View clinical trials related to Genetic Diseases, Inborn.
Filter by:The DEVO-DECODE project aims to align our currently limited knowledge currently limited knowledge of the genetic architecture of developmental with our more advanced knowledge of their "phenome". To this end, we aim to establish a homogeneous cohort of patients with with developmental disorders to identify new genetic variants genetic variants, and thus study the association between developmental and genetic variants. Secondary objectives are:2 - Carry out WGS studies not only to refine exosomal sequencing data exome sequencing data, but above all to identify and validate non-coding non-coding DNA alterations, in both transcribed and non-transcribed transcribed or non-transcribed genomic domains - Develop precise preclinical models for functional studies of pathophysiological pathways
There are around 8,000 rare diseases and new ones are described every month in the scientific literature. They affect a limited number of patients. Nearly 80% of these diseases have a genetic origin and 30 to 40% of them are associated with dysmorphia. The latter can be suspected by evaluating the morphological characteristics of the patient. This medical skill, called dysmorphology, which allows a diagnosis to be made by evaluating the morphological characteristics of a patient, is based on experience. Diagnosis is often easy for relatively common diseases, but more difficult for rarer pathologies affecting few patients and often described in a single ethnicity and age of life. The study aims to create a dataset specific to the application of methods from artificial intelligence. Extending the methodologies described to profile and extremity photographs will allow better recognition and description of dysmorphia. This will allow to make diagnostic suggestions by comparison with the database. The Data Science team has already explored the notion of phenotypic similarity of patients. Jean Feydy is a mathematician expert in image analysis and will ensure the scientific robustness of the study methods. This project will conclude with the establishment of a diagnostic aid tool, integrating research results for doctors with a particular interest in developmental anomalies and intellectual disability.
This monocentric retrospective observational study aims to evaluate the efficacy of pre-implantation genetic testing for monogenic diseases (PGT-M). The effectiveness will be assessed in terms of live birth rate (LBR), cumulative live birth rate (CLBR) per couple, and abortion rate (AR). Considering how many cycles the participants have undergone to achieve a viable blastocyst. The secondary objective is to evaluate the incidence of aneuploidy in unaffected embryos, in order to understand the need for pre-implantation genetic testing for aneuploidy (PGT-A)in addition to PGT-M.
This is a Phase 1 2-part, single-center, open-label study in healthy male volunteers. Part A will assess the absorption, metabolism, excretion, and pharmacokinetics of one oral dose of radiolabeled EDG-5506. Part B will assess bioavailability of EDG-5506 with a single oral dose of EDG-5506 and a single intravenous dose of radiolabeled EDG-5506.
It is estimated that 1 in 4 pregnancies end in loss, be these early miscarriages, ectopic pregnancies, or later intrauterine losses for any reason. Genomics is a major part of pregnancy loss, and clinicians want to offer the best and most appropriate test available to women and their families, whilst ensuring that there is equity in the access to this testing, so that no family goes through a loss without the right support and information. Whilst there is limited information to inform professionals as to how to incorporate genomics into bereavement care there is a need to identify current expert consensus as to how this should be performed, in order to make recommendations for best practice.
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.
The study aims to evaluate cell-based non-invasive prenatal testing (cbNIPT) as an alternative to invasive chorionic villus sampling (CVS) in patients who achieve pregnancy following preimplantation genetic testing for hereditary disorders.
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?
Cerebral palsy (CP) is a permanent disorder of movement or posture due to non-progressive impairments of the developing brain. Current estimates indicate that as many as 30% of CP cases may be genetic in nature. In our study, the investigators will re-examine the data of children with CP, who are registered in the Slovenian National Registry of Cerebral Palsy. All children will be invited to the University Children's Hospital, University Medical Centre Ljubljana, where they will be re-examined by a neurologist. Blood for genetic testing will be taken. In the case of confirmed genetic ethiology of CP, the search for specific therapy will be possible.
The purpose of the study is to evaluate the safety and efficacy of a single intravitreal injection of virally-carried Multi-Characteristic Opsin (MCO-010).