View clinical trials related to Genetic Disease.
Filter by:Patients with neurodevelopmental diseases and their families need to identify the genetic cause of the disease to allow for recognition of the disability, genetic counseling, and possible hope for participation in therapeutic research studies. Access to high-throughput genomic exome or genome analysis allows the identification of a genetic cause for approximately half of the patients. However, families with no result or with a variant of unknown significance after these tests may find themselves in a new diagnostic impasse. The high-throughput sequencing used today generates sequences of the order of 100 base pairs (so-called "short read" sequencing). This allows an analysis of about 90% of the genome. However, many regions are not accessible in regions of interest for the genetic diagnosis of rare diseases. Long fragment sequencing generates sequences that are about 20 times larger and its use has recently made it possible to sequence the human genome almost completely (https://www.science.org/doi/10.1126/science.abj6987). The main contribution lies in the analysis of complex regions of the genome such as segmental duplications or centromeric regions. It is likely that this technology increases the sensitivity of detection of genetic variants in patients with genetic diseases. Its contribution should be studied in patients for whom no genetic cause has been identified by classical techniques. This study aim to investigate the contribution of long fragment genome sequencing.
In 1% of men with infertility, obstructive azoospermia (OA) may occur in congenital absence of the vas (CAVD) or idiopathic obstructive azoospermia . Many studies have shown that the pathogenic genes of OA are CFTR and ADGRG2 genes, and the inheritance mode is autosomal recessive. Although the conventional assisted reproductive technology(PESA/TESA) can help these patients have children, male patients who carry mutations of the disease-causing genes (CFTR and ADGRG2) will also pass on their mutations to the next generation, which will increase the risk of male offspring infertility. Therefore, genetic detection of CFTR and ADGRG2 genes is very necessary for CAVD patients before assisted reproduction. Genetic diagnosis plays a key role in preventing the disease to the offspring.
Preimplantation genetic testing (PGT) has three different testings according to the type of genetic disease, which was classified as PGT-M, PGT-SR and PGT-A. If the couple is tested for two different genetic diseases at the same time, it is necessary to customize the probe and adopt different detection methods, which increases the cost and cycle of testing. Advanced expert pre-experimental analysis is required for PGT-M in couples with monogenic disease. If the family members are unavailable, only the polar bodies, sperms or affected embryos can be used to analysis, which not only increases the risk of failure, but also increases the difficulty of detection. At present, BGI has developed a new single-tube complete Long fragment whole genome sequencing (stLFR-WGS) technology, which uses the same molecular tag on the short read sequencing fragments from the same long DNA molecule to achieve accurate short read sequencing to obtain long DNA information. Multiple genetic abnormalities such as gene variation, chromosome aneuploidy and chromosome structure rearrangement can be directly detected in embryos without pre-experiment of family members, so as to achieve universal normalization of the three PGT methods and solve the PGT detection needs of patients with multiple genetic diseases.
The purpose of this research study is to learn more about the inherited risk for developing lung cancer.
The purpose of this study is to establish a registry of individuals with confirmed or suspected Chopra-Amiel-Gordon Syndrome (CAGS) to learn more about the range of symptoms, changes in the structure of the brain seen on imaging, and learning difficulties that individuals with this disorder may experience. The investigators will obtain medical history, family history, MRI records, patient photographs, and genetic test results from individuals with confirmed or suspected CAGS. A subset of participants will also undergo a standardized neurobehavioral assessment. This data will be maintained on a secure research database. Sample collection will be offered to participants for the functional testing and the generation of iPSC cell lines, for neuronal reprogramming and phenotyping.
Next generation sequencing (NGS) allows some better diagnostic results, particularly, in the rare diseases field. At a twenty five percent rate, those exams highlight some variants which are not yet described in human pathology. The relationship between a variant found inside a candidate gene and a pathology, is able to be confirmed by functional studies at a protein level. This study aims to build a biological collection to feed further functional studies to confirm the relationship between NGS identified variants, and the clinical signs and symptoms.
Develop and evaluate the acceptability, feasibility, and preliminary efficacy of an informational video on paired tumor/normal testing for children and adolescents with a new diagnosis of cancer, tumors or other diagnosis.
In most pectus excavatum (PE) patients an underlying genetic defect is not found with molecular analysis, as a direct genetic link with PE has yet to be found and because potential underlying genetic disorders are quite rare. Only one-fifth of all PE cases are identified in the first decade of life and thus of congenital origin making younger PE patients a unique patient group. Therefore, the research question is; is early-onset pectus excavatum (PE) more likely to be part of a genetic defect than PE which became apparent during puberty or adolescence?
The Rett Syndrome Registry is a longitudinal observational study of individuals with MECP2 mutations and a diagnosis of Rett syndrome. Designed together with the IRSF Rett Syndrome Center of Excellence Network medical directors, this study collects data on the signs and symptoms of Rett syndrome as reported by the Rett syndrome experts and by the caregivers of individuals with Rett syndrome. This study will be used to develop consensus based guidelines for the care of your loved ones with Rett syndrome and to facilitate the development of better clinical trials and other aspects of the drug development path for Rett syndrome.
This is a Prospective Observational study. The aim of the study is to understand the underlying photoreceptor, retinal pigment epithelium or retinal vascular aberrations in inherited and acquired retinal disorders. The study would use adaptive optics (AO) technology to assist in-vivo visualization of these retinal structures and ascertain changes from normal. Further, by using the AO imaging in patients before and after treatments, this study aims to better understand the effect of various interventions and develop AO as an outcome measure in various retinal disorders.