View clinical trials related to Developmental Disabilities.
Filter by:To evaluate, in primary care, the sensitivity of Heterophory-Vertical-Labile (HV-Labile) in ambulatory screening for Specific Learning Disabilities (SLD) and Developmental Coordination Disorder (DCD). in children aged 8 to 12 years.
The purpose of this study is to examine the effectiveness of a 12-week early intervention program that will include 12 weekly hours in an intensive center-based preschool environment or in the home to treat social communication deficits in children with developmental disorders. The study will include children with developmental disorders, such as Autism Spectrum Disorder, neurogenetic disorders, or intellectual disability.
The objective of this study is to develop an automated, precise, quantitative assay for detecting atypical motor behavior and development in infants using data from wearable sensors and video recordings.
A significant group of children with functional constipation (FC) continues to have symptoms despite recommended standard therapy. Underlying psychiatric problems could explain therapy resistance. However, a work-up for psychiatric problems is only recommended after unsuccessful 6 months standard therapy. Earlier detection and check-up could lead to faster start-up of a more adequate therapy. Therefore, we investigate the prevalence of emotional, behavioural and social problems in the FC-population at the first contact with a paediatric gastroenterologist in a tertiary care hospital.
Two groups of subjects will be constitute: (i) patients with circumscribed brain injury (including stroke, vascular malformations, tumor or circumscribed infectious lesions) or degenerative/developmental disorders and selective cognitive disorders; (ii) healthy control subjects. The objective of this project is to evaluate specific neuropsychological deficits and apply current brain imaging techniques (anatomical, diffusion, functional, magnetic stimulation) to patients suffering from these cognitive deficits due to brain damage, in order to elucidate the brain mechanisms underlying these deficits.
This study is designed to evaluate a preventive intervention program designed to support families (parents and typically developing adolescent siblings) that include a child with an intellectual and/or developmental disability. Participant families will be randomly assigned to either the treatment condition, in which they will receive psychoeducation and communication coaching over a four-week period, or the control condition, in which they will receive self-study materials. All subjects will participate in a pre-test assessment and three post-test assessments over the course of the year.
The project highlights one of the primary areas of research within the KIDDRC— language and communication. The focus is on language and communication in children with autism and minimal verbal skills (less than 20 spoken words). Remaining nonverbal past the age of 5 years has been considered a poor prognostic indicator for future language developments, yet few interventions have been developed to address this problem. The Specific Aims for this project are (1) to further investigate a multimodal intervention for school-age children with minimal verbal skills—defined as less than 20 words spontaneously spoken, signed, or selected via graphic symbol selection—and (2) to identify significant covariates associated with differential responding to the intervention. The research addresses an unmet need to promote spoken word production in children who remain essentially nonverbal well past the ages associated with speech acquisition. The project is also innovative because: a) it investigates a multimodal intervention based on principles of phonotactic probability and neighborhood density in combination with augmentative and alternative communication (AAC), and b) it investigates novel predictors of treatment response that are obtained through cutting-edge technologies. This intervention will have better success than past interventions because the intervention will provide increased input through speech, digitized speech and visual images and additional speech sound practice for words that are comprised of high frequency sounds in the child's repertoire. Extant speech sounds in each participant's repertoire will be identified using LENA™ digitized recordings. Vocabulary words will then be selected based on a child's speech sound repertoire and principles of word learning—words with high probability speech sound sequences will be selected and taught with either multimodal intervention or a treatment as usual condition. Responses to these interventions will be evaluated using a Sequential Multiple Assignment Randomized Trials (SMART) design. Different outcomes may be associated with individual and environmental predictors identified in our previous research. Individual predictors include verbal comprehension, imitation skills, adaptive behavior, nonverbal speech sound repertoire, and communication complexity. Communication complexity will be measured with the Communication Complexity Scale (CCS), developed by the Principal Investigator. Environmental predictors include language input to the child as measured with LENA™ recording devices. Results will determine if the multimodal intervention is more successful than treatment as usual for teaching word productions.
Locomotor, transport and information functions in human body systems are carried out by active media in autowave regimes! Any living organism is a (micro-macro-mega) hierarchy of autowave subsystems-an ensemble of loosely coupled subsystems of a simpler structure. From the highest levels of the hierarchy, Autowave Codes-Signals arrive, which determine the transitions of subsystems from one autowave regime to another Autowave interaction (of Complex Coherent Action). Autowave interaction is a process associated with the evolution and interaction of spatial and wave structures in the active media of the organism. Chaos in organism functioning tells about health. Periodicity - Autowave reverberator may presage a disease - Autism Spectrum Disorder; Chaotic nature of oscillations in active media of physiological systems is more optimal for their vital functions than periodic one. Firstly, systems that function in chaotic regimes, can re-arrange themselves faster and easier in case of change of environmental conditions, i.e. the so called adaptive control is more easily implemented in them. Secondly, "spreading" of oscillations strength along comparatively wide frequency band takes place in chaotic regime. When an organism is young and healthy, physiological systems show the elements of chaotic behavior, i.e. irregularity and chaotic dynamics are the extremely important characteristics of health. Decrease in changeability and appearance of stable periodicity of Autowave reverberator are often connected with Autism. The main purpose is to study brain plasticity (the changes that occur in the brain through Autowave reverberator) in children with autism. Research suggests that during development, the brains of children may change in response to their Autowave reverberator differently than the brains of typically developing individuals. Investigators want to understand why and how this difference may contribute to the symptoms of autism spectrum disorder (ASD). In this study, the investigators will be examining the effects of non-invasive neuromodulation SQUED™ series 28.1 home-use for Treatment of Autowave reverberator of Autism. Integrative Team World Organization of Medical Synergetics (WOMS) - collaborations between physicians and researchers with expertise in biostatistics, physics, mathematics, engineering, and computer science.
A Longitudinal Study of Function and Participation in Life Activities of Patients with Developmental Disabilities
Children with developmental disabilities and children's rehabilitation common case investigation: Long-term follow-up study.