52 Clinical Trials for Various Conditions
We are planning to collected blood and saliva for DNA extraction to use for genetic testing of children and adults with EDS and their relatives. Medical records from other institutions and clinical notes for visits in Dr. Holick's clinic will be reviewed to obtain the following information: previous diagnosis at other institutions, age, clinical signs and symptoms of EDS, Joints Hypermobility Syndrome (JHS), , and other metabolic or genetic disorders and laboratory results, radiology reports and images, and genetic testing that supports these diagnoses. Subjects' peripheral vein blood and saliva will be taken. No clinical intervention/randomizations will be performed. No patients' identifiers will be reported. In this pilot study genomic DNA will be extracted and will be used for genotyping as sequencing in 30 EDS patients and their 30 relatives with or without EDS to compare genetic variations between them. After validation by Sanger sequencing for these variations, we plan to prepare a genetic panel for EDS. After all validation testing, we plan to evaluate the saliva DNA in a similar manner and compare the results with those obtained from the DNA from the blood sample. The purpose is that if they are comparable, we will be able to use saliva in place of blood as it easier method for accessing a person's DNA. This will be especially helpful for evaluating infants or those patients who prefer not to have a blood sample drawn. NOTE: Results of this study will not be disclosed to subjects.
Polycystic ovary syndrome (PCOS) is the most common endocrine disorder in reproductive age women. Women with PCOS have a high risk of prediabetes, type 2 diabetes and heart disease. The investigators have found a possible change in the DNA (genes of the body that encode all of our traits) that seems to be related to insulin resistance. In this study, the investigators will try to determine whether the change in the gene affects a woman's ability to respond to a common treatment for PCOS, metformin. These studies will uncover the change in a gene that might be one of the causes of PCOS. Discovering this gene will help better understand the diabetes and insulin abnormalities that are common in PCOS and will help us to better diagnose and treat PCOS to prevent the diabetes in these women.
To investigate the clinical, genetic and cardiologic aspects of the Long QT Syndrome, a predominantly hereditary disease with episodic malignant arrhythmias and sudden death, and a demonstrated gene linkage in a large pedigree.
This was a prospective, open-label study with no participant randomization. Treatment for aHUS was observational and at the discretion of the treating physician. The purpose of this study was to assess disease manifestations of complement-mediated thrombotic microangiopathy (TMA) and evaluate potential clinical predictors of disease manifestations and progression in participants with aHUS with or without eculizumab treatment in the clinical setting.
The purpose of this study is to look at genes (DNA) and how they affect health and disease. Genes are the instruction manual for the body. The genes you get from your parents decide what you look like and how your body behaves. They can also tell us a person's risk for certain diseases and how they will respond to treatment. We will collect a saliva sample for genetic research.
The goal of this study is to determine the genetic basis of polycystic ovary syndrome (PCOS). We will first look for genes in the Icelandic population, where large family trees are known and it is easier to search for genes. We will then determine whether these same genes are important in U.S. PCOS patients.
The vision of the "Lynch syndrome INtegrative Epidemiology And GEnetics" (LINEAGE) Consortium is to collaboratively improve the lives and longevity of individuals and families with Lynch syndrome. The mission of the LINEAGE Consortium is to collaboratively improve Lynch syndrome care through high-quality research. This consortium will provide intellectual and infrastructure support to facilitate development of research questions, collection of standardized data and biospecimens, support of grant applications, and generation of collaborative manuscripts. Our aims are to: I. Establish a prospective cohort of individuals with Lynch syndrome II. Collect standardized longitudinal clinical and biosample data to elucidate Lynch Syndrome epidemiology and gene-host interactions III. Promote intervention trials to improve cancer prevention and early detection in Lynch Syndrome
The purposes of this study are to: 1. study the nature and longitudinal course of psychiatric symptoms in children with the 22q11.2 deletion syndrome and 2. identify genes that contribute to the occurrence of these symptoms.
