View clinical trials related to Intellectual Disability.
Filter by:Children with intellectual and developmental disabilities (IDDs) often engage in problem behavior, and functional communication training (FCT) is a commonly used treatment for problem behavior in clinical settings. During FCT, children learn prosocial ways to request functional reinforcers (e.g., "their way") instead of using problem behavior. For example, a child who engages in self-injury to escape math instruction may be taught to exchange a break picture card to receive a brief break from the math task as an alternative to self-injury. While the efficacy of FCT is well established, less is known about its effects in school settings when procedures are necessarily adapted for feasibility. The purpose of this investigation is to develop and evaluate methods for implementing FCT for children with IDDs in school settings. The investigators will use single case experimental design, in which each participant will serve as their own control, to address the research questions. First, the investigators will evaluate the effects of providing higher quality, longer duration reinforcement for appropriate requests relative to problem behavior (e.g., 1-minute break with a preferred activity versus 20-s break alone) during FCT compared to providing equal reinforcement for appropriate requests and problem behavior. Next, the investigators will develop a treatment extension to teach children to complete academic work to gain access to their way. The investigators will use visual cues, such as a green and red index card to teach children when it is time to work and when they may access their way. The investigators will evaluate the effects of the treatment extension on academic work completion, appropriate requests, and problem behavior. Finally, the investigators will examine how visual cues influence children's behavior when educators implement intervention across different academic activities. The investigators will measure the extent to which educators implement programmed intervention procedures to inform treatment feasibility.
The investigators wish to compare the brain distribution of GABA(A) receptors and GABA levels in young adult males with Fragile X Syndrome compared to idiopathic intellectual developmental disorder. The radiopharmaceutical [18F]flumazenil has been used to study GABA(A) receptor distribution in other genetic syndromes with autistic features; however, despite overwhelming evidence supporting the importance of the GABAergic system in FXS, no clinical investigation of this system in human FXS has been reported in the literature. Therefore, this study will provide the first in vivo comprehensive examination of the GABAergic system in FXS using hybrid positron emission tomography/ magnetic resonance imaging (PET/MRI).
The main objective of this project is to enhance physical activity in youths and adults with intellectual disabilities (IDs) by developing and testing a tailored e-heath support for motivation and participation in physical activity.
International, multicenter, observational, longitudinal monitoring study to investigate the prevalence of Alpha-Mannosidosis in participants at risk for Alpha-Mannosidosis.
Holders children with intellectual disabilities have great difficulty in adapting to social situations and relationships.Cognitive impairment associated with intellectual disability are important factors to understand their difficulties in processing social information. In the field of recognition of facial emotions in particular, basic cognitive processes such as visuospatial and attentional functions, are heavily involved.Cognitive remediation is a management tool widely used by practitioners to help patients who experience cognitive difficulties. Currently, no program can meet specific and validated the problems are children with intellectual disabilities manner in their daily functioning.
This is a a study to identify inherited disease genes. The study will use molecular techniques to map genetic diseases using techniques such as Affymetrix SNP chips. The powerful combination of the information generated by the Human Genome Project and technical advances such as microarrays enables attempts to identify genes responsible for inherited disorders more possible than ever before. Starting with even modest pedigrees of only a few individuals, or even single individuals, it is possible to identify the gene(s) involved. It is proposed to collect up to 20 ml of peripheral blood and/or buccal cell samples from subjects and relevant family members. Currently the following disorders are approved for investigation. The current list of disorders: Aarskog-Scott syndrome, Café-au-Lait spots, Cerebral cavernous malformation, delXp, del2q, del10p, del11q, del12p, del13q, del14q, del16q, del17q, del18q, del Xp21, Choreoathetosis, Congenital Vertical Talus (CVT), Clubfoot, Tarsal coalition and other congenital limb deformities, Cystic Fibrosis (CF)-like disease, Desbuquois syndrome, Droopy Eyelid syndrome (Ptosis), Fanconi-Bickel syndrome (FBS), FENIB (familial encephalopathy with neuroserpin inclusion bodies), FG syndrome, Idiopathic generalised epilepsy (IGE), Renpenning syndrome, transient neonatal diabetes with 6q UPD, translocation (13;14), translocation (3;8), translocation (2;18), Uncharacterized familial dementia and X-linked mental retardation (XLMR).