View clinical trials related to Intellectual Disability.
Filter by:The purpose of this study is to analyze patterns in individuals with hnRNP (and other) genetic variants, including their neurological comorbidities, other medical problems and any treatment. The investigators will maintain an ongoing database of medical data that is otherwise being collected for routine medical care. The investigators will also collect data prospectively in the form of questionnaires, neuropsychological assessments, motor assessments, and electroencephalography to examine the landscape of deleterious variants in these genes.
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
The Myelin Disorders Biorepository Project (MDBP) seeks to collect and analyze clinical data and biological samples from leukodystrophy patients worldwide to support ongoing and future research projects. The MDBP is one of the world's largest leukodystrophy biorepositories, having enrolled nearly 2,000 affected individuals since it was launched over a decade ago. Researchers working in the biorepository hope to use these materials to uncover new genetic etiologies for various leukodystrophies, develop biomarkers for use in future clinical trials, and better understand the natural history of these disorders. The knowledge gained from these efforts may help improve the diagnostic tools and treatment options available to patients in the future.
Background: Games using motion capture from webcam have become increasingly popular. A population that lacks much stimulus in the teaching-learning process has under-explored the benefits of this kind of games: The Intellectually Disabled. The aim of this study is to analyse the effectiveness of games with virtual reality in the total reaction time. Method: A convenience sample of 165 Intellectually Disabled participants will have their performance measured using a virtual reality game. The intervention is to play two different games twice, in two sessions with an interval of, at least, seven days between the sessions. Participants will be randomized between two raters, both master students.
X-linked Mental retardation (XLMR) represent 10% of the causes of mental retardation with a prevalence in both sexes around 1/296, i.e. 3.3 / 1000 births (Opitz et al., 1986). This heterogeneous group of XLMR includes dozens of rare diseases, some of them affecting only a few patients. Molecular diagnosis is currently available in France for 25 XLMR genes, within the national network of XLMR molecular diagnosis. However, whereas some syndromes such as Fragile X syndrome, are now well clinically defined, this is not the case for recently identified syndromes for which very few data is available, preventing clinicians to focus molecular diagnosis on a specific gene. Therefore, this study aims to : - Achieve a description of the clinical phenotype specific to each XLMR gene (Phase 1 of the study, n=200) - Characterize the cognitive learning mechanisms and dysfunctional neural networks involved (Phase 2 of the study, n=75, i.e. 5 groups of 15 patients with a mutation in the same gene). These two elements constitute key steps to develop appropriate rehabilitation strategies and targeted pharmacological therapies. Moreover, the impact of mental retardation on the primary caregiver within the family and the induced burden in terms of psycho-social, organizational and economic burden will also be assessed. These elements, directly related to the patient's environment, are very important to characterize in order to better understand the consequences of each gene mutation (Phase 3 of the study, n=283). For example, it is necessary to better understand the impact of Fragile X syndrome in terms of capacity and behavior, lifestyle, and health care needs of the patients While advancing knowledge allows to consider innovative therapeutics, the implementation of these therapeutics and assessment of their impact on the patients' life trajectory, require precise characterization of the population to be treated in medico socioeconomic terms.
The purpose of this study is to characterize the developmental phenotype of ASD and ID and to identify biomarkers using advanced MRI methodology and electrophysiological biomarkers of synaptic function and connectivity predictive of ASD and ID presence and severity in patients with TSC. In addition, this study will be establishing infrastructure for the collection and storage of human bio-specimens, including genetic material, from TSC patients and their family members with ASD.
The purpose of this study is to comprehensively characterize PMS using standardized medical, cognitive, and behavioral measures and to track the natural history of the syndrome using repeated longitudinal assessments. In addition, this study will be aiming to identify biomarkers using neuroimaging, including diffusion tensor imaging and identify genetic factors which contribute to diverse phenotypes in patients with PMS.
Mental retardation is a condition diagnosed before age 18 that includes below-average general intellectual function, and a lack of the skills necessary for daily living. Mental retardation affects about 1 - 3% of the population. There are many causes of mental retardation, but find a specific reason in only 25% of cases.Bone marrow derived stem cells are used in this condition to prove its safety and efficacy .
Intellectual disability (ID) occurs in 2 to 3 % of the general population but the cause is identified only in 30 to 60% of cases. The purpose of this study is to indentify genes involved in ID with new genetics tools (SNP-arrays, next generation sequencing...) and establish genotype-phenotype correlations.
CoRDS, or the Coordination of Rare Diseases at Sanford, is based at Sanford Research in Sioux Falls, South Dakota. It provides researchers with a centralized, international patient registry for all rare diseases. This program allows patients and researchers to connect as easily as possible to help advance treatments and cures for rare diseases. The CoRDS team works with patient advocacy groups, individuals and researchers to help in the advancement of research in over 7,000 rare diseases. The registry is free for patients to enroll and researchers to access. Visit sanfordresearch.org/CoRDS to enroll.