View clinical trials related to Autism Spectrum Disorders.
Filter by:The main goal of our study is to find out why some people with Autism Spectrum Disorder (ASD) do not develop verbal abilities or remain minimally-verbal throughout adolescence and adulthood. Current research focuses on investigating brain differences related to processing sounds and initiating speech in adolescents and young adults with ASD varying in language skills, compared to adolescents who do not have ASD, in order to clarify whether atypical processes of auditory perception, perceptual organization and/or neural oscillation patterns may explain why some individuals with ASD fail to acquire functional speech.
The main objective of the study is to define, for Autism Spectrum Disorder, the extent of genetic variation in synaptic pathways that may be targeted for therapeutic development. For this purpose the investigators will take advantage of large, well-characterized cohorts of patients with Autism Spectrum Disorder for genetic screenings. Targeted sequencing of selected synaptic genes, previously associated with Autism Spectrum Disorder, will be carried out in these cohorts with deep coverage of coding regions and a strong focus on previously untested regulatory regions. Genomic data from Copy Number Variant, whole genome sequencing and exome sequencing, available for some of these patients, will be integrated in the overall analysis. The investigators will strongly emphasize the establishment of comprehensive genotype/phenotype correlations and set up an induced Pluripotent Stem Cells collection from selected patients with synaptic mutations for functional and expression analysis.
The objective of the ELENA French Cohort is to study the developmental trajectories of children and adolescents with ASD and their risk or protective associated factors. This is an open, prospective and multicenter cohort study, including children and adolescents under 16 years of age with ASD recruited from services specialized in the assessment of developmental disorders.
This project involves creating a novel and personalised BCI training system that targets social and communication difficulties, and inattentive symptoms problems often found in ASD/ADHD children. 20 participants between the age of 8 and 12 will be recruited and they will undergo 24 training sessions over an 8-week period. During these sessions, the children will play a computer game interface specifically designed to train attention and facial and emotional recognition, while using our BCI device. To further reinforce the treatment, the training system has been enhanced with the inclusion of an eye-tracker to target the lack of preferential eye contact that children with ASD exhibit. The investigators hypothesize that participants will show improvements in social skills and attention post treatment.
This study will examine the safety and efficacy of tideglusib vs. placebo for the treatment of core symptom domains in adolescents with Autism Spectrum Disorders
The primary purpose of the present study is to evaluate the diagnostic validity of eye tracking measurements acquired during viewing of socially-relevant stimuli in predicting ASD diagnosis. The secondary purpose was to explore the potential prognostic value of eye tracking measures through cross-sectional associations with non-verbal cognitive ability. Deficits in eye gaze are a hallmark sign of autism. A large and growing body of research supports the ability of eye-tracking based measurements to sensitively discriminate individuals with ASD and healthy participants. These investigations have identified that the core deficit in autism as disruption of social attention, reflecting an inability to appropriately engage and track socially- and emotionally-relevant aspects of the visual world. Thus, eye gaze tracking, acquired during viewing of socially-relevant stimuli, may be a useful approach to identifying objective markers of ASD. Eye tracking also carries the advantages of being less intrusive and expensive than MRI and genetic testing and specifically focuses on the core neurobehavioral characteristics of ASD - abnormalities in social attention. After diagnosis of ASD, key clinical tasks in young children involve determining an accurate prognosis and tracking the progress of early interventions. Currently, the only prognostic indicators are clinical observations (subjective and expensive) and non-verbal cognitive ability testing (difficult to acquire, time-consuming, unavailable in many settings). Recently, eye gaze tracking was found to predict functional outcomes. Thus, in addition to being an objective marker for ASD, eye tracking measurements have potential to be useful for predicting cognitive and functional outcomes. Similarly, the only available methods for tracking treatment progress are parental reports (highly subjective), clinical observations (subjective and expensive), and cognitive measurements (expensive and unavailable in many settings. This study will evaluate, using cross-section data, the potential for eye tracking data to serve as a proxy for non-verbal cognitive ability scores in determining prognosis for ASD-affected children. Additionally, this study will evaluate the test re-test reliability of eye tracking parameters that can potentially be used to track treatment progress.
This study is designed to test the safety and efficacy of a single, intravenous dose of suramin in autism spectrum disorders (ASD).
This is an open-label clinical trial to investigate a combination therapy for treating gastrointestinal problems in children with autism spectrum disorders. The combination therapy includes beneficial bacteria.
The purpose of the present study was to determine whether teaching Karate techniques training leads to reduction in communication deficit of children with autism spectrum disorders.
Autism spectrum disorder (ASD) is a group of severe, life-long developmental disorders. Oxytocin (OT) is a neurohormone involved in both repetitive/rigid and social behaviors. This study is focusing on how a single dose of intranasal OT (IN-OT) affects cognitive rigidity and social perception tasks. Taking OT as a spray through the nose increases social and decreases repetitive behavior in some adults with ASD, and we are exploring if it helps children with ASD similarly. However, it is unclear whether every person with ASD has an abnormal OT level, and if OT affects restrictive or social behavior differently. Consequently, we aim to study whether OT treatment can be effective in treating subgroups with specific features of ASD. We will use approaches utilizing both behavioral and physiological responses to clarify the role of OT in ASD. We will develop a deeper understanding of the range of social and rigid behaviors and use that information to identify persons with ASD who would benefit from OT treatment. Potential subjects will be asked if they want to participate in two sessions in our clinical laboratory where they will get either single dose IN-OT or placebo. After receiving the substance, they will be asked to do a handful of tasks while we monitor heart rate, eye movements, and collect baseline and post intranasal blood, urine and saliva. The levels of hormones, metabolites and peptides related to or interacting with OT will be measures in the collected samples of blood plasma, urine and saliva. Additionally DNA will be extracted from the blood samples to study genes related to OT and ASD.