View clinical trials related to Syndrome.
Filter by:An observational, retrospective, multicenter, blinded adjudication study to evaluate the clinical appropriateness of Percutaneous Coronary Intervention (PCI) indication and execution in patients with stable Coronary Artery Disease (CAD) and in patients with acute coronary syndrome without ST-segment elevation (NSTE-ACS) (ratio 4:1). Half of the included patients will be diabetic. Also the implementation of selected, key guideline recommendations will be examined. At least 400 patients will be retrospectively selected among 22 Catheterization Laboratories in Italy in the region of Lombardia and Veneto. This study will be conducted in compliance with Good Clinical Practices (GCP) including the Declaration of Helsinki and all applicable regulatory requirements.
This is a follow-up cohort study of 8 years old children born preterm at Seoul National University Children's Hospital in Korea from 2008-2009. The children will visit outpatient clinics for examinations regarding growth, obesity and other risk factors related to metabolic syndrome. The purpose of this study is to compare growth and risk factors of metabolic syndrome among children born preterm and children born healthy term at school age
This phase II clinical trial studies how well personalized natural killer (NK) cell therapy works after chemotherapy and umbilical cord blood transplant in treating patients with myelodysplastic syndrome, leukemia, lymphoma or multiple myeloma. This clinical trial will test cord blood (CB) selection for human leukocyte antigen (HLA)-C1/x recipients based on HLA-killer-cell immunoglobulin-like receptor (KIR) typing, and adoptive therapy with CB-derived NK cells for HLA-C2/C2 patients. Natural killer cells may kill tumor cells that remain in the body after chemotherapy treatment and lessen the risk of graft versus host disease after cord blood transplant.
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.
Williams syndrome is a rare genetic disorder occurring in 1:8000-12,000 individuals. It is caused by the deletion of 25-27 coding genes, including elastin (ELN) on the 7th human chromosome. Haploinsufficiency for these genes leads to the features of the condition, including: - Distinctive facial features; - Characteristic vascular problems including hypertension, focal vascular stenosis, (when present in the aorta this is referred to as SVAS), vascular stiffness and differences in heart rate variability; - Endocrine abnormalities including hypercalcemia, hypothyroidism, and early puberty; - Metabolic concerns with colic and failure to gain weight in infancy and obesity and early glucose intolerance in adulthood; - Characteristic neurocognitive profile comprised of cognitive impairment, high sociality with concurrent social awkwardness, difficulty with visual-spatial tasks, relative strengths in speech, and lack of social fear; - Anxiety and chronic pain in adulthood Most individuals with WS carry the same basic deletion on Chromosome 7q11.23. However, each feature may present as mild or more severe in any given individual. Variation in the presence and severity of these vascular phenotypes remains unexplained. The supravalvar aortic stenosis (SVAS) phenotype is caused by haploinsufficiency for elastin. This can come about due to the WS deletion (as above) or due to heterozygous variation in elastin (ELN) gene itself in this region. When this protein is reduced, connective tissues lose its strength, flexibility, and overall support. When this happens in the aorta, it may cause vascular narrowing that presents as shortness of breath, chest pain, and even heart failure if left untreated. Narrowing also occurs in other vessels especially the pulmonary and renal arteries. Changes in non-vascular elastic tissues such as the skin and lungs also occur. As in WBS, phenotypic variation also occurs in people with ELN gene changes--This variability remains unexplained despite all the on-going research. Most individuals with features of SVAS have either WS or an elastin variant. There are, however, a smaller number of individuals with the phenotypic features of the condition whose genetic underpinnings are yet to be defined (they are referred to as SVAS-like). Additionally, there are 26 other coding genes within the WS critical region that contribute to various other features of the condition Objective: 1. To collect historical information and to bank DNA, cells, and tissue from individuals with genetic alterations in the WS/ELN gene region, those with an SVAS -like phenotype and unaffected family members/controls to facilitate future research into the many phenotypes seen in these individuals. 2. Currently, we plan to use the collected samples to identify genetic and environmental factors that contribute to the variability in different phenotypes (vascular and non-vascular) in individuals with WS, SVAS and SVAS-like conditions, individuals with variation in WS genes other than elastin and unaffected family members and controls. For the non-vascular features of WS and SVAS-like conditions for which a specific gene has not been implicated in the disease, we would also like to identify causative genes as well as modifiers. Likewise, by evaluating people with variation in other WS region genes, we can determine what contribution those genes make to the studied phenotypes. Controls will be both used to assess the frequency of genetic features in people without the phenotype in question and to evaluate heritability, penetrance, and expressivity of relevant variants. Eligibility: People ages 0-85 with either WS, SVAS, and/or an SVAS-like condition, unaffected family members or adult unrelated controls. Design: This study is not a treatment protocol. This study will consist of: Collection of personal history (questionnaires) and medical record data (relevant physician notes, lab and diagnostic tests and studies) to study the natural history of these conditions, allow stratification of disease severity, and identification of environmental risk factors; Collection of blood, saliva, urine and surgical tissue waste to allow DNA and RNA preparation as well as study of tissues both in situ and through the generation of IPSCs; Expression studies on available tissues (lymphocytes, IPSCs, vascular, skin, other collected tissues) to look for differential regulation of target genes; Direct imaging of tissues (lymphocytes, IPSCs, vascular, skin, other collected tissues); Storage of collected data and specimens for future research; A questionnaire may be sent to participants or parent/guardian or LAR to respond on behalf of participant.