This study will evaluate patients with a rare inherited condition called Bardet-Biedl syndrome . The purpose of the study is to learn more about the genetics and clinical characteristics of this disorder. Patients may have the following problems: polydactyly (extra fingers and toes); retinal dystrophy (changes in the retina that may lead to vision problems, including blindness); obesity and diabetes (overweight and high blood sugar due to failure of body organs to respond to insulin); cognitive dysfunction (difficulties with learning and understanding); hypogenitalism (decreased functioning of the ovaries in women and the testes in men); kidney anomalies (changes in the structure or function of the kidneys); heart disease; and hepatic fibrosis (liver disease). Patients with Bardet-Biedl syndrome may be eligible for this study. First-degree relatives will also be enrolled for certain tests and procedures. Candidates are screened with a review of their medical records, laboratory tests, and x-rays. Patients in this study undergo the following tests and procedures: * Medical and family history and physical examination, including body measurements. * Blood tests to evaluation kidney, liver, heart, and hormonal function, and for genetic studies and other research purposes. * Dual emission x-ray absorptiometry (DEXA) scan to measure the amount of total body fat. For this test, the subject lies on a table for scanning with low-dose X-rays. * Computed tomography (in adults) of the abdomen to measure abdominal fat. CT uses a small amount of radiation to obtain images of internal body structures. * Magnetic resonance imaging (in children) of the abdomen to measure abdominal fat. MRI uses a magnetic field and radio waves to obtain images of internal body structures. * Oral glucose tolerance tests to measure blood glucose and insulin levels. For this test, the patient drinks a glucose (sugar) solution. Blood samples are drawn through an IV catheter before the test begins and at 1, 2, and 3 hours after drinking the solution. * Complete eye examination to look for retinal changes and to assess vision, and, if medically needed, an examination of the ear, nose, and throat to check for hearing and breathing abnormalities. * Tests of learning ability in patients over 5 years of age. For younger patients, a parent is asked about the child's development. * Ultrasound study of the ovaries and uterus in females and of the testes in males. * Photographs of the face, hands, feet, body, and genitalia, if the patient agrees. * Meeting with investigators and a genetic counselor for review of test findings when the studies are completed. Relatives of patients have a complete medical and family history and physical examination. Blood is drawn for assessment of kidney, liver, heart, and hormonal function and for genetic study and other research purposes. Relatives over 5 years of age may have tests of learning ability and cognition. For younger patients, a parent is asked about the child's development. Relatives meet with investigators and a genetic counselor for review of test findings when the studies are completed.
The Hyper IgE Syndromes (HIES) are primary immunodeficiencies resulting in eczema and recurrent skin and lung infections. Autosomal dominant Hyper IgE syndrome (AD-HIIES; Job's syndrome) is caused by STAT3 mutations, and is a multi-system disorder with skeletal, vascular, and connective tissue manifestations. Understanding how STAT3 mutations cause these diverse clinical manifestations is critical to our complete understanding of bone metabolism, bronchiectasis, dental maturation, and atherosclerosis. Bi-allelic mutations in DOCK8 cause a combined immunodeficiency previously described as autosomal-recessive Hyper IgE syndrome. These individuals suffer from extensive viral infections as well as have a high incidence of malignancy and mortality. The pathogenesis of this disease and long-term natural history is being investigated. Therefore, we seek to enroll patients and families with a confirmed or suspected diagnosis of HIES syndrome for extensive phenotypic and genotypic study as well as disease management. Patients will be carefully examined by a multidisciplinary team and followed longitudinally. Through these studies we hope to better characterize the clinical presentation of STAT3-mutated HIES, DOCK8 deficiency and other causes of the hyper IgE phenotype, and to be able to identify further genetic etiologies, as well as understand the pathogenesis of HIES. We seek to enroll 300 patients and 300 relatives.
