View clinical trials related to Autism.
Filter by:The proposed study is designed to assess the effectiveness of treatment with Oxcarbazepine vs. placebo in childhood/adolescent autism. This is a twelve-week study involving twenty subjects between the ages of five and seventeen with a diagnosis of autism.
This study aims to investigate the role of fronto-striatal circuits and cognitive control in the perseverative and inflexible behavior that is a defining feature of autism. We hypothesize that deficits in the development of fronto-striatal circuitry may underlie cognitive inflexibility in autism. Specifically, we hypothesize that repetitive, inflexible behavior arises as (1) fronto-striatal systems are capable of learning patterns present in the environment (as in implicit learning paradigms), but are unable to adapt behavior to changing circumstances, related to either (2) decreased ability of basal ganglia to detect violations of expectancy, (3) decreased ability of prefrontal cortex to respond to detected violations, or (4) decreased connectivity of the circuits. We are conducting three functional Magnetic Resonance Imaging (fMRI) studies to address these hypotheses.
The purpose of this study is to investigate brain development in autism by longitudinally assessing children with autism, as well as typically developing controls, using advanced MR techniques. We will use longitudinal diffusion tensor imaging (DTI) measures to investigate the protracted development of long-range white matter fibers in autism. In addition, we will investigate the effect of autism risk genes on brain development.
There is a subgroup of children with autism that appears to develop typically for a period of time, and then loses social or language skills, or regresses. A recent study by Vargas and co-workers at Johns Hopkins has demonstrated that this regressive type of autism is associated with chronic brain inflammation as shown by an abnormal production of inflammatory cytokines among other abnormalities. This present study will test the effectiveness of minocycline, an antibiotic with anti-inflammatory properties, in treating regressive autism. Although behavioral therapies have improved some symptoms of autism, there are no medical treatments for the disorder, and many children have ongoing behavioral difficulties. A medicine with anti-inflammatory properties may be beneficial for children with regressive autism. This will be an open-label trial, meaning all children in this study will receive minocycline. They will also receive vitamin B6 to reduce the possible chance of side effects of the minocycline. Children ages 3 to 12 with regressive autism may be eligible for this study. The children will take minocycline and vitamin B6 daily for 6 months. Prior to starting the medication and vitamin B6, children will receive a comprehensive diagnostic assessment for autism as well as a physical examination, medical history, and laboratory tests. Children will then receive ongoing assessments to monitor their behavior, communication, language skills, and medical issues at 2 weeks, and at 1, 2, 4, 6, and 12 months. Children who respond to the treatment will receive an additional 3 months of minocycline and vitamin B6.
PURPOSE The purpose of this investigation is to evaluate the cognitive and behavioral effects of Hyperbaric Oxygenation Therapy in children who present with a diagnosis of autism spectrum disorder. HYPOTHESIS 1. Hyperbaric Oxygenation Therapy will be safe to use with children with autism. 2. Hyperbaric Oxygenation Therapy will have a statistically significant effect on the symptoms of autism. 3. Hyperbaric Oxygenation Therapy will have a clinically significant observable effect on the overt symptoms of autism. 4. The decreases in the symptoms of autism will correlate positively with the number of Hyperbaric Oxygenation Therapy sessions. 5. Treatment gains obtained from Hyperbaric Oxygenation Therapy will be maintained at follow-up, post 40 treatment sessions. SPECIFIC AIMS 1. Provide further evidence for the safety of Hyperbaric Oxygenation Therapy in children with autism. 2. To quantitatively assess the effects of Hyperbaric Oxygenation Therapy on behavioral and cognitive symptoms of autism before, during, and after treatment. 3. Identify number of treatments required to reach therapeutic effects. 4. Identify the length and durability of treatment effect and maintenance.
The purpose of this investigation is to evaluate the cognitive and behavioral effects of Hyperbaric Oxygenation Therapy in children who present with a diagnosis of autism and other developmental disabilities.
The purpose of this study is to investigate the effectiveness of an intervention aimed to increase joint attention in 2-4 year old children with autism. The study will be conducted in mainstream preschools in Norway. The intervention will be implemented by preschool teachers and paraprofessionals supervised by trained counselors.
This study will examine whether DMSA, an oral chelating agent that removes mercury and other metals from the body, is beneficial for children with autism. DMSA is commonly used to treat autism, although it has never been tested in a controlled study and there is no proof that it helps children with the disorder. Support for its use is based on single-case reports of benefits of chelation with DMSA. This study will help determine whether or not DMSA is useful for treating autism. Children between 4 and 10 years of age with autism spectrum disorder who weigh at least 33 pounds, who have detectable, but not toxic, levels of mercury or lead in the blood, and who have not previously received chelation therapy may be eligible for this study. Participants complete a medical history, behavioral and psychological assessment and physical examination. Blood, hair, urine and stool samples are collected for testing. Because DMSA can remove minerals the body needs, such as zinc and iron, as well as the toxic lead and mercury, participants take a daily multivitamin supplement starting 1 month before beginning chelation therapy and continuing for the duration of treatment. After 1 month of the supplementation regimen, the children are assigned to receive DMSA or placebo for 12 weeks, divided into six 2-week cycles. They take the assigned drug 3 times a day on days 1, 2 and 3 of each cycle and continue the multivitamin every day. The children are seen in the clinic immediately before and after the first, third and sixth cycles. At each checkup, the parent or guardian answers a set of questions about the child's autism symptoms, physical health and medication side effects. Blood, urine and stool samples are collected for laboratory testing.
Background: The number of adults with autism is expected to rise significantly in the near future, due to two main reasons: First, a dramatic increase in the estimates of the prevalence of autism starting in the mid 1980s; Second, the clinical diagnosis of autism was first introduced during the 1950s, and those diagnosed with autism back then are only now entering middle age. Few studies, however, have focused on the outcomes of adult autistic individuals, and very little is known about the course of autism in adulthood and on the familial burden resulting from caring for an autistic adult. We therefore propose to study adult outcomes in autism, and to examine the influence of raising an autistic individual on the parents. Working hypothesis and aims: The primary objectives of the study are: 1. Determine clinical status and functioning of autistic adults. 2. Study the influence of raising and caring for an individual with autism on the well-being of the parents.
We aimed to use Tongue Acupuncture (TAC) to assess for any change in brain function.