View clinical trials related to Disease Susceptibility.
Filter by:This study will investigate what causes hereditary leiomyomatosis renal (kidney) cell cancer, or HLRCC, and how the disease is related to the development of kidney tumors. Leiomyomas are benign (non-cancerous) tumors arising from smooth muscle. HLRCC can cause various health problems. Some people develop red bumps on their skin that can be painful at times. Some women with HLRCC can develop leiomyomas of the uterus. In some families, people with HLRCC develop kidney tumors. This study will try to determine: - What gene changes (mutations) cause HLRCC - What kind of kidney tumors develop in HLRCC and how they grow - What the chance is that a person with HLRCC will develop a kidney tumor People with known or suspected HLRCC (and their family members of any age) may be eligible for this study. This includes people in families in which one or more members has skin leiomyoma and kidney cancer; skin leiomyoma and uterine leiomyoma; multiple skin leiomyomas; kidney cancer and uterine leiomyomas, or kidney cancer consistent with HLRCC, including, but not limited to, collecting duct or papillary, type II. Candidates will be screened with a physical examination, family history, and, for affected family members, a review of medical records, including pathology slides and computed tomography (CT) or magnetic resonance imaging (MRI) scans. Participants will undergo tests and procedures that may include the following: - Review of medical records, x-rays, and tissue slides - Physical examination and family history - Skin examination - Gynecological examination for women - Interviews with a cancer doctor, cancer nurses, kidney surgeon, and genetic counselor - Blood tests for: 1. Genetic research to identify the gene responsible for HLRCC 2. Evaluation of liver, kidney, heart, pancreas, and thyroid function 3. Complete blood count and clotting profile 4. Pregnancy test for pre-menopausal women 5. PSA test for prostate cancer in men over age 40 - CT or MRI scans (for participants 15 years of age and older only) - Skin biopsy (surgical removal of a small sample of skin tissue) - Cheek swab or mouth rinse to collect cells for genetic analysis - Medical photographs of lesions - Questionnaire When the tests are completed, participants will discuss the results with a doctor and possibly a genetic nurse or genetic counselor. The genetic findings will not be revealed to participants because their meaning and implications may not yet be understood. Participants may be asked to return to NIH from every 3 months to every 3 years, depending on their condition, for follow-up examinations and tests.
Parkinson's disease (PD) occurrence is higher in rural than in urban populations of industrialized countries. Epidemiologic and human tissue studies suggest that pesticides may be responsible for causing dopaminergic cell death at increased rates. While many pathophysiologic pathways may be involved in the neurodegeneration responsible for PD, genetic factors are likely to determine a general susceptibility to neurodegeneration.
This study will measure and compare hormone levels in women with catamenial epilepsy (epilepsy in which seizures are more frequent during menstrual periods), women with seizures not related to their menstrual cycle, and normal control subjects. It will determine whether there are differences among the three groups in their hormone levels or in how fast the levels change. It will also examine what relationship, if any, exists between hormone changes and seizures in women with catamenial epilepsy. The hormones under study include the gonadal hormones estrone, estradiol and progesterone, and the neuroactive steroids allopregnanolone, pregnenolone, and dehydroepiandrosterone. Women who meet the following criteria may be eligible for this 3-month study: - Between 18 and 45 years of age, with catamenial epilepsy - Between 18 and 45 years of age, with seizures, but not catamenial epilepsy - Between 18 and 45 years of age, without seizures All participants will have a physical examination at the beginning of the study, at each clinic visit, and at completion or withdrawal from the study. In addition, they will undergo the following procedures: Baseline Monitoring For the first 2 months, all participants will keep a diary of their temperature and onset of menses. Women with epilepsy will also record their seizures. Electroencephalography (EEG) Healthy volunteers will have a 45-minute EEG (recording of the electrical activity of the brain) at the beginning of each menstrual cycle and each day during the menses. Women with epilepsy will have continuous EEG monitoring for 8 days, beginning 5 days before their menstrual period is expected. The continuous monitoring can be done on an outpatient basis, using a portable EEG recording device, or as an inpatient, with admission to the hospital for the 8 days of recording. Blood Sampling All participants will have a small blood sample (2 teaspoons) drawn once a day on days 10, 14, 17, 19 and 21 of their menstrual cycle and three times a day on day 6 and for a period of 8 days, starting 5 days before the expected menses and continuing for 3 days of the next cycle. For the days with three blood draws, a small needle that can stay in place for up to 72 hours will be placed in the arm to avoid the discomfort of multiple needle sticks.
