View clinical trials related to Hyperkinesis.
Filter by:The goal of this study is to assess the agreement between the outcomes of adolescents with attention deficit hyperactivity disorder (ADHD) who participated in Participation and Environment Measurement Child & Youth (PEM-CY) by the adolescent and primary caregiver. There are a few studies in the literature that look at the participation of teenagers with ADHD, but none that look at the participation of adolescents with ADHD from both the perspective of the adolescents and the primary caregivers. The primary caregiver's measurement results and the adolescents' measurements do not concur, according to this study's hypothesis.
Background: Irritability is an elevated proneness to anger. Children with irritability have difficulty tolerating frustration. They get angry and have temper outbursts more easily than their others their age. Irritability is a symptom of DMDD and ADHD. (DMDD is disruptive mood dysregulation disorder. ADHD is attention deficit/hyperactivity disorder.) Yet the reasons why some children get irritated easily are not well understood. Objective: To use brain imaging methods to study responses to frustration in youth. Eligibility: Youth aged 8 to 17 years with severe irritability (including those diagnosed with DMDD) and/or ADHD. Healthy volunteers are also needed. All participants are already enrolled in studies 02-M-0021 or 01-M-0192. Design: Participants will visit the clinic 3 times. The second and third visits will be 3 to 4 weeks apart. The first visit will be an enrollment visit. They will receive training on the tasks they will do during the study. Participants and their parents will take surveys. They will answer questions about their moods and feelings. Participants will train for an MRI scan. They will lie in a mock scanner tube and hear the noises an MRI makes. On the second and third visits, participants will have real MRI scans. They will play a computer game or watch a movie during each scan. The scans will last about 1 hour. The week after each scan, participants will wear a device on their wrist to measure their heart rate and activity level. Participants and their parent will use a smartphone to answer questions about how they are feeling and acting. Participants who do not have smartphones will be given one to use during the study.
The investigators are investigating whether home-based tDCS over the course of four weeks can improve ADHD symptom severity and improve dysexecutive functioning (cognitive control). Further, the investigators are investigating whether there is a dose-dependent response to tDCS.
Survivors of severe brain injury, such as lack of oxygen or severe traumatic brain injury, frequently experience Paroxysmal Sympathetic Hyperactivity (PSH). PSH is characterized by disabling symptoms such as a fast heart rate, high blood pressure, rapid breathing, rigidity, tremors, and sweating due to uncontrolled sympathetic hyperactivity in the nervous system. Effective treatment is necessary to decrease secondary brain injury, prevent weight loss from increased metabolic demand and reduce suffering. Currently, a combination of medications to slow down the sympathetic nervous system, muscle relaxants, anti-anxiety drugs, gabapentin, and narcotics are used to treat PSH. The sudden, recurrent attacks of PSH often require repeated rescue medications and multiple drugs with a high risk of side effects. Non-drug treatments for PSH may revolutionize treatment. The novel and non-invasive Percutaneous Electrical Nerve Field Stimulation (PENFS) device is an attractive and potentially effective treatment option for PSH. PENFS, applied to the external ear, has been shown to be effective for conditions such as abdominal pain, narcotic withdrawal, and cyclic vomiting syndrome, all which have similar symptoms to PSH. Therefore, the hypothesis is PENFS could be effective in the treatment of PSH. The electrical current delivered by the PENFS device is thought to increase parasympathetic activity by stimulating a branch of the vagus nerve. PENFS was shown to decrease central sympathetic nervous system activity by 36% within 5 minutes of being placed in the ear of a rat model. Similar central inhibition could improve symptoms of PSH. This pilot study aims