| National Institute of Neurological Disorders and Stroke | |
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Get Web page suited for printing The neurofibromatoses are genetic disorders of the nervous system that primarily affect the development and growth of neural (nerve) cell tissues. These disorders cause tumors to grow on nerves and produce other abnormalities such as skin changes and bone deformities. The neurofibromatoses occur in both sexes and in all races and ethnic groups. Scientists have classified the disorders as neurofibromatosis type 1 (NF1) and neurofibromatosis type 2 (NF2). Other or variant types of the neurofibromatoses may exist, but are not yet identified. NF1 is the more common type of the neurofibromatoses, occurring in about 1 in 4,000 individuals in the United States. Although many affected persons inherit the disorder, between 30 and 50 percent of new cases arise spontaneously through mutation (change) in an individual's genes. Once this change has taken place, the mutant gene can be passed on to succeeding generations. Previously, NF1 was known as peripheral neurofibromatosis (or von Recklinghausen's neurofibromatosis) because some of the symptoms--skin spots and tumors--seemed to be limited to the outer nerves, or peripheral nervous system, of the affected person. This name is no longer technically accurate because central nervous system tumors are now known to occur in NF1. In diagnosing NF1, a physician looks for two or more of the following: Symptoms, particularly those on the skin, are often evident at birth or during infancy, and almost always by the time a child is about 10 years old. Neurofibromas become evident at around 10 to 15 years of age. In most cases, symptoms are mild and patients live normal and productive lives. In some cases, however, NF1 can be severely debilitating. Symptoms and severity of the disorder may vary among members of affected families. Treatments are presently aimed at controlling symptoms. Surgery can help some bone malformations. For scoliosis, bone surgery may be combined with back braces. Surgery can also remove painful or disfiguring tumors; however, there is a chance that the tumors may grow back and in greater numbers. In the rare instances when tumors become malignant (3 to 5 percent of all cases), treatment may include surgery, radiation, or chemotherapy. This less common of the neurofibromatoses affects about 1 in 40,000 persons. NF2 is characterized by bilateral (occurring on both sides of the body) tumors on the eighth cranial nerve. It was formerly called bilateral acoustic neurofibromatosis or central neurofibromatosis because the tumors, which cause progressive hearing loss, were thought to grow primarily on the auditory nerve, a branch of the eighth cranial nerve responsible for hearing. Scientists now know that the tumors typically occur on the vestibular nerve, another branch of the eighth cranial nerve near the auditory nerve. The tumors, called vestibular schwannomas for their location and for the type of cells in them, cause pressure damage to neighboring nerves. In some cases, the damage to nearby vital structures, such as other cranial nerves and the brainstem, can be life-threatening. To determine if an individual has NF2, a physician looks for the following: 1. bilateral eighth nerve tumors, 2. a parent, sibling, or child with NF2 and a unilateral eighth nerve tumor, or 3. a parent, sibling, or child with NF2 and any two of the following: Affected individuals may notice hearing loss as early as the teen years. In addition to changes in hearing that may occur in one or both ears, other early symptoms may include tinnitus (ringing noise in the ear) and poor balance. Headache, facial pain, or facial numbness, caused by pressure from the tumors, may also occur. Treatments for NF2 are aimed at controlling the symptoms. Improved diagnostic technologies, such as MRI (magnetic resonance imaging), can reveal tumors as small as a few millimeters in diameter, thus allowing early treatment. Surgery to remove tumors completely is one option, but may result in hearing loss. Other options include partial removal of tumors, radiation, and, if the tumors are not progressing rapidly, the conservative approach of watchful waiting. Formerly the neurofibromatoses were grouped as one disorder with at least two variations. Scientists now know that NF1 and NF2 are two distinct entities because the genes believed to be responsible for them are located on different chromosomes. The NF1 gene is on chromosome 17, while the gene for NF2 is on chromosome 22. Humans have 23 pairs of chromosomes, receiving one set of 23 chromosomes from each parent. Chromosomes carry genes that determine an individual's characteristics, such as sex, stature, hair and eye color, and distinctive family traits. Genes produce proteins that control an individual's development and health. If an inherited gene is defective, or a gene