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NCT01167712
This phase III clinical trial studies two different dose schedules of paclitaxel to see how well they work in combination with carboplatin with or without bevacizumab in treating patients with stage II, III or IV ovarian epithelial cancer, primary peritoneal cancer, or fallopian tube cancer. Drugs used in chemotherapy, such as paclitaxel and carboplatin, work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Bevacizumab is a type of drug called a monoclonal antibody and blocks tumor growth by stopping the growth of blood vessels that tumors need to grow. It is not yet known whether giving paclitaxel with combination chemotherapy once every three weeks is more effective than giving paclitaxel once a week in treating patients with ovarian, primary peritoneal, or fallopian tube cancer.
NCT00001975
Tuberous sclerosis is a rare, hereditary disease in which patients develop multiple tumors. Although not cancerous, the tumors can affect various organs, including the heart, lungs, kidneys, skin, and central nervous system, with serious medical consequences. The severity of disease varies greatly among patients, from barely detectable to fatal. This study will investigate what causes skin tumors to develop in patients with this disease. Patients with tuberous sclerosis 18 years and older may enroll in this study. Participants will undergo a medical history and thorough skin examination by a dermatologist. Those with skin tumors will be asked to undergo biopsy (tissue removal) of up to eight lesions, under a local anesthetic, for research purposes. The biopsies will all be done the same day. The tissue samples will be used for: examination of genetic changes, measurement of certain proteins and other substances, and growing in culture to study the genetics of tuberous sclerosis. ...
NCT00005927
The adrenal glands, located atop the kidneys, normally produce several types of hormones. Tumors of these glands may or may not secrete hormones. It is not known what causes these tumors or why some secrete hormones and others do not. Some of the tumors are benign and confined to the adrenal gland, and others are malignant (cancerous), and can spread to other parts of the body. This study will investigate how adrenal gland tumors develop, why some secrete steroid hormones and others do not, and why some are benign and others malignant. Patients between 3 and 70 years old with a known or suspected adrenal gland tumor may be eligible for this study. Participants will be hospitalized for 7 to 10 days for various tests and procedures that may include the following: 1. Medical history and physical examination, including body measurements, as appropriate. Children and adolescents will have Tanner staging, including examination of the genitals, to determine the extent of sexual maturity. 2. 24-hour urine collection to measure hormones in the urine. 3. Imaging studies, including magnetic resonance imaging (MRI) of the brain, computed tomography (CT) and other X-ray studies. 4. Blood tests to see if the tumor secretes hormones in response to specific stimuli, including exercise, food, and various hormones. The hormones are given through an intravenous catheter, or IV a thin plastic tube inserted into an arm vein. After the stimulus, blood is drawn through the same IV every 30 minutes for up to 3 hours to measure hormone levels. Based on the results of these tests, some patients may have additional blood tests to check hormone response to special foods, an IV salt solution, or other hormones or drugs given either IV or by mouth (in pill form). 5. Photographs to document the effects on the body of abnormal hormone secretion from the adrenal tumor. 6. Small samples of blood and tumor tissue for research and DNA (genetic) analysis. A discussion of treatment options will be based on the results of tests. If surgery to remove the tumor is recommended, the procedure can be done at NIH under this study protocol. If a malignant tumor is found that cannot be treated surgically, chemotherapy or radiation therapy may be recommended. These options are not offered under this protocol, but may be available under a different NIH study (for example, at the National Cancer Institute). Referrals will be made at the patient s request. Patients who had surgery may be followed at the NIH outpatient clinic for 1 year after surgery. Patients with certain types of tumors may continue to be followed at NIH once a year for up to 5 years. A registry of study participants will be created to keep records and correlate medical histories with tissues kept at NIH. The registry will also be used to inform participants of research studies they may be interested in. No individuals or organizations outside of NIH will have access to the registry....
