View clinical trials related to Genetic Diseases, Inborn.
Filter by:In this study, we will conduct retrospective chart and imaging reviews and prospective longitudinal virtual assessments of individuals with LBSL.
The study aims to identify novel monogenic phenotypes from specific pedigrees and discover the underlying causal genetic variant using genetic sequencing (Sanger and/or Next Generation Sequencing - Panel/WES/WGS) methodologies in families across the United Arab Emirates (UAE).
The investigators propose to analyze a brain sample and/or peripheral blood by single cell RNA seq from aborted embryos with ASNS mutation.
The goal of this collaborative research is to study human genomes in children with suspected congenital disease, multiple-congenital anomalies and/or multi-organ disease of unknown etiology by understanding the potential value of Whole Genome Sequencing (WGS) in establishing genetic diagnosis. The study will examine diagnosis rates, changes in clinical care as a result of a genetic diagnosis, health economics including potential cost-effectiveness of WGS and patient and provider experience with genomic medicine.
To assess the indications and diagnostic efficiency of whole genome sequencing (WGS) in pediatric patients with unexplained intellectual disability/developmental delay, multiple congenital abnormalities and other rare and undiagnosed diseases
This study evaluates the efficacy of rifampin in the treatment of hypercalcemia and/or hypercalciuria in participants with at least one inactivating mutation of the CYP24A1 gene. Eligible subjects will receive rifampin for a total of 16 weeks during this study.
The purpose of the study are: 1. To make quality, characterized samples and related data available for future studies, including Genome Wide Association Studies (GWAS), genomics, and biomarker research; 2. To use these samples and related medical information to answer research questions aimed at understanding the genetics and underlying biology of acquired disease and injury to the brain, heart and blood vessels with the express purpose of advancing the search for effective modalities for prevention, treatment, and recovery; 3. To develop additional operational infrastructure to support this project across the Prince of Wales Hospital and divisions, including (1) tracking of patient consent, (2) management of collection and sample processing processes, (3) sample inventory and QC/QA processes, and (4) release of materials to investigators for further research.
For some neurological and neurodegenerative diseases genetic inheritance is well documented (described as Mendelian or multifactorial), but sometimes specific mutations or family segregation evidences have not been identified. Considering this scenario, most of the times it is impossible or unlikely to identify the responsible gene, or the private mutation, of a patient affected by a neurodegenerative disease. New technologies such as Next Generation Sequencing (NGS), allow the analysis of hundreds of genes in a single experiment. The implementation of these technologies will help to identify new genes and new variants associated with neurological diseases. Using this approach, several molecular genetic diagnosis will definitely find the needle in a haystack, and will be able to be used in the clinical practice.
Rady Children's Institute for Genomic Medicine (RCI) will collect biological samples (such as blood), derived genomic sequences (from DNA and RNA), and clinical features in a Biorepository as a standardized resource for future research studies. The purpose of the Genomic Institute Biorepository is to provide consented samples and data for basic and clinical research related to the genomic cause and treatment of childhood disease, and, in the future, as reference (Quality Control) data to improve the ability to make clinical diagnoses or clinical decisions. In addition, the Biorepository will provide a mechanism for making a diagnosis of a genetic disease. That is, once genomic sequences have been derived from biological samples, they will be immediately analyzed. If a genetic disease is identified that appears to explain an affected child's clinical features, then those results will be confirmed by the medically accepted standard, and placed in the electronic health record.
Background: Some patients with unusual genetic conditions are referred to the National Institutes of Health (NIH). They may not be eligible to join current research studies. Testing such patients is a good way to improve the skills of research staff. The findings could lead to new processes and research. Objectives: To recruit a diverse group of pediatric subjects with genetic disorders. To give clinic staff hands-on experience working with these patients. Eligibility: Children any age with a known or suspected genetic disorder. Design: Participants will be screened with medical history and physical exam. They may have lab and other tests. Family members may give DNA samples. Participants will have: Medical history Physical exam Height, weight, and other measurements taken. A clinical evaluation of their disorder. They may have: Blood, urine, and saliva samples taken Imaging tests. These may include x-rays, scans, ultrasound, or skeletal survey. A sleep study A visit with other specialists at NIH A genetic test from a commercial lab Medical photographs taken Other tests Participants may have follow-up visits. They may get medical or surgical treatment.