View clinical trials related to Autistic Disorder.
Filter by:Theory of mind (ToM) refers to the ability to infer others mental states. It includes a recognition that other individuals experience thoughts, feelings, intentions, and desires that may be different to our own. ToM is often impaired among individuals with an autism spectrum disorder (such as autism and Asperger's disorder), and may underlie aspects of social dysfunction in this population. Indeed, it has been suggested that impaired ToM is the core deficit of autism and Asperger's disorder. Imaging studies suggest that the bilateral medial prefrontal cortex, the most important brain region in ToM processing, is underactive in autism. The current study examines whether repetitive transcranial magnetic stimulation (rTMS) to the bilateral medial prefrontal cortex can modulate ToM ability among healthy adults, and improve ToM ability among adults with autism or Asperger's disorder. With the prevalence of autism increasing, there is a clear need to develop appropriate therapeutic interventions to improve social functioning. This study involves a double-blind study using high-frequency rTMS in an attempt to improve ToM among adults with either autism or Asperger's disorder. Theory of mind will be measured using behavioural tasks that require the participant to infer what someone is thinking or feeling by observing their behaviour. These tasks will administered both before and after rTMS to determine whether any change in theory of mind has occurred. Thirty adults with either autism (n = 15) or Asperger's disorder (n = 15) will initially undergo functional and structural MRI to determine the site on the scalp that lies over the medial prefrontal cortex (to which rTMS will be administered). They will then attend our lab each consecutive weekday for a two-week period, during which they will 15 minutes high-frequency (5 Hz) rTMS (either active or sham) to the medial prefrontal cortex. ToM and clinical measures will be collected before the first session, soon after the last session, and one month after the last session. Based on prior imaging data, it is expected that high-frequency rTMS (compared with sham rTMS) to the medial prefrontal cortex will improve ToM ability and reduce social dysfunction among adults with autism or Asperger's disorder. Should these hypotheses be supported, it will indicate the suitability of rTMS as a neurobiological intervention designed to improve ToM and social function among individuals with autism and related disorders.
The overarching aim of the study is to characterize children and adults with ASDs, and compare them with age-matched controls in relation to their functioning in family, academic, employment, and social spheres. Subjects will be comprehensively assessed in multiple non-overlapping domains of functioning, using psychiatric, cognitive, and psychosocial instruments.
This study is designed to examine the efficacy of a cognitive behavioral therapy (CBT) program for treating core autism symptoms, social and emotional problems, and adaptive behavior deficits in children with autism spectrum disorders.
Omega-3 fatty acids are among the most commonly used CAM (Complementary Alternative Medical) therapies, and have been reported to be currently used by 28.7% of children with autism. Two published case series noted that families reported large improvements in the core feature of autism when children were given omega-3 fatty acids. Low levels of omega-3 fatty acids have been noted in children with autism, which suggests normalizing the omega-3 fatty acid levels could produce improvements in the symptoms seen in many children with autism. This study is a 12-week randomized, double blind, placebo-controlled clinical trial for 24 male and female children aged 3 to 8 years with autism. Patients who are currently using omega-3 would need to discontinue omega-3 fatty acids for 8 weeks before they are able to participate in the study. All study participants who meet all inclusion and no exclusion criteria at the initial screening visit and sign the consent form will then complete baseline assessments of the outcome measures (validated instruments of hyperactivity, communication, social interaction, and behavior) and be randomly assigned to 12 weeks of omega-3 fatty acids at a dose of 1 gm per day or an identical placebo. The child's behavior will be measured and evaluated at the MIND Institute at the beginning of the study and at study closing. All study families will come in for a follow-up visit at weeks 4 and 8 to assess medication compliance and side effects to study medication. After 12 weeks of treatment, all outcome measures including laboratory tests and side effect profiles will be repeated. All patients who complete the study will receive a 12-week supply of omega-3. This would also provide patients who were on placebo with active medication. No follow-up visits are needed once the patient finishes the double-blind portion of the study.
The purpose of this study is to examine the safety and efficacy of mecamylamine for the core symptoms of autism.
This study will compare the effectiveness of two parent-based programs for helping young children at risk of autism.
Autism spectrum disorder (ASD) has been given a high priority for genetic and neurobiological study. There is no such information in Asian population and no study has conducted using Diffusion Spectrum Imaging (DSI) to investigate the connectivity throughout the world. Moreover, no follow-up study has been done to examine the developmental changes of structural and functional connectivity. We anticipate to establishing a cohort of 50 ASD and their siblings with complete clinical, neuropsychological, brain imaging, and genetic data for longitudinal study on ASD. Our findings will contribute to our understanding of the structural and functional dysconnectivity for ASD and whether dysconnectivity can be an endophenotype for ASD and used as a biomarker for early diagnosis of ASD.
The purpose of this study is to evaluate the process of development of autistic children, in a direct and indirect intervention context from mother´s response in Autism Behavior Checklist.
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...