NCT00024804
This study has four objectives: 1) to provide investigators the opportunity to study bone specimens from patients with various skeletal diseases; 2) to treat patients with skeletal diseases at the NIH; 3) to expose NIH trainees to certain skeletal diseases; and 4) to gain more knowledge about skeletal diseases and stimulate further study of bone biology. Anyone with a disease that affects the skeleton may be eligible for this study. All evaluations, tests, procedures and treatments given study participants are used in the standard care of skeletal diseases. No experimental evaluations or treatments are offered. Patient evaluations include a medical history, review of medical records and routine physical examination. Based on the findings, other procedures may be recommended, including blood tests, urine tests, and imaging tests, such as X-rays, bone densitometry, bone scan, computed tomography (CT) and magnetic resonance imaging (MRI). Bone specimens from participants will be collected for research use. Specimens will be obtained from bone removed during a patient s planned surgical procedure performed for medical care, or patients may be requested to have a bone biopsy removal of a small piece of bone tissue as part of the patient evaluation procedure.
NCT00026884
Selected individuals suspected of having or with prior biopsy proof of malignant disease will be seen in the Urologic Oncology Branch, NCI. Blood samples may be collected at the time of the initial visit and at periodic intervals during the course of the disease. These samples will be stored in the tissue bank of the Urologic Oncology Branch. Aliquots of malignant and normal tissue will be collected at the time of surgery and stored in the tissue bank, Urologic Oncology Branch, NCI. These materials will be used in the research efforts of the Urologic Oncology Branch, NCI....
NCT00042614
This study will investigate the causes of acute and chronic rejection of transplanted hearts. To find better ways to detect, treat and possibly prevent heart transplant rejection, more information about the cause is needed. Acute and chronic heart transplant rejection may be caused by certain substances the body produces in response to the new heart. This study will try to find a blood or urine test that detects genes and proteins that can serve as markers of rejection. Such a test may lead to earlier detection and improved treatment. Patients 18 years and above who are on a wait list for heart transplant at a UNOS-approved heart transplant center, whose institutional review board has approved this protocol, may be eligible for this study. Healthy volunteers will also be included in the study to establish a database of normal values for comparison with patients undergoing heart transplant. In addition, patients who have had a heart transplant within the past 1 to 5 years will be enrolled in a pilot study. Normal volunteers will be screened for participation with an electrocardiogram (EKG) and echocardiogram, non-invasive tests to evaluate heart function. Participants will undergo the following procedures: * Review of medical records Patients who have had a heart transplant and those on a wait list to receive a heart will have their medical records reviewed to collect information on their condition. * Blood samples 60 cc (about 3 tablespoons) of blood will be collected from all participants by needle stick in a vein. The sample will be analyzed for genes and proteins that might predict heart rejection. In addition, many genes in blood cells and cells lining blood vessels that are unrelated to heart transplant rejection and whose functions or significance are unknown will also be examined for ideas for future research. Patients enrolled while on a wait list will, after transplantation, have an additional 44 cc (about 2 tablespoons) of blood collected at each heart biopsy and rejection episode during the first year of transplant, and 60 cc collected with each yearly biopsy for the next 9 years. * Urine samples Between 100 and 300 cc (3 to 10 ounces) of urine may be collected from all participants to confirm blood test results
NCT00065676
Quercetin is a compound naturally found in various foods. It may have some role in the treatment of obesity and diabetes. The purpose of this study is to investigate research volunteers with obesity or obesity with type 2 diabetes to determine whether quercetin affects the way glucose is absorbed by the body. Thirty two participants aged 19 to 65 who are considered to be medically obese or obese with type 2 diabetes will be enrolled in this study. Before the onset of treatment, they will undergo a medical history, physical exam, blood work, and urinalysis. During the study, participants will be given an oral glucose tolerance test three times; during these tests they will receive 1 or 2 grams of quercetin, or placebo. Researchers will collect blood samples and analyze the effect of the treatment on blood glucose.
NCT00068003
Background: The NCI Surgery Branch has developed experimental therapies that involve taking white blood cells from patients' tumor or from their blood, growing them in the laboratory in large numbers, and then giving the cells back to the patient. Objective: This study will collect white blood cells from normal volunteers and white blood cells and/or tumor cells, from patients who have been screened for and are eligible for a NCI Surgery Branch treatment protocol. The cells collected from normal volunteers will be used as growth factors for the cells during the period of laboratory growth. The cells and/or tumor from patients will be used to make the cell treatment product. Eligibility: Patients must be eligible for a NCI Surgery Branch Treatment Protocol Normal Volunteers must meet the criteria for blood donation Design Both patients and normal Volunteers will undergo apheresis. Patients will then undergo further testing as required by the treatment protocol. There is no required follow up for normal volunteers.
