can prevent or lower your risk for angina and heart disease by making lifestyle changes and treating related conditions. Making Lifestyle Changes Healthy lifestyle choices can help prevent or delay angina and heart disease. To adopt a healthy lifestyle, you can: Quit smoking and avoid secondhand smoke Avoid angina triggers Follow a healthy diet Be physically active Maintain a healthy weight Learn ways to handle stress and relax Take your medicines as your doctor prescribes For more information about these lifestyle changes, go to How Is Angina Treated? For more information about preventing and controlling heart disease risk factors, visit the Diseases and Conditions Index Coronary Heart Disease, Coronary Heart Disease Risk Factors, and Coronary Microvascular Disease articles. Treating Related Conditions You also can help prevent or delay angina and heart disease by treating related conditions, such as high blood cholesterol, high blood pressure, diabetes, and overweight or obesity. If you have one or more of these conditions, talk with your doctor about how to control them. Follow your treatment plan and take all of your medicines as your doctor prescribes.
Is adiposis dolorosa inherited? Most cases of adiposis dolorosa are sporadic (not inherited). This means that it usually occurs in people with no family history of the condition. Adiposis dolorosa has rarely been reported to occur in more than one family member. In some of these cases, it appears to have been inherited in an autosomal dominant manner. In these cases, when an affected person has children, each child has a 50% (1 in 2) risk to inherit the gene causing the condition. However, no associated genes have been identified.
Budd-Chiari syndrome is a rare disorder characterized by narrowing and obstruction of the veins of the liver. This narrowing or obstruction slows or prevents blood from flowing out of the liver and back to the heart which can lead to liver damage. While some people experience no symptoms, many experience fatigue, abdominal pain, nausea, and jaundice. Other associated findings include an accumulation of fluid in the abdomen (ascites), an enlarged spleen and/or liver, and severe bleeding in the esophagus. The severity of the disorder varies from case to case, depending on the site and number of affected veins. Drugs may be used to dissolve or decrease the size of the obstruction (if it is a clot). In some cases surgery is performed. In most cases, the cause of Budd-Chiari syndrome is unknown.
Assistive technology is any device that assists, adapts, or helps to rehabilitate someone with a disability so he or she may function more safely, effectively, and independently at home, at work, and in the community. Assistive technology may include - computers with features that make them accessible to people with disabilities - adaptive equipment, such as wheelchairs - bathroom modifications, such as grab bars or shower seats The following organizations may be able to provide information, awareness, and training in the use of technology to assist people with disabilities: Alliance for Technology Access 1119 Old Humboldt Road Jackson, TN 38305 Phone: 18009143017 or 7315545ATA (7315545282) TTY: 7315545284 Fax: 7315545283 Email: atainfo@ataccess.org Internet: www.ataccess.org National Assistive Technology Technical Assistance Partnership 1700 North Moore Street, Suite 1540 Arlington, VA 222091903 Phone: 7035246686 Fax: 7035246630 TTY: 7035246639 Email: resnaTA@resna.org Internet: www.resnaprojects.org/nattap United Cerebral Palsy 1825 K Street NW, Suite 600 Washington, D.C. 20006 Phone: 18008725827 or 2027760406 Internet: www.ucp.org/resources/assistive-technology
Weaver syndrome is a condition that involves tall stature with or without a large head size (macrocephaly), a variable degree of intellectual disability (usually mild), and characteristic facial features. These features can include a broad forehead; widely spaced eyes (hypertelorism); large, low-set ears; a dimpled chin, and a small lower jaw (micrognathia). People with Weaver syndrome can also have joint deformities called contractures that restrict the movement of affected joints. The contractures may particularly affect the fingers and toes, resulting in permanently bent digits (camptodactyly). Other features of this disorder can include abnormal curvature of the spine (kyphoscoliosis); muscle tone that is either reduced (hypotonia) or increased (hypertonia); loose, saggy skin; and a soft-outpouching around the belly-button (umbilical hernia). Some affected individuals have abnormalities in the folds (gyri) of the brain, which can be seen by medical imaging; the relationship between these brain abnormalities and the intellectual disability associated with Weaver syndrome is unclear. Researchers suggest that people with Weaver syndrome may have an increased risk of developing cancer, in particular a slightly increased risk of developing a tumor called neuroblastoma in early childhood, but the small number of affected individuals makes it difficult to determine the exact risk.
How is 21-hydroxylase-deficient congenital adrenal hyperplasia passed through families? 21-hydroxylase-deficient congenital adrenal hyperplasia has an autosomal recessive pattern of inheritance. In autosomal recessive conditions, both parents carry one copy of a mutated gene for the disorder. They have a 25 percent chance with each pregnancy of having a child affected by the disorder. The chance with each pregnancy of having an unaffected child who is a carrier of the disorder is 50 percent, and the chance that a child will not have the disorder and will not be a carrier is 25 percent. See the illustration below.
Hypoplastic left heart syndrome (HLHS) is a problem with the hearts structure that is present at birth (congenital). It occurs when parts of the left side of the heart (mitral valve, left ventricle, aortic valve, and aorta) do not develop completely. The underdeveloped left side of the heart is unable to provide enough blood flow to the body, which decreases the oxygen-rich blood supply. Babies with HLHS might look normal at birth, but will develop symptoms of HLHS within a few days. These symptoms might include: poor feeding, problems breathing, pounding heart, weak pulse, and ashen or bluish skin color. The cause of HLHs is presently unknown.
Limb-girdle muscular dystrophy type 2A (LGMD2A) is an autosomal recessive limb-girdle muscular dystrophy characterized by progressive, symmetrical weakness of the proximal limb and girdle muscles (mainly those around the hips and shoulders) without cardiac involvement or intellectual disability. The condition is caused by mutations in the CAPN3 gene. Type 2A is the most common form of limb-girdle muscular dystrophy, accounting for about 30 percent of cases. Treatment is aimed at maintaining mobility and preventing complications. There are three subtypes of LGMD2A which differ by the distribution of muscle weakness and age at onset: Pelvifemoral limb-girdle muscular dystrophy (also known as Leyden-Mobius LGMD) is the most frequently observed subtype. In these cases, muscle weakness is first evident in the pelvic girdle and later in the shoulder girdle. Onset is usually before age 12 or after age 30; Scapulohumeral LGMD (also known as Erb LGMD) usually has milder symptoms with infrequent early onset. In most cases, muscle weakness is first evident in the shoulder girdle and later in the pelvic girdle; HyperCKemia is usually observed in children or young individuals. In most cases, those affected don't have symptoms, just high levels of creatine kinase in their blood.
FG syndrome (FGS) is a genetic condition that affects many parts of the body and occurs almost exclusively in males. "FG" represents the surname initials of the first individuals diagnosed with the disorder. People with FG syndrome frequently have intellectual disability ranging from mild to severe, hypotonia, constipation and/or anal anomalies, a distinctive facial appearance, broad thumbs and great toes, a large head compared to body size (relative macrocephaly), and abnormalities of the corpus callosum. Medical problems including heart defects, seizures, undescended testicle, and an inguinal hernia have also been reported in some affected individuals. Researchers have identified five regions of the X chromosome that are linked to FG syndrome in affected families. Mutations in the MED12 gene appears to be the most common cause of this disorder, leading to FG syndrome 1. Other genes involved with FG syndrome include FLNA (FGS2), CASK (FGS4), UPF3B (FGS6), and BRWD3 (FGS7). FGS is inherited in an X-linked recessive pattern. Individualized early intervention and educational services are important so that each child can reach their fullest potential.