View clinical trials related to Hyperkinesis.
Filter by:This is a research study to learn if a computer-based intervention that provides direct attention and metacognitive strategy development can improve attention, memory, and executive control in adolescents with moderate-to-severe TBI who are experiencing attention difficulties post injury.
The specific aim of this cluster-randomized (site) comparative effectiveness research study is to determine whether children who are (1) 5-12 years of age, (2) cared for in ePROS practices or clinics using an electronic health record (EHR), (3) have attention-deficit hyperactivity disorder (ADHD), and (4) are to receive treatment with stimulant medication for the first time in these practices, have superior clinical outcomes if their clinicians have access to an EHR-guided clinical decision support system (intervention group) than if their clinicians have no such access (control group).
The goal of the study is to use graph theory to examine how the organization of the functional brain network may be altered by the administration of methylphenidate. This effect is to be compared between methylphenidate intake and placebo intake, as well as between healthy adult males and adult males with a diagnosis of Attention Deficit Hyperactivity Disorder.
Brief summary The aim of the study is to provide preliminary data on the relationship of Essential Fatty Acids (EFAs) to cognitive and electrophysiological measures of brain and behavioural functions in adults with attention deficit hyperactivity disorder (ADHD) and controls. This main aim will be achieved in two ways. First the investigators will measure the relationship of the various measures to blood levels of EFAs in ADHD cases and controls. Secondly, the potential effects of dietary supplementation with EFAs on cognitive-electrophysiological and behavioural measures in ADHD cases will be investigated. We will evaluate the extent to which changes in neuronal activity and cognitive performance are related to behavioural and functional measures over time. This is to be carried out by conducting a randomised controlled trial of fish oil supplementation in adults with ADHD (The OCEAN study: Oils and Cognitive Effects in Adult Neurodevelopment). The study design will be a 6-month double blind placebo control study with a group of 80 adults with a diagnosis of ADHD. The group will be divided into 40 participants who receive EFA dietary supplements and 40 who receive placebo, over a 6-month period. Allocation to EFA dietary supplementation and placebo groups will be randomly allocated and blind to both the investigator and participants. In addition a sample of 30 controls will take part in baseline levels of assessment and be used for case-control comparisons to investigate the links between EFA blood levels and cognitive-electrophysiological function at one time point. The study design will enable preliminary data to address the following hypotheses: 1. Changes in cognitive and electrophysiological function (neuronal activity) will be found following supplementation with dietary EFAs. 2. Changes in cognition and/or brain activity will be related to blood levels of EFAs. 3. Changes in cognitive performance and electrophysiological parameters will correlate with behavioural function, affective regulation or functional impairments. 4. At baseline, case-control differences in EFA blood-levels will be found which will be linked to cognitive and electrophysiological function.
Patients on chronic stimulant therapy for the treatment of Attention deficit hyperactivity disorder (ADHD) who are undergoing an outpatient surgical or diagnostic procedure will be randomized to one of two groups: stimulant medication administered on the day of surgery or stimulant medication withheld on the day of surgery. The choice of anesthetic pharmacology will be at the discretion of the attending anesthesiologist, but the endpoint will be a bispectral index (BIS) between 40 and 60 to ensure adequate and similar depth of anesthesia. Blood pressure, heart rate and use of vasopressors or anticholinergics will be recorded and the incidence of hypotension, bradycardia, or administration of medications will be compared between the two groups.
Adults with Attention Deficit Hyperactivity Disorder (ADHD) have impairments in attentional subsystems of alerting and conflict monitoring. Mindfulness meditation may lead to an improvement of these deficits, and reduces symptoms of anxiety and depression. However, the studies that demonstrated these improvements did not use a control group, nor controlled the use of medication. In the present study the investigators will examine the effects of the mindfulness practices (same protocol of 8 weekly sessions used in the study that showed positive effects in this disorder) in the performance of adult patients and healthy people (with ADHD). Cognitive performance, mood, and the quality of life will be assessed by validated questionnaires before and after treatment/standby.
Background: - Near-infrared spectroscopy (NIRS) is a functional imaging technique that can be uses light to study brain function while allowing for movement. To look at blood flow in the brain, NIRS uses a low-power light source with detectors that see how the light changes as it passes through brain tissue. Brain blood flow can indicate which parts of the brain are active during different tasks. Researchers want to study children with attention deficit hyperactivity disorder (ADHD) and autism spectrum disorders (ASD) and will use NIRS to compare the blood flow in the brain of children with ADHD and ASD with that of typically developing children. Objectives: - To see how well NIRS can detect changes in brain blood flow during tests of thinking and memory in children. - To compare blood flow in the brains of typically developing children and those with ADHD or ASD. Eligibility: - Children between 4 and 8 years of age with ASD, ADHD, or children with no psychiatric diagnoses. Design: - Participants will be screened for eligibility. Those who are taking stimulant medication for ADHD or ASD will need to stop taking it for 3 days before the study visit. - After participating in a screening assessment, all participants will have one study visit. At this visit, they will have be asked to complete two tasks during a NIRS scan. For both tasks, they will react to images on a computer screen. This visit will last about 2 hours. - This is a testing study only. No blood or other samples will be needed for this study.
Background: - Attention deficit hyperactivity disorder (ADHD) is one of the most common and inheritable of all neuropsychiatric disorders. It causes problems with attention and impulse control. However, the genetic component of ADHD has not been fully studied, including how genes interact with the environment. Researchers want to study children and adults who have ADHD. They will look at how genetic, brain structure, and environmental factors affect ADHD in children and adults. Objectives: - To study genetic, brain structure, and environmental factors in ADHD in children and adults. Eligibility: - Individuals at least 3 years of age who have ADHD. Design: - Participants will be screened with a physical exam and medical history. - Participants will be interviewed about their ADHD. They will also complete behavior and psychological tests. Parents or guardians will complete the tests along with participants under 18 years of age. - Participants will provide saliva or blood samples. - Participants will also have imaging studies of the brain. - Participants under 25 years of age will return once a year to repeat the tests. Those over 25 years of age will have only the one set of tests. Those who are starting stimulant drugs and who are receiving behavioral treatment for the first time will also have another set of tests 12 weeks after the start of treatment.
The primary aim of this study is to assess whether naltrexone as a monotherapy is effective in treating ADHD in adults. Medications that increase dopamine are often effective treatments for ADHD. Since naltrexone is a kappa opioid receptor antagonist, it increases dopamine in the brain. The investigators predict that naltrexone as a monotherapy will be effective for ADHD symptoms in adults with ADHD. The investigators also plan to assess the effects of naltrexone on dopamine as measured by changes in serum prolactin. The investigators predict that naltrexone will increase dopamine as indexed by decreases in serum prolactin. This study will be a six-week, double-blind, placebo-controlled pilot study with adults 18-55 years of age with ADHD.
This study proposes to evaluate the effects of guanfacine extended release on brain activation during fMRI in children and adolescents with ADHD between the ages 8-15 and ADHD subjects randomized to placebo treatment. This study also proposes to collect DNA on study participants, to examine the genetic underpinning of the observed fMRI activation profiles at baseline and in response to treatment. The purpose is to examine polymorphisms of the adrenergic 2A gene (and other related targets) for genetic biomarkers in association with the fMRI findings of this study.