NCT00083512
This study will collect blood and urine samples from patients undergoing radiation therapy for glioblastoma multiforme (a type of brain tumor) to investigate the effects of this treatment on blood cells and certain proteins. The information from this study may help scientists develop new tests to measure radiation exposure and find new ways to treat cancer with radiation, and help determine which kinds of patients or tumors respond better to radiation therapy. Two proteins of particular interest in this study and which may be involved in the recurrence of cancer are VEGF (vascular endothelial growth factor) and MMPs (matrix metalloproteinases). Patients 18 years of age and older with glioblastoma multiforme who are receiving or will receive radiation therapy as part of their medical treatment may be eligible for this study. Candidates are screened with a history and physical examination, blood tests, and magnetic resonance imaging (MRI) of the brain. Participants will have blood and urine samples collected before, during and after completion of their radiation treatment. Urine samples are collected in a cup and about 2 tablespoons of blood are withdrawn through a needle in a vein. Additional samples may be requested at different times during treatment and in the 3-year follow-up period. ...
NCT00090662
Increased numbers of white blood cells called eosinophils can cause disease. To investigate this disease, researchers need blood, urine, sputum, stool, cerebrospinal fluid, skin and/or bone marrow samples to compare to samples from patients with this problem. Some of the samples will be used for genetic testing or future research. This study will last for about 10 years and will include a maximum of 50 paid volunteers ages 18 to 65. ...
NCT00098072
This study will examine and test healthy volunteers and patients with pulmonary hypertension to try to learn more about the disease and find better ways to detect, treat, and, if possible, slow progression. Pulmonary hypertension is a rare blood vessel disorder of the lung in which the pressure in the pulmonary artery (the blood vessel that leads from the heart to the lungs) rises above normal levels and may become life-threatening. Normal volunteers and patients with pulmonary hypertension 18 years of age and older may be eligible for this study. All candidates are screened with a review of their medical records. Normal volunteers also have a medical history, electrocardiogram, echocardiogram (heart ultrasound), and pulmonary function test, in which the subject breathes in and out of a tube that measures lung volume, mechanics and function. All participants undergo the following tests and procedures: * Echocardiogram to measure heart function and blood pressure in the lungs. A small probe held against the chest uses sound waves to obtain pictures of the heart. * Magnetic resonance imaging (MRI) to evaluate the heart's pumping action. Subjects lie on a stretcher that slides into a long, tube-shaped scanner. The machine uses a magnetic field and radio waves to obtain images of the heart. * 6-minute walk to measure how far the subject can walk in 6 minutes. Subjects walk around the hospital for 6 minutes at a comfortable pace. * Exercise testing to measure the ability to exercise and the subject's oxygen levels during exercise. Subjects exercise on a bike or treadmill while the oxygen and carbon dioxide they breathe are measured using a small device placed in the mouth. * Right heart catheterization to measure pressure in the heart and lungs. A small catheter (plastic tube) is placed in an arm vein. A longer catheter called a central line is placed in a deeper vein in the neck or just below the neck, or in the leg or arm. A long, thin catheter that measures blood pressure directly is then inserted into the vein and advanced through the chambers of the heart into the lung artery to measure all the pressures in the heart and obtain blood samples. * Genetic and protein studies. DNA, RNA, and proteins from blood samples are studied for genes and proteins that might predict the development or progression of pulmonary hypertension. In addition to the above, patients whose pulmonary hypertension was caused by a blood vessel injury undergo the tests described below. The right heart catheter inserted for the catheterization procedure remains in place to obtain measurements of the effects of nitric oxide and nitrite in the following procedures: * Inhalation of nitric oxide (a gas naturally produced by cells lining arteries) at 30-minute intervals to examine its effect on lung and heart pressures. * Inhalation of aerosolized nitrite at 5-minute intervals to measure its effects on lung and heart pressures. * Inhalation of nitric oxide for up to 24 hours to obtain multiple measurements of its effect on lung and heart pressures. * Blood draws for laboratory tests. In patients whose pulmonary hypertension was caused by a blood vessel injury, we also plan to follow response to standard therapy. After the initiation of standard therapy, we will restudy the same parameters (excluding NO and sodium nitrite studies) in these patients at approximately 4 months, and yearly for 5 years ...