This study will investigate the genetic cause of Birt Hogg-Dube (BHD) syndrome and the relationship of this disorder to kidney cancer. BHD is a rare inherited condition characterized by papules, or bumps benign tumors involving hair follicles on the head and neck. People with BHD are at increased risk of developing kidney cancer. Scientists have identified the chromosome (strand of genetic material in the cell nucleus) that contains the BHD gene and the region of the gene on the chromosome. This study will try to learn more about: - The characteristics and type of kidney tumors associated with BHD - The risk of kidney cancer in people with BHD - Whether more than one gene causes BHD - The genetic mutations (changes) responsible for BHD Patients with known or suspected Birt Hogg-Dube syndrome, and their family members, may be eligible for this study. Candidates will be screened with a family history and review of medical records, including pathology reports for tumors, and films of computed tomography (CT) and magnetic resonance imaging (MRI) scans. Participants may undergo various tests and procedures, including the following: - Physical examination - Review of personal and family history with a cancer doctor, cancer nurses, kidney surgeon, and genetic counselor - Chest and other x-rays - Ultrasound (imaging study using sound waves) - MRI (imaging study using radiowaves and a magnetic field) - CT scans of the chest and abdomen (imaging studies using radiation) - Blood tests for blood chemistries and genetic testing - Skin evaluation, including a skin biopsy (surgical removal of a small skin tissue sample for microscopic evaluation) - Cheek swab or mouthwash to collect cells for genetic analysis - Lung function studies - Medical photography of skin lesions These tests will be done on an outpatient basis in either one day or over 3 to 4 days. When the studies are complete, participants will receive counseling about the findings and recommendations. Patients with kidney lesions may be asked to return periodically, such as every 3 to 36 months, based on their individual condition, to document the rate of progression of the lesions.
This study will explore whether different forms, or variants, of genes are related to a person s risk of developing breast cancer. The genes that are looked at have no clinical significance today, and thus will not impact your personal healthcare at this time. However, these results may help researchers better understand why some people develop breast cancer and others do not. The study will try to determine: if people with breast cancer have different gene variants from people without the disease; if these genetic differences influence a person s susceptibility to breast cancer when they are exposed to certain environmental substances, such as nicotine and estrogen; and if breast cancer that occurs in families is related to a grouping of these variants. The study will also look for certain proteins, cells, or other substances in fluid aspirated (by the use of gentle suction; no needles) from the nipple that might represent a pattern, or "fingerprint," indicating increased risk for breast cancer. Study participants will complete questionnaires on cancer risk factors, diet, and family history. A small blood sample (3 tablespoons) will be drawn for study of genetic differences between people with breast cancer and people who are cancer-free. Nipple aspirations, a noninvasive method to obtain fluid from a women s breast, will be attempted 4 to 6 times, over a 4 6 week period. For this procedure, the subject places a warm moist towel over the breasts for about 20 minutes. The breasts are then cleansed with a rubbing alcohol pad. The subject compresses the breast with both hands and a small plastic cup is inverted over the breast. Suction is applied to a small syringe (no needles) attached to the cup for about 15 seconds. The procedure may be repeated up to 5 times on each breast. Any drops of fluid obtained from the nipple will be collected in a glass tube. ...
Type 1 diabetes mellitus is an autoimmune disease in which the body's immune cells attack the insulin-producing cells of the pancreas. Several environmental and genetic factors may predispose individuals to developing this disease, including changes in a gene called CD152. This study will examine how this gene may influence the development of insulin-dependent diabetes. Patients with Type 1 diabetes mellitus enrolled in clinical trials at the National Institutes of Health and at the University of Florida and healthy normal volunteers may participate in this study. Participants will have up to three blood samples drawn over a period of less than 1 year. The first sample (about 20 milliliters, or 4 teaspoons), will be examined for changes in the structure of the CD152 gene. If the CD152 structure is different from that normally seen in the general population, a second sample (about 90 ml, or 6 tablespoons of blood) will be drawn. This sample will be used to study the function of specialized immune system cells (T cells), including their growth and survival, chemicals they produce when stimulated, and other factors. If these cells function differently from what is generally seen in the population, a third sample (90 ml) will be drawn for more detailed studies. This investigation may help explain what makes certain individuals susceptible to Type 1 diabetes mellitus and may contribute to the development of improved treatments for the disease.
We propose to test, by DNA linkage analysis of family pedigree members, the following interrelated hypotheses: 1) that sexual orientation is genetically influenced; 2) that the development of Kaposi's sarcoma and other outcomes of HIV infection in male homosexuals is affected by host susceptibility genes, circulating sex hormone levels, or HLA haplotype; and 3) that alcoholism and other psychobehavioral conditions are associated with homosexuality on a genetic basis and/or influenced by candidate behavioral loci. The subjects for these studies will be self-identified male and female homosexual probands and their relatives from families in which there are at least two individuals with homosexual orientation. All subjects will be adults, and will be referred through NIH physicians, private practitioners, and gay and lesbian organizations. Subjects will undergo a sexual orientation and behaviors interview, a psychiatric interview, and phlebotomy for HIV testing, HLA determination, endocrine measurements, and preparation of DNA from cultured lymphocytes. The DNA samples will be analyzed for a series of genetic markers that span the human genome and for candidate loci chosen for function.
Part I: To determine the pharmacokinetic dose for atevirdine mesylate ( U-87201E ) when used in combination with zidovudine ( AZT ). To determine the pharmacokinetic profiles of U-87201E and AZT over a 12-week period. Part II: To determine whether or not decreased viral susceptibility to U-87201E develops when the drug is administered concomitantly with AZT for 12 weeks. Part III: To evaluate the pharmacokinetic effects of ddI/AZT/U-87201E therapy and to assess changes in viral susceptibility to U-87201E. Interest exists in the development of antiretroviral agents that possess different mechanisms of action from nucleoside analogs such as AZT. U-87201E is a non-nucleoside reverse transcriptase (RT) inhibitor that has demonstrated activity against HIV-1; however, an emerging characteristic of non-nucleoside RT inhibitors is the development of rapid resistance to HIV isolates. Whether this resistance can be prevented in the presence of nucleoside analogs such as AZT and ddI has yet to be determined.