becomes defective spontaneously before birth, a genetic disorder may result. The neurofibromatoses are inherited as dominant disorders, which means that if either parent has the defective gene, each child born to that parent has a 50 percent chance of inheriting the defective gene. The National Institute of Neurological Disorders and Stroke (NINDS), a unit of the Federal Government's National Institutes of Health (NIH), has primary responsibility for conducting and supporting research on neurological disorders. The Institute sponsors basic studies aimed at understanding normal and abnormal development of the brain and nervous system, and clinical studies to improve diagnosis and treatment of neurological disorders. In conjunction with the NIH's National Cancer Institute, the NINDS encourages research specifically targeted on the neurofibromatoses. Several years ago, research teams supported by the NINDS located the exact position of the NF1 gene on chromosome 17. The NF1 gene has been cloned and its structure analyzed. The product of the NF1 gene is a large and complex protein called neurofibromin. One portion of this protein is similar to a family of proteins called GAP (guanosine triphosphatase-activating protein). Scientists have demonstrated that GAP proteins play a significant role in tumor suppression in certain cancers. The proteins act as switches that regulate the complex chemical interactions and sequences of cell growth. The similarity of the NF1 protein to GAP proteins suggests that the NF1 protein may have a similar switching role in the development of neurofibromas. Scientists theorize that defects in the gene may lessen or inhibit the normal output of its protein and allow the irregular cell growth that may lead to tumor development. In addition to the work on NF1, intensive efforts have led to the identification of the NF2 gene on chromosome 22. As in NF1, the NF2 gene product is a tumor suppressor protein (termed merlin or schwannomin). Basic studies in molecular genetics may lead one day to nonsurgical or pharmacologic treatments aimed at retarding or suppressing tumors associated with the neurofibromatoses. The NINDS also encourages research aimed at developing improved methods of diagnosing the neurofibromatoses and at identifying factors that contribute to the wide variations of symptoms and severity of the disorders. Early diagnosis of the neurofibromatoses is essential so that affected individuals can obtain treatment, counseling, and referral to specialized facilities. The Interinstitute Medical Genetics Research Program at the NIH Clinical Center conducts NF2 family history research, including a study involving individuals and families with NF2. With information from this study, investigators have confirmed the location of the NF2 gene on chromosome 22. Also, using specimens from some of the families, scientists have isolated and sequenced the NF2 gene, and have described two different patterns of clinical features in NF2 patients. Investigators are continuing to study these patterns to see if they correspond to specific types of gene mutations. The NINDS contributes to the support of two national human specimen banks, one at the Veterans Administration Medical Center in Los Angeles and the other at McLean Hospital near Boston. These banks supply investigators around the world with tissue from patients with neurological and other disorders. Both banks need tissue from individuals with NF1 or NF2 to enable scientists to study these disorders more intensely. Prospective donors may write to: Dr. Wallace W. Tourtellotte, Director Francine M. Benes, M.D., Ph.D., Director You can obtain further information on the neurofibromatoses, including information about treatment centers and genetic counseling from the following voluntary health organizations: National Neurofibromatosis Foundation
Neurofibromatosis, Inc. (NF Inc.)
Acoustic Neuroma Association
In addition to the NINDS, the following institute within the National Institutes of Health supports research on Rett syndrome: National Cancer Institute (NCI)
For information on other neurological disorders or research programs funded by the National Institute of Neurological Disorders and Stroke, contact the Institute's Brain Resources and Information Network (BRAIN) at: Prepared by: NINDS health-related material is provided for information purposes only and does not necessarily represent endorsement by or an official position of the National Institute of Neurological Disorders and Stroke
or any other Federal agency. Advice on the treatment or care of an individual patient should be obtained through consultation with a physician who has examined that patient or is familiar with that patient's medical history. All NINDS-prepared information is in the public domain and may be freely copied. Credit to the NINDS or the NIH is appreciated. Reviewed May 5, 2003 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