This trial aims to develop evidence based curative treatment with optimal net benefit for patients with Brugada syndrome.
Along with the improvement of childhood acute leukemia treatment, survival rates have increased. Therefore, the number of long term childhood leukemia survivors has increased progressively over the last decades. So, the assessment of long term health status in this population becomes very important. Many studies have shown an increased risk of life threatening late complications and early mortality. Cardiovascular morbidity and mortality are particularly frequent. Among these late complications, the metabolic syndrome (MS) is an important concern since it is associated with cardiovascular morbidity and mortality. The overall MS prevalence in the French prospective cohort of survivors of childhood acute leukemia was 9.2% and 18.6% in cases of total body irradiation (TBI) during the leukemia treatment. Since the median age at MS evaluation was 21 years, this prevalence was very high. Anyway, the MS pathophysiology in this population is still poorly understood. One of the most recent hypothesis about the MS mechanism is based on the adipose tissue inability to store fatty acids: when adipose tissue cannot expanse further to store excess nutriments then lipids accumulate in other tissues. This ectopic lipids accumulation can cause insulin resistance and MS. The investigators hypothesized that the adipose tissue could be damaged by treatments received during childhood acute leukemia treatment (particularly TBI). This leads to morphological and functional abnormalities that could promote the insulin resistance and MS. This ectopic adipose tissue contains less preadipocytes, which could impair its functional properties. The primary endpoint of this study is to compare the morphological and functional characteristics of adipose tissue in patients with a MS who received or not TBI during childhood leukemia treatment . This comparison will focus on: - The adipose tissue repartition and evaluation of the ectopic adipose tissue - Fibrosis and inflammation of the adipose tissue - Preadipocytes quantification The secondary endpoint is to describe: - for the whole cohort of included patients, - the clinical and biological characteristics associated with the MS. - Cardiovascular risk factors and nutritional statement - Anthropometric measurements - Detection of other endocrinal abnormalities possibly associated with the MS - Analysis of inflammation blood markers and adipokines quantification.
The aim of this study is to evaluate the safety and tolerability of triheptanoin in participants with Rett syndrome using laboratory values, electrocardiogram, rate of adverse events (AE), and physical exam.This study also seeks to evaluate the efficacy of UX007 (triheptanoin) in improving overall seizure frequency and dystonia.
Intestinal metaplasia is generally considered a precancerous lesion. Although it is associated with a very small increase of gastric cancer risk, European Endoscopic Society and other European academic companies highlighted the increased risk of cancer in patients with gastric atrophy and IM and the need for staging in cases with high-grade dysplasia. The production of ROS in the gastrointestinal tract (GI) and their role in the pathophysiology and pathogenesis of gastrointestinal diseases have not been studied sufficiently. In the plasma of patients, in the context of the sequence gastro oesophageal reflux-oesophagitis-metaplasia-dysplasia-adenocarcinoma, have been found simultaneous formation of DNA adducts and increased myeloperoxidase concentration, which are associated with oxidative stress, decreased antioxidant capacity (decreased glutathione concentration).These findings support the role of oxidative stress in the pathogenesis and malignant transformation. Metabolic Syndrome (MS) has been recognized as a pro-inflammatory, pro-coagulant state associated with increased levels of C reactive protein (CRP), interleukin (IL) 6 and plasminogen activator inhibitor (PAI) 1. It has been reported that the inflammatory and the pro thrombotic markers, which are associated with increased risk for cardiovascular disease and DM2, represent only a part of the relationship between IM and cardiovascular mortality. Several factors influence the pathogenesis of MS, as the pro-oxidant condition of such patients may increase the risk for developing symptoms and related chronic diseases such as DM2. Although the exact contribution of oxidative stress on every pathologic condition included in MS is difficult to determine definitively, it is certain that oxidative stress is particularly high in the MS. Regarding the relationship between MS and GI diseases, studies have reported that patients with MS are almost twice at risk for developing Barrett's esophagus.The relationship between MS, gastro-esophageal reflux disease (GERD), and the development of IM also requires well designed prospective studies. It seems however, to be a correlation between obesity and GERD, as well as between obesity and gastric adenocarcinoma
Association between serum anti-Mullerian hormone (AMH) level and prevalence of glucose intolerance and metabolic syndrome in women with polycystic ovary syndrome (PCOS)