View clinical trials related to Autism.
Filter by:Goals of the current project: (1) Does the Early Start Denver Model experimental intervention for toddlers with autism reduce disability associated with autism significantly more than standard community interventions?; and (2) What environmental, child, and biological characteristics mediate and moderate intervention response and outcomes at age 4?
This study will test whether donepezil (Aricept(Registered Trademark)), a drug that is approved by the Food and Drug Administration to treat Alzheimer's disease, can increase rapid eye movement (REM) sleep in children with autism and autism spectrum disorder (ASD). Some children with autism and ASD spend very little time in REM sleep. In some studies, decreased REM sleep has been associated with learning and behavior problems. Donepezil can increase REM sleep in some adults with different disorders. If it can increase REM sleep in children in this study, it might be able to be used in future studies to see if it can help learning and behavior problems in children with autism and ASD. Children between 2 and 10 years of age with autism or an ASD whose percentage of REM sleep time is well below the average for children of the same age may be eligible for this study. Candidates are screened with a medical history, physical and neurological examinations, blood tests, electroencephalogram (EEG) and a sleep study. The sleep study requires an overnight stay at the NIH Clinical Center in which the child is monitored with electrodes for EEG and heartbeat recording, a tube taped below the nose to measure airflow, a probe on a finger to record oxygen levels and a small watch-like machine on the wrist to record movements. Participating children may be required to have up to six overnight stays for sleep studies at the Clinical Center. The children start by taking 1.25 mg of donepezil for 2 to 4 weeks. Then they are admitted to the NIH Clinical Center for a sleep study, blood tests and EKG. Those whose REM sleep increases to normal levels stay on 1.25 mg of donepezil for 8 more weeks, after which they are admitted to the Clinical Center for a final physical examination, blood draw and sleep study. That ends their participation in the study. Children whose REM sleep does not increase to normal on 1.25 mg of donepezil are given a higher dose (2.5 mg) for 2 to 4 weeks, and the above procedure is repeated. Those whose REM sleep does not increase to normal on 2.5 mg of donepezil take 5 mg of the drug for 2 to 4 weeks, and the above procedure is repeated once more. Children whose REM sleep does not increase to normal on 5 mg of donepezil stop the medication and end their participation in the study. At each study visit, study researchers talk to the parents and examine the children to determine if donepezil is affecting the child's behavior and if the child is hav...
New evidence suggests that autistic disorder (AD) may be associated with abnormalities in folate metabolism, which is a process that affects genetic expression by facilitating the formation of methyl donors for DNA methylation. Limited data show that some children with AD show behavioral improvements with folic acid (FA) therapy, while others show a worsening effect. If behavioral worsening is linked with abnormalities in folate metabolism, then nutritional modifications could normalize these processes and result in clinical improvements. To address this premise, we propose a randomized, placebo-controlled crossover pilot study with two phases. The first phase will focus on the behavioral and biochemical responses of children with AD to high-dose folic acid supplementation. Because FA is an inactive folate that requires biochemical conversion to become active, and select genotypes impede this conversion, our general hypothesis is that FA will yield behavioral improvements in some children but exacerbate problem behaviors in others. During the second phase, children who had a worsened behavioral response to FA during phase 1 will participate in an open-label trial of high-dose Metafolin® supplementation. The focus here would similarly be on the behavioral and biochemical outcomes of participating children following treatment with the study supplement. Because Metafolin® is an active folate metabolite that should not be affected by genotypes in the folate pathway, our general hypothesis for phase 2 is that Metafolin® would yield behavioral improvements without the risk for behavioral worsening. Results from this project may provide support for continued study of the potential relationship between folate metabolism and problem behaviors among children with AD, potentially justifying the need to examine effects of folate supplementation among a larger sample of affected children.
The purpose of this study is to determine if fluvoxamine or sertraline reduce the fequency or severity of aggressive behaviour, obsessive symptoms, or anxiety in young children with autism. The within-patient variability in this patient population using standard neuropsychological instruments will also be determined and a predictor model for SSRI responsitivity based on baseline neuropsychological testing will be developed.
A growing body of research indicates that dietary intervention excluding foods containing the proteins, gluten and casein, from the diet of children diagnosed with an autism spectrum disorder (ASD) may have a positive effect on behaviour and developmental outcome. In this single-blind, randomised-controlled, matched-pair adaptive trial, we introduced a gluten- and casein-free (GFCF) diet to a group of pre-pubescent children diagnosed with ASD concurrently with an abnormal urinary profile. Following random allocation to a diet or non- diet group, stage 1 of the study saw an intervention group follow the GFCF diet for eight months initially - progressing to 12 months if required. A non-diet control group continued with a normal diet. Assuming significant changes for the dietary group on the various outcome measures of behaviour and development, stage 2 of the study saw both groups assigned to GFCF dietary intervention for a further 12 months when outcome measures were again assessed at study end.
The objective of this study is to use high-frequency brain signals (HFBS) to localize functional brain areas and to characterize HFBS epilepsy, migraine and other brain disorders. We hope to build the world's first high-frequency MEG/MEG/ECoG/SEEG database for the developing brain. HFBS include high-gamma activation/oscillations, high-frequency oscillations (HFOs), ripples, fast ripples, and very high frequency oscillations (VHFOs) in the brain. To reach the goals, we have developed several new MEG/EEG methods: (1) accumulated spectrogram; (2) accumulated source imaging; (3)frequency encoded source imaging; (4) multi-frequency analysis; (5)artificial intelligence detection of HFOs; (6) Neural network analysis (Graph Theory); and (7) others (e.g. ICA, virtual sensors).
Autism is a complex neurodevelopmental disorder that is thought to involve an interaction between multiple and variable susceptibility genes, environmental factors, and epigenetic effects. Great concern has been raised about the marked increase in the prevalence of autism spectrum disorders in the last decade. Risperidone, the most studied atypical antipsychotic used in children, has been shown to improve severe behavioral difficulties in over half of children with autism who have these difficulties. However, not all children with autism and severe behavioral problems respond to risperidone, and for a few, it has significant side effects. Two controlled studies and numerous open-label and long term studies in children with autism spectrum disorders using the atypical antipsychotic risperidone show a significant decrease of associated serious behavioral problems. The use of atypical antipsychotics is of great concern, however, because of their significant side effects and the fact that only two-thirds of children positively respond. Ways to predict response, appropriate dosage and serious side effects are needed.
The purpose of this study is to increase the understanding of the effect of Hyperbaric Oxygen Treatment (HBOT) on the behavior and functioning of children with autism. The main goal of this study is to demonstrate that HBOT is safe and tolerable in autistic children, and to measure the effect of HBOT on specific chemicals in their blood that may play a role in the child's behavior.
The purpose of this study is to test the hypothesis that dietary supplementation with the omega-3 fatty acid docosahexaenoic acid (DHA) improves the behavior of children with autism.
The purpose of this study is to evaluate the effectiveness (change in level of irritability and related behaviors) and safety and tolerability of the administration of 2 different fixed dose levels of risperidone (an atypical antipsychotic drug) compared with placebo in children or adolescents who have autism, and to evaluate the safety and tolerability of the drug for additional 26 weeks after the initial 6-week study period.