NCT00106925
This study will provide follow-up evaluation and care of patients who have undergone allogeneic (donor) stem cell transplantation at the NIH Clinical Center. Patients are monitored for their response to treatment, disease relapse, and later-occurring effects of the transplant. Patients between 10 and 80 years of age who received a donor stem cell transplant at the NIH Clinical Center under an NHLBI protocol may be eligible for this study. Candidates must have had their first transplant at least 3 years before entering the current study. Participants are generally seen in the clinic every 12 months for some or all of the following procedures: * Periodic physical examinations, eye examinations, and blood and urine tests. * Bone marrow aspiration and biopsy: A sample of bone marrow is obtained for microscopic examination. The patient is given local anesthesia or conscious sedation. An area of the hipbone is numbed, a thin needle is inserted through the skin into the bone, and a small amount of marrow is withdrawn. * Tissue biopsy: A small piece of tissue or tumor is obtained for microscopic examination. Depending on the site of the biopsy, the tissue may be removed using a cookie cutter-like "punch" instrument, a needle, or a knife. The area is numbed and the tissue is removed with the appropriate tool. * Imaging tests to visualize organs, tissues, and cellular activity in specific tissues. For these tests, the patient lies on a table that slides into the scanner. They may include the following: 1. Nuclear scans use a sensitive camera to track a small amount of radioactive material (radioisotope) that is given to the patient by mouth or through a vein. The scan may show abnormal areas of tissue in the bones, liver, spleen, kidney, brain, thyroid, or spine. 2. Magnetic resonance imaging (MRI) uses a magnetic field and radio waves to examine small sections of body organs and tissues. 3. Computerized tomography (CT) uses x-rays and can be done from different angles to provide a 3-dimensional view of tissues and organs. 4. Positron emission tomography (PET) uses a fluid with a radioisotope attached to it to show cellular activity in specific tissues. The fluid is given through a vein and travels to the cells that are most active (like cancer cells), showing if there is an actively growing tumor. * Pulmonary (lung) function tests: The patient breathes into a machine that measures the volume of air the person can move into and out of the lungs. * Heart function tests may include the following: 1. Electrocardiogram (EKG) evaluates the electrical activity of the heart. Electrodes placed on the chest transmit information from the heart to a machine. 2. Echocardiogram (Echo) is an ultrasound test that uses sound waves to create an image of the heart and examine the function of the heart chambers and valves. 3. Multiple gated acquisition scan (MUGA) is a nuclear medicine test that uses a small amount of radioactive chemical injected into a vein. A special scanner creates an image of the heart for examining the beating motion of the muscle. Disease relapse or progression, or transplant-related problems may be treated with standard medical, radiation, or surgical therapy, or patients may be offered experimental therapy. ...
NCT00852943
Background: * Mast cells are responsible for most symptoms of allergic reactions. In some allergic diseases, it is unusually easy to cause mast cells to release their contents and cause allergic reactions. In other cases, mast cells grow abnormally and, in rare cases, can result in tumors. Mast cells also control other parts of the immune system. * Understanding why mast cells behave abnormally in allergic diseases is important to finding better ways for diagnosing and treating these potentially life-threatening disorders. Objectives: * To screen mast cells at the genetic and functional levels to characterize abnormalities, identify mutations, detect carrier states, and/or develop therapies for such disorders. * To create a library of information about inherited diseases of mast cell homeostasis and activation, including piebaldism (problems with skin and hair pigmentation), anaphylaxis (severe allergic reaction), allergies, asthma, atopic dermatitis (eczema), allergic rhinitis ( hay fever ), food allergies, urticaria/angioedema (hives/swelling), immunodeficiency diseases, and autoimmune diseases. Eligibility: * Patients between the ages of 1 and 80 years who have been referred by a physician and are known to have or be suspected of having an inherited disorder of mast cells, in particular patients (and their relatives) with piebaldism, allergies, or anaphylaxis that is not caused by allergies. Design: * Study population will consist of up to 1000 participants in a 5-year period. One third of the study population will consist of patients; the other two thirds will consist of biological relatives. * Evaluation is limited to testing on blood specimens; no treatment will be provided. * Clinical and research laboratory evaluations of patients will include the following: * Clinical evaluation and previous laboratory tests as documented in outside medical records by health care providers. A standard questionnaire will also be administered at the time of subject enrollment. * Blood collection for clinical laboratory testing, tailored to each subject s clinical evaluation where appropriate (5 ml). * Blood collection for research laboratory testing, tailored to each subject s clinical evaluation including genetic screening and assessment of mast cell growth and functioning and storage of additional frozen blood specimens for future studies (up to an additional 30 ml). * Evaluations of blood relatives will include the following: * Clinical evaluation as documented from outside medical records by health care providers and administration of a standard questionnaire. * Blood collection where indicated for diagnostic or research purposes. * After 12 consecutive months on the study, results from initial evaluation will be reviewed. Subjects with findings deemed to be of continued interest will be contacted and invited to remain as active participants to this protocol for another year, provided that they renew their consent to participate.
