View clinical trials related to Genetic Predisposition.
Filter by:The MiDiSeq project will enroll 20 unresolved index patients with suspected mitochondrial disease prioritized for genomic analysis.
In the present study the investigators will search for new genetic variants relevant for the development of neuropathic pain.
Implant-based reconstruction is currently the most common choice for mastectomy reconstruction. Whatever the choice of mastectomy incision, a scar remains on or near the breast volume. Current techniques involve partial or total coverage of the implant with the pectoralis major muscle, to prevent exposure or infection. The muscle dissection technique applied has functional and cosmetic consequences. In this study, an endoscopic approach will be evaluated. This new surgical technique, using a single-port endoscopic way, will put the scar is in the axillary area, away from the breast. The hypothesis is that this delocalized scar potentially reduces the risk of exposure and allows placement of the implant in the subcutaneous space, with no manipulation of the pectoralis major muscle.
This is a prospective genetically-stratified randomized double-blind event-driven multicentre clinical trial to assess the efficacy of posaconazole-based antifungal prophylaxis allocation strategies for patients with acute myeloid leukemia who receive induction chemotherapy. Allocation strategy based on an invasive mold infection genetic risk will be double-blinded.
Background: Some genetic diseases put increase the risk of heart and blood diseases, which are the number one cause of death and disability in the U.S. Researchers want to study diseases of the heart and/or blood vessels. They want to collect data and specimens from affected people, their family members, and healthy people. Objective: To study diseases of the heart and/or blood vessels. Eligibility: People age 2 and older who may have genetic disease affecting the heart and/or blood vessels Their relatives Healthy volunteers Design: Participants will be screened with a medical history, physical exams, and imaging tests. Participants may have a few visits or visits for 2 weeks or more. This will depend on their age and disease status. Visits may include: Photographs of the face and body Heart tests Samples taken of blood, urine, saliva, skin, and/or tissue Scans. For some, a dye may be injected into a vein. A six-minute walk test Lung tests. For some, participants will blow into a tube. For others, they will breathe in a gas from a mask, have a small injection, then have a scan. Stress tests while walking on a treadmill or riding a stationary bike Ultrasound of veins and arteries Devices outside the body testing the stiffness and function of arteries Eye exam and eye tests. For some, a dye may be injected in a vein. Blood pressure tests Measurements of blood flow under the skin and in the arms and fingernail blood vessels Devices outside the body testing flexibility of the blood vessels and skin, and skin temperature
The DiRiP study will enroll patients (n = 3500) with unclear rare diseases and suspected genetic reasons. In group 1 (n = 500) subjects are clinically characterized in the context of outpatient/ inpatient standard care at the UKT or cooperating location, NGS analyzes and other omics analyzes (transcriptomics, proteomics, metabolomics), functional cell biology studies will be performed. In group 2 diagnostics is already performed. The DiRiP-study fully integrates with the newly formed European Reference Networks (ERNs) for rare diseases, and in particular the ERN-RND, -EURO-NMD, -ITHACA, and -GENTURIS.
Every year, approximately 9,000 Parkinson disease (PD) patients undergo deep brain stimulator (DBS) placement into the subthalamic nucleus (STN-DBS). Studies suggest that PD patients with mutations in the glucocerebrosidase (GBA) gene are at high risk for cognitive impairment and approximately 10-17% of subjects undergoing DBS carry GBA mutations. There may be an interaction between STN-DBS, which also impairs cognitive function, and GBA, resulting in worsened cognitive function. This project will 1) determine the relationship between GBA mutation status and post-operative STN-DBS cognitive function, 2) broaden genotype-phenotype relationships of GBA mutation carriers and 3) provide scientific knowledge regarding the longitudinal cognitive effects of DBS in GBA mutation carriers through repeated neuropsychological testing.
The aim of the COVAR project is to classify reliably a maximum of VUS of the French database in order to use them for the genetic counseling. The results obtained through this study will have a major impact on clinical management of the patients and their families conducting in some cases to propose a prophylactic surgery.