Background: Clinical Genetics Branch (CGB) researchers study individuals and populations at high genetic risk of cancer in order to improve our understanding of cancer and to improve cancer care. There are currently 8 open clinical genetics studies at the CGB. * 001109: Defining the Natural History of Squamous Cell Carcinoma in Fanconi anemia (SCC Screening in FA). * 20C0107: Clinical, Genetic, and Epidemiologic Study of Children and Adults with RASopathies (RASopathies Study). * 02C0052: Etiologic Investigation of Cancer Susceptibility in Inherited Bone Marrow Failure Syndromes: A Natural History Study (Cancer in Bone Marrow Failure). * 11C0255: Clinical, Epidemiologic, and Genetic Studies of Li-Fraumeni Syndrome (Li Fraumeni Syndrome Study). * 11C0034: DICER1-Related Pleuropulmonary Blastoma Cancer Predisposition Syndrome: A Natural History Study (Pleuropulmonary Blastoma). * 02C0211: Clinical, Laboratory, and Epidemiologic Characterization of Individuals and Families at High Risk of Melanoma (Melanoma-Prone Families). * 78C0039: Clinical, Laboratory, and Epidemiologic Characterization of Individuals and Families at High Risk of Cancer (Cancer-prone families study). * 10CN188: Genetic Clues to Chordoma Etiology: A Protocol to Identify Sporadic Chordoma Patients for Studies of Cancer-susceptibility Genes (Sporadic Chordoma Study). Objective: To find people to participate in active CGB cancer research studies. Eligibility: People of any age who meet the eligibility criteria for one of the open CGB cancer research studies. This typically involves a personal or family history of certain cancers that are being studied by researchers at CGB. Design: Participants will fill out a screening questionnaire to determine if they are eligible to participate in one or more CGB clinical genetics studies. The survey asks about personal health history, including cancer; their family history; and genetic testing results and takes 15 to 20 minutes. Each study has its own eligibility criteria. Survey respondents will respond with study (or studies) that are interested in participating in, and the relevant study team(s) will review the screener to determine eligibility to participate in the study. Participants who are determine to be eligible for a study based on their screener will be contacted by the respective study team to learn more about the study and to consent to enroll in the study if they choose to do so. Participants who consent to enroll in a study will be asked to provide medical records and samples such as blood, saliva, or other tissues and to participate in activities such as phone interviews or surveys. They may be invited for evaluations at the clinical center. Every study activity is voluntary. None of the studies provide treatments. Participants may be contacted to consider enrolling in future studies.
The goal of this clinical trial is to address care gaps for participants at high risk of breast and ovarian cancer (HBOC), or Lynch syndrome (LS) because of testing positive for specific genetic variants. A patient-centered clinical decision support (PC-CDS) tool will help identify participants with genetic variations and display recommendations for referrals and testing to the clinician and participant at a primary care visit. The main question the study aims to answer is: - Does clinical decision support for participants with hereditary cancer syndromes improve the use of evidence-based cancer prevention care. Participants being seen in the PC-CDS group are compared to participants being seen in usual care (UC) to see if they are up to date on guideline-based cancer prevention care and to see if participants in the PC-CDS group report more shared decision making and higher rates of self-management of their genetic cancer risks. Participants will be asked to answer survey questions.
This study is an observational, prospective genetic study. It aims to obtain DNA for research and testing from patients with PSP, CBS, MSA, and related neurological conditions and their families. Up to 1,000 adults who have been clinically diagnosed with PSP, CBS, MSA, or related neurological conditions will be enrolled. The study intervention involves sequencing of participant blood samples using non-CLIA-approved whole genome sequencing at the National Institutes of Health. Pathogenic variants that are deemed possibly related to these conditions will be confirmed using CLIA-approved testing. The study involves minimal risk to participants.
This is an exploratory natural history protocol that will enroll patients with known genetic diseases, such as VEXAS syndrome, or as yet undiagnosed disorders of inflammation with the goal of improving our understanding of disease processes. Blood, saliva, hair, nail, or buccal samples may be collected for genetic analysis, blood samples will be obtained for immunologic and other functional studies, and a small number of subjects may undergo skin biopsy.