NCT01031407
Background: * Autism spectrum disorders (ASDs) are a group of developmental disorders that affect communication, social interaction, and behavior. Relatively little is known about the relationship between genetics and behavior among these individuals and their close relatives. Researchers are interested in using interviews and rating scales to better understand these issues, as well as collecting brain scan data and genetic samples for testing and comparison. * By comparing test results and genetic samples from healthy volunteers, people with ASD, and parents (or caregivers or legal guardians) of the first two groups, researchers hope to better understand the neuroscience of ASD. Objectives: * To learn more about the brain in healthy people and in people with autism spectrum disorders. * To study genes that might be involved in autism spectrum disorders by collecting DNA samples from participants. Eligibility: The following groups of participants will be eligible for the study: * Individuals between 5 and 89 years of age who have autism spectrum disorders. * Healthy volunteers between 5 and 89 years of age. * Cognitively impaired children between 5 and 17 years of age. * Parents/caregivers/legal guardians of individuals in the above three groups. Design: * Participants will visit the National Institutes of Health Clinical Center for research tests, which will be administered over multiple visits. Researchers will determine the specific tests to be administered based on the medical history of the study participant. * Researchers will study the brain through interviews, tests of thinking and memory (neuropsychological tests), brain imaging with magnetic resonance imaging (MRI), and magnetoencephalography (MEG). * The study will also collect blood or saliva to obtain a DNA sample.
NCT01143454
Background: \- Researchers are interested in studying individuals who have known or suspected metabolic, inflammatory or genetic diseases that may put them at a high risk for heart diseases or diseases of their blood vessels. Depending on the condition being studied, both affected and nonaffected individuals may be asked to provide blood and other samples and may undergo tests to evaluate the heart, blood vessels and lung function. The testing is tailored to the individual and/or condition being studied. Nonaffected individuals may include relatives of affected individuals and healthy nonrelated volunteers. Objectives: \- To study individuals who have or are at risk for cardiovascular diseases, and in some cases their unaffected relatives and healthy volunteers. Eligibility: \- Individuals between 1 and 100 years of age. Participants may be healthy volunteers, individuals with cardiovascular diseases, or unaffected relatives of individuals with cardiovascular diseases. Design: * Participants will have some or all of the following tests, as directed by the study researchers: * Photography of the face and full body * Body measurements * Radiography, including chest or limb x-rays * Metabolic stress testing to study heart and muscle function * Echocardiography to study heart function * Magnetic resonance imaging (MRI) studies, including cardiovascular MRI, angiography, and contrast MRI, to study heart function and performance * Computed tomography (CT) angiogram to obtain images of the heart and lungs * Positron emission tomography (PET) imaging to study possible fat infiltration of the heart * Six-minute walk test to study heart, lung, and muscle function and performance * Vascular ultrasound to study blood vessel walls * Blood, tissue, and other specimens will be collected for research and testing, and will be taken either as part of the clinical study or during surgical procedures. * Follow-up studies may be performed under separate research protocols.
