View clinical trials related to Autism.
Filter by:This cohort observation, randomized controlled trial is intended to provide data that icons and non-verbal communication improve communication and cooperation with children with Autism/communication delay and aid in the transition to an unfamiliar environment. It would lay the foundation for future studies and practices of using icons and pictures for the whole office visit to enhance communication between the patient and physician/nurse/medical staff and cooperation of the patient. 1. Use icons during triage/check in process to decrease time and increase patient compliance. Compare typical children to those with Autism/communication delay. 2. Use icons during blood draw to improve communication with patients, to help with patient understanding, and increase patient cooperation and decrease noise and length of procedure.
The investigators propose to conduct this pilot study to evaluate oxytocin as a supplemental treatment for improving social difficulties in individuals with autism.
Dr. Sherie Novotny of the Department of Psychiatry at UMDNJ-RWJMS and collaborators are starting a treatment trial to determine whether Docosa Hexanoic Acid(DHA), the major omega-3 fatty acid found in the brain and a component of fish oil, has any effects on the symptoms of autism. We propose to carry out a trial to test the effect of DHA compared to a placebo (a pill with no drug in it) on several aspects of autism in children and adolescents, in a 12-week clinical study with children or adolescents in the age group of 5-17 with a diagnosis of Autism Spectrum Disorder. Additionally this trial will study genes related to the therapeutic agent, DHA, and biomarkers related to DHA in the urine.
The investigators hypothesis is that a new, revised formulation of a vitamin/mineral supplement will result in: 1. improvement of nutritional status in some children/adults with autism, and 2. reduction of some of the symptoms of autism in some children
Deviation of hormone formation within nerve cells and nerve system provides autism spectrum disorder and neurodevelopment retardation through interaction of steroids with neurotransmitter-receptors, calcium-channel receptors and genomic interaction via nuclear steroid receptors. Urinary steroid metabolites will be compared between children with autism spectrum disorder and healthy controls.
The purpose of this study is to compare two different treatment approaches to social skills groups for high-functioning children with Autism Spectrum Disorder (ASD). This project will examine changes in both behavior and the brain following treatment.
Many children and adolescents with autism spectrum disorder (ASD) experience high levels of anxiety which can further inhibit their ability to master developmental tasks such as succeeding in school and developing and maintaining friendships. Despite the need for effective treatments for children with ASD and anxiety, there have been few studies that have addressed this issue. Recently, preliminary evidence has supported the use of cognitive-behavioral therapy (CBT) to treat anxiety disorders in children with ASD. This study will utilize a CBT treatment program called Coping Cat. Coping Cat has been found to be one of the most effective treatments for typically developing children with anxiety and has also been shown to be effective for treating anxiety in children with other disorders such as physical impairments, selective mutism, and Attention Deficit Hyperactivity Disorder. The investigators goal is to demonstrate that Coping Cat is an effective treatment for children with ASD and anxiety. Finding effective treatments for children with ASD and anxiety could increase adaptive social relationships, decrease stress among families, and prevent the maintenance of anxiety into adulthood.
This study examines the effects of a single dose of intranasal oxytocin (vs. placebo) on complex social cognition in adults with autism spectrum disorders.
Autism spectrum disorders affect as many as 1 out of 150 children and are related to significant impairment in social, adaptive, and school functioning. Co-occurring conditions, such as anxiety, are common and may cause substantial distress and impairment beyond that caused by the autism diagnosis. Although effective interventions have been developed for typically developing youth with anxiety disorders, this approach needs to be adapted for children with autism. Accordingly, we are proposing a randomized controlled trial to examine the effectiveness of CBT relative to treatment as usual (TAU) in 46 youth ages 7-11 with autism spectrum disorders and comorbid anxiety disorder(s).
Our overall objective is to apply Transcranial Magnetic Stimulation (TMS) to develop measures of human synaptic plasticity and of brain excitatory:inhibitory ratio (E:I ratio), which we propose as novel biomarkers and outcome measures that will expedite clinical trials of treatments for Autism Spectrum Disorder (ASD). One potential therapeutic agent, R-baclofen will be investigated under this protocol. TMS is a safe, inexpensive and noninvasive means to focally stimulate the human brain. Presently, TMS is in extensive use as a means to measure regional brain excitability, which is dependent on local synaptic strength. TMS can be used to temporarily alter synaptic strength as well as to acutely measure levels of cortical excitability and short and long interval inhibition. Since altered synaptic plasticity and an imbalanced inhibitory:excitatory ratio are cited as fundamental abnormalities in ASD, we hypothesize that both severity of ASD-related learning deficits and their improvement after therapy will correlate with TMS measures of synaptic plasticity and E:I ratio. We propose to embed TMS measures of synaptic plasticity and E:I ratio in a 'Proof of Principal' trial of R-baclofen and to examine: Aim 1: Whether R-baclofen (a potential therapeutic agent for ASD) predictably alters TMS measures of synaptic plasticity and E:I ratio as a function of plasma concentration in adult volunteers. We will test the following hypotheses: 1. R-baclofen produces a significant change in TMS measures of LTD and E:I ratio; and 2. R-baclofen plasma levels and TMS measures of LTD and E:I ratio show a predictable exposure-response relationship. Exploratory Aim 1: Whether the presence of genetic polymorphisms of the BDNF and GABA-B receptor genes has a moderating effect on TMS measures and on R-baclofen effects. We will test the following hypotheses: 1. Presence of the BDNF val66met allele will be associated with decreased long-term depression (LTD) of cortical excitability 2. Polymorphisms of GABA-B receptor genes will be associated with altered magnitude of response to R-baclofen as measured by TMS