Background: Periodic fever, aphthous stomatitis, pharyngitis, and cervical adenitis (PFAPA) is the most common periodic fever syndrome of childhood. Symptoms can include swelling of the glands in the throat, mouth ulcers, and tonsillitis. Removal of the tonsils can stop the periodic flareups. But researchers do not know how PFAPA develops. In this natural history study, researchers will collect specimens and data from people with PFAPA to see what they might have in common. Objective: To collect blood and other specimens from people with PFAPA to learn more about the illness. Eligibility: People aged 1 month or older with symptoms of PFAPA or another tonsil disorder. Design: Participants will be screened. Their medical records will be reviewed. Researchers will ask about a family history of PFAPA. The following specimens may be collected: Blood. Blood will be drawn either from a needle inserted into a vein or from a prick in the finger or heel. Mucus and cells. A stick with soft padding on the tip may be rubbed inside the nostrils or mouth. Stool. Saliva. Tissue samples may be taken if participants are having surgery to remove the tonsils or adenoids. Participants having surgery may also have a nasopharyngeal wash; salt water will be squirted into the back of the throat and then sucked back out with a syringe. Most participants will provide specimens only once. They can do this in person at the clinic; they can also have their local health providers send specimens to the researchers. Some participants may have optional follow-up visits over 10 years.
This is a randomized, double-blind, placebo-controlled, multiple-center study, to assess the efficacy and safety of Cannabidiol administered as ZYN002 for the treatment of children, adolescent, and young adult patients with Fragile X Syndrome (FXS). Eligible participants will participate in up to an 18-week treatment period, where all participants will receive placebo or active study drug. Patients ages 3 to \< 30 years will be eligible to participate.
Background: A germline mutation is a change to a person s genes that is carried through their DNA. These mutations can be passed on from parents to their offspring. Germline mutations in a gene called BAP1 are linked to the development of mesothelioma and other cancers. Researchers want to follow people with these mutations to learn more. Objective: To see if researchers can improve how people who have or are suspected to have a BAP1 mutation are monitored over time. Eligibility: People age 30 and older who are suspected to have a BAP1 germline mutation. Design: Participants will be screened with a personal and family medical history. Their medical records may be reviewed. They will give a blood or saliva sample to test for a BAP1 mutation. They will get genetic counseling. To take part in this study, participants will enroll on 2 to 3 other protocols. Participants will have a physical exam. They may have a tumor biopsy. They will give blood and urine samples. They will have skin and eye exams. Some participants will have video-assisted thoracoscopy to examine the chest and lungs and diagnose suspicious areas. For this, a small camera is inserted into the chest through a small incision. Some participants will have laparoscopy to examine the organs inside the abdomen. For this, a small camera is inserted into the abdomen through a small incision. Participants will have imaging scans of the chest, abdomen, and pelvis. They may have brain scans. Participants will visit the NIH once a year for follow-up exams. Participation lasts indefinitely.
The purpose of this study is to help scientists understand why some people who were exposed to alcohol in the womb have special facial features but other people do not. This study will test if genetics (or DNA) explains these differences. We hope this will help improve treatments and interventions for people with fetal alcohol spectrum disorders (FASD). Participants in this study (or their parents or legal guardians) will be asked to: * Answer some questions about themselves. These questions ask about their demographic background (such as gender, race, ethnicity, income, and education), their health history, and their mother's health during her pregnancy with them (if that information is known). * Speak with study staff briefly by phone or video chat to confirm enrollment in the study and ask any questions they have. * Take photographs of their face. * Provide a saliva sample for genetic research. Participants can complete the study at home from anywhere in the world. The questions can be answered online, over the phone, or on paper. Adopted families are welcome to enroll. The study pays for all shipping costs.