NCT01212055
Background: \- Gene therapy is being investigated as a possible treatment for individuals with immunodeficiency diseases or other conditions that make it difficult to fight off infection. Gene therapy avoids problems with donor identification and possible rejection of bone marrow transplant by using the patient s own modified blood cells to help treat the disease. Researchers are interested in collecting stem cells from the blood of individuals with immunodeficiency diseases in order to use the cells to develop potential gene therapy treatments. Objectives: \- To collect blood stem cells from patients with immunodeficiency diseases tto test our ability to correct the defects of these cells in the test tube. Eligibility: * Individuals between 18 and 40 years of age with immunodeficiency diseases. * Individuals with human immunodeficiency virus (HIV) will not be able to participate in this study. Design: * Participants will provide an initial blood sample for disease screening (such as hepatitis B and C, syphilis, or viruses like the Epstein-Barr virus, herpes simplex virus, or toxoplasmosis) and to check kidney and liver function. * Starting 5 days before blood donation, participants will receive daily injections of a drug called G-CSF (granulocyte colony stimulating factor, or filgrastim), which pushes stem cells out of the bone marrow and into the bloodstream. Participants will receive the injections at the National Institutes of Health Clinical Center. * On day 5, participants will have a single leukapheresis procedure to collect the stem cells from the blood. * No additional treatment will be provided as part of this protocol. The cells that are collected will be used fore experiments in the lab and will not be used to treat individuals with these diseases.
NCT01247597
Background: \- Pleuropulmonary blastoma (PPB) is a rare fast-growing lung tumor that is associated with other, rare tumor types. Most cases of PPB appear in children younger than 6 years of age. Recently, it has been shown that this condition can be inherited (e.g., mutation of the DICER1 gene). Researchers are studying both clinical and genetic aspects of this newly described condition. They are interested in collecting further medical history and genetic information on individuals and close relatives of individuals who have PPB or other rare associated tumors. Objectives: \- To study individuals with a personal or a family history of pleuropulmonary blastoma (PPB) or other rare tumors that can be associated with PPB (e.g., cystic nephroma, nasal chondromesenchymal hamartoma, ovarian Sertoli-Leydig cell tumors, ocular medulloepithelioma). Eligibility: * Individuals who have been diagnosed with PPB and/or PPB-related tumors. * Close blood relatives (e.g., parents, siblings, grandparents) of individuals who have been diagnosed with PPB and/or PPB-related tumors. Design: * Interested participants can enroll or inquire about this study by calling 1-800-518-8474. * Participants will be asked to complete family history and medical history questionnaires. They will complete the questionnaire if they are at least 18 years of age, or another person will complete the questionnaire if the key family member is too young to do so on his or her own. * Participants will be asked to sign a medical record release form to allow researchers to examine detailed medical history information. * Participants may be asked to have a physical examination and imaging studies, provide blood and saliva samples, or provide tumor tissue from prior biopsies or cancer surgeries. * Annually, participants will update the family history and individual information questionnaires to document important changes in medical history, and will also update the medical record release form. Participants may be asked to provide additional cheek lining cells and/or blood samples, as well as tumor tissue from any new or planned biopsies or tumor surgeries. * Treatment will not be provided as part of this protocol.
NCT00644228
This randomized phase III trial studies lenalidomide, dexamethasone, and bortezomib to see how well it works compared to dexamethasone and lenalidomide alone in treating patients with previously untreated multiple myeloma. Biological therapies, such as lenalidomide, may stimulate the immune system in different ways and stop cancer cells from growing. Drugs used in chemotherapy, such as dexamethasone, work in different ways to stop the growth of cancer cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Bortezomib may stop the growth of cancer cells by blocking some of the enzymes needed for cell growth or by blocking blood flow to the cancer. It is not yet known whether lenalidomide and dexamethasone is more effective with or without bortezomib in treating multiple myeloma.
NCT01038778
This phase I/II trial studies the side effects and best dose of entinostat when given together with aldesleukin and to see how well this works in treating patients with kidney cancer that has spread to other places in the body. Entinostat may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Aldesleukin may stimulate the white blood cells to kill kidney cancer cells. Giving entinostat together with aldesleukin may be a better treatment for metastatic kidney cancer.
NCT00937937
This phase II trial is studying the side effects and how well dinaciclib works in treating patients with stage IV melanoma. Dinaciclib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth.
