View clinical trials related to Autistic Disorder.
Filter by:The current clinical trial is focused on evaluating the efficacy of rTMS for treatment of depression in youth and young adults (hereafter called transition aged youth, TAY) with autism spectrum disorder (ASD). The motivation to undertake the current efficacy study is driven by: (1) the substantial impact of depression on TAY with ASD (based on prevalence and contribution to disability/impairment); (2) lack of evidence-based treatments for depression in autism (there are no current trials rigorously evaluating any treatment for depression, i.e., psychotherapeutic, pharmacotherapeutic, brain stimulation); (3) rTMS has demonstrated efficacy in non-autistic individuals to improve symptoms of depression and may be better tolerated in youth than medication treatment; (4) a prior pilot rTMS study focused on treatment of executive function deficits in autism indicated that high frequency rTMS delivered using a rigorous randomized control trial (RCT) protocol can be feasibly implemented in TAY with autism, is well tolerated (mild to moderate adverse effects and low drop out), and has the potential to improve symptoms of depression.
The purpose of this study is to increase knowledge and insights with regard to physical activity behavior in adolescents with Autism Spectrum Disorder.
This is a randomized interventional study designed to evaluate the effects of repetitive Transcranial Magnetic Stimulation (rTMS) on neural and behavioral facets of social cognition in adults with autism spectrum disorder (ASD).
Autism Spectrum Disorders (ASD) are a heterogeneous group of severe developmental abnormalities of the nervous system characterized by deficits in social interaction and verbal and nonverbal communication affecting approximately 1% of the general population. In 5-40% of cases, genetic factors are identified as the cause of these disorders. Despite this unique definition and the advancement of techniques, ASD is still a clinically and genetically heterogeneous condition, as several hundred genes have been identified to date. Primary Objective and Endpoint Primary Objective: Exploration of phenotypic heterogeneity in patients with ASD. Primary endpoint: - Routine Care Clinical Investigation Criteria. - Scores on assessment scales,
This study aims to compare two FDA approved medications (aripiprazole and risperidone) for the treatment of behavioral dysregulation in children with autism spectrum disorders. This trial, done in the context of routine clinical care, will seek to evaluate whether aripiprazole or risperidone is associated with more weight gain in children.
The aim of this clinical trial is to compare the efficacy of a 16-week center-based Pivotal Response Treatment (PRT-C) versus home-based Pivotal Response Treatment (PRT-H) in targeting social communication deficits in young children with autism spectrum disorder (ASD) with significant language delay. The two groups will also be compared to a control group that consists of children who are receiving treatment as usual (TAU).
Autism (ASD) is one of the frequent neurodevelopmental disorders that children would occur. Many studies have shown that individuals with Autism are more common to experience significant gastrointestinal problems than other individuals. Symptoms include constipation, diarrhea, abdominal pain and gastric reflux. A recent study with 50 children with ASD, 50 children with other developmental disabilities and 50 healthy control children, it found that 70% of ASD children had presented with GI symptoms, compared with 42% of developmental disabilities children and 28% of developing children, it is believed that ASD children will have a distinctive microbial pattern in the stool. Attention-deficit/hyperactivity disorder (ADHD) is another neurodevelopmental and neurobehavioral disorder. A study found that ADHD individuals experience significantly higher rate of stomach pain and bowel problems than other control individuals. It is suggested that the microbiota in the stool of ADHD children might be different. Genetic study also found that if a child has a sibling with ADHD, the risk of developing ADHD is three to four times higher than that of children with siblings without ADHD.
This study will develop and test a Robotic Intervention Framework for Children with ASD in the real context. The first part of this study will focus on the identification and initial testing of core elements of effective robotic intervention programs to form a practice framework. Pat II will use a randomized control trial to test the efficacy of the robotic intervention programs that incorporated all elements of the framework. Part III will use a qualitative approach to examine the qualitative outcomes of the program with reference to the elements of the practice framework. With a framework that is built upon evidence and tested sufficiently, practice guidelines and intervention protocol will be delineated to ensure success of robotic intervention programs.
This is the first human study on ASD microbiome with robust methodologies: prospective and sibling designs, metagenomics profiles, establishing an ASD multi-dimensional databank (clinic, behavior, neurocognition, brain imaging, metabolomics, and microbiome) collected using the same methodology and genetic biology simultaneously, and developing a deep learning platform for ASD diagnosis and prevention. With the accomplishment of this project, we anticipate establishing a web application for clinical and academic use. Our findings will further advance the knowledge in the pathogenetic mechanisms of ASD to enhance early detection, diagnosis, and treatment, subsequently contributing to precision medicine.
The purpose of this study is to accumulate and quantitatively analyze data on the microbiome, serotonin signaling and genetics, and inflammatory cytokines from patients with Autism Spectrum Disorder and Fragile X Syndrome. Computational analysis of multi-dimensional datasets will be used to establish a "Diagnostic and Therapeutic Index" - an objective set of tools that can help differentiate subtypes of Autism Spectrum Disorder and develop more accurate methods of diagnosis and response to treatment.