Background: Inflammatory conditions can cause symptoms like fevers, arthritis, and rash. Systemic juvenile idiopathic arthritis (sJIA) is one of these conditions. So is adult-onset Still s disease (AOSD). Their causes are unknown. Researchers want to learn more about these conditions. This includes genetic changes and environmental factors. Objective: To study sJIA and AOSD in children and adults over time. Eligibility: People with known or suspected sJIA, AOSD, or similar inflammatory condition Design: Participants will be screened with a phone call. Participants will have 1 visit. It may be outpatient or they may be admitted to the clinic. The visit may last up to 5 days. Participants will have: * Medical history * Physical exam * Musculoskeletal exam * Questions about overall health and quality of life, disease activity, functional status, and cognitive ability. Participants may also have: * Pictures taken of their skin, joints, or spine * Blood, urine, and stool tests * Scans or X-rays of joints with arthritis * Chest X-ray * Heart tests * Skin biopsy. The skin will be numbed. The top layers of a small area will be scraped off. Participants who have a joint aspiration may provide a fluid sample. The joint will be prepared, then fluid is removed by needle. A corticosteroid may be injected. Participants who have a bone marrow biopsy may provide sample cells. Participants may be seen by NIH specialists. Members of the participant s family and healthy volunteers may give blood or saliva samples for genetic testing. Participants may repeat some study tests every 6 months.
This pilot project will provide foundational information about the contextual factors of irritable bowel syndrome (IBS) related pain (pain catastrophizing, perceived stress, reactivity pain sensitivity, genetic and microbiome) on pain self-management (SM) process and outcomes. In addition, the investigators will gain insight on the potential impact of the personalized IBS-pain SM approach on pain SM behaviors and health outcomes.
Background: Gastric cancers are cancers of the stomach. Hereditary ones are passed from parent to child. Researchers want to gather data about hereditary gastric cancers. They want to learn about changes these cause in the body and about the genes involved. Objective: -To gather data about hereditary gastric cancer. Eligibility: * People at least 2 years old with personal or family history with a hereditary gastric cancer. * People at least 2 years old with gene changes that lead to such cancer or a lesion that may be hereditary. Design: * Participants will be screened in a separate protocol. * Participants will have: * Physical exam * Medical history * Blood tests * Scans * Photos of skin lesions and other findings * Gynecology consultation for women * Cheek swab (some participants) * For some participants, their relatives will be asked to join the study. * Some participants will be asked to allow the study to get stored tissue samples for relatives who have died. * Some samples will be sent to outside labs. All personal data will be protected. Samples will be destroyed when the study ends. * Participants will get the results of genetic testing. * Participants who cannot come to the NIH clinic may just give a cheek swab and have genetic testing done. * Some participants will be contacted for more testing.
The purpose of this study is to collect and store samples and health information for current and future research to learn more about the causes and treatment of blood diseases. This is not a therapeutic or diagnostic protocol for clinical purposes. Blood, bone marrow, hair follicles, nail clippings, urine, saliva and buccal swabs, left over tissue, as well as health information will be used to study and learn about blood diseases by using genetic and/or genomic research. In general, genetic research studies specific genes of an individual; genomic research studies the complete genetic makeup of an individual. It is not known why many people have blood diseases, because not all genes causing these diseases have been found. It is also not known why some people with the same disease are sicker than others, but this may be related to their genes. By studying the genomes in individuals with blood diseases and their family members, the investigators hope to learn more about how diseases develop and respond to treatment which may provide new and better ways to diagnose and treat blood diseases. Primary Objective: * Establish a repository of DNA and cryopreserved blood cells with linked clinical information from individuals with non-malignant blood diseases and biologically-related family members, in conjunction with the existing St. Jude biorepository, to conduct genomic and functional studies to facilitate secondary objectives. Secondary Objectives: * Utilize next generation genomic sequencing technologies to Identify novel genetic alternations that associate with disease status in individuals with unexplained non-malignant blood diseases. * Use genomic approaches to identify modifier genes in individuals with defined monogenic non-malignant blood diseases. * Use genomic approaches to identify genetic variants associated with treatment outcomes and toxicities for individuals with non-malignant blood disease. * Use single cell genomics, transcriptomics, proteomics and metabolomics to investigate biomarkers for disease progression, sickle cell disease (SCD) pain events and the long-term cellular and molecular effects of hydroxyurea therapy. * Using longitudinal assessment of clinical and genetic, study the long-term outcomes and evolving genetic changes in non-malignant blood diseases. Exploratory Objectives * Determine whether analysis of select patient-derived bone marrow hematopoietic progenitor/stem (HSPC) cells or induced pluripotent stem (iPS) cells can recapitulate genotype-phenotype relationships and provide insight into disease mechanisms. * Determine whether analysis of circulating mature blood cells and their progenitors from selected patients with suspected or proven genetic hematological disorders can recapitulate genotype-phenotype relationships and provide insight into disease mechanisms.
Background: - About 15 million Americans have a food allergy. Because there are no cures or effective prevention or treatment for food allergies, researchers want to learn more about them. Objective: - To learn more about the causes and effects of food allergy and related conditions. Eligibility: * People ages 2 99 who have food allergy and/or a related genetic or other condition * Their relatives * Healthy relatives and volunteers Design: * Participants will have at least 3 visits over 1 2 years, and then once a year for up to 12 years. Each may last a day or longer. * Participants will be screened with medical history, physical exam, and questionnaires. * Participants may have the following: * Blood tests * Allergy skin prick tests: Drops of allergens are placed on the back or arm. The skin is scratched under each drop. * Leukapheresis: blood is taken from a needle in one arm, passed through a machine, and returned through a needle in the other arm. * X-rays * Esophageal string test: One end of a string is taped to the cheek and the other end is packed into a capsule. When the capsule is swallowed, the string unwinds; it is left in for at least 1 hour. * EGD and colonoscopy: Biopsies are taken from the gastrointestinal system. * Tiny biopsies of skin * Photographs of the body * Collection of cells through: * Swab of nose, inside of cheek, or skin * Gentle skin scrape * Tape stripping: piece of tape is put on the skin and pulled off.
To assess the ability of common genetic variants in aggregate to predict drug-induced QT prolongation in patients being loaded with dofetilide or sotalol.
The goal of this study is to obtain specimens and data from individuals and their families with heterotaxy and related congenital heart defects in order to clarify the molecular genetics of this disorder. The knowledge gained from the analysis of this information will provide the basis for future genetic counseling as well as contribute to knowledge about the biology of normal and abnormal development of left-right anatomic asymmetry.
This study is designed to study DNA sequencings for mutations in a research genetic test panel of genes (which contains all 32 known and/or published genes associated with PCD). The study aims to show that about 70% of PCD patients have biallelic mutations in one of these genes. This project will enroll patients who have already had a clinical evaluation, and have clinical features consistent with PCD.
Investigators at Boston Children's Hospital are conducting research in order to better understand the genetic factors which may contribute to epilepsy and related disorders. These findings may help explain the broad spectrum of clinical characteristics and outcomes seen in people with epilepsy.
The aim of this study is to determine the frequency of the three most common BReast CAncer gene 1 (BRCA1) and BReast CAncer gene 2 (BRCA2) genetic mutations that are commonly found in Ashkenazi Jewish patients with pancreatic cancer. Testing for BRCA1 and BRCA2 mutations in relatives of hereditary pancreatic cancer patients may have a significant impact; allowing for early screening, treatment, and resection of pre-malignant tissue or malignant lesions.
The purpose of this research study is to investigate the genetic causes of diabetes. Specifically, we are interested in the mitochondrial genome and how variants in the mitochondrial genome influence a person's risk to develop diabetes and metabolic syndrome.
This study will identify genetic factors associated with the development of progressive multifocal leukoencephalopathy (PML) in patients with acquired immunodeficiency syndrome (AIDS). PML is a life-threatening infection of the brain that affects about 5 percent of untreated patients with AIDS. Its symptoms include mental deterioration, vision loss, speech disturbances, ataxia (inability to coordinate movements), paralysis, and coma. PML is caused by a polyomavirus called the JC virus. It is estimated that up to 80 percent of the human population has been exposed to the JC virus, but the disease is very rare. The virus only becomes active in people who have compromised immune systems, such as those undergoing immune suppressive chemotherapy for cancer and those with damaged immune systems due to HIV. Patients who have participated in the Multicenter AIDS Cohort Study may be eligible for this study, as well as healthy normal volunteers who will serve as controls. The study will review clinical information from patients and analyze genetic factors from both patients and control subjects to investigate genes associated with AIDS and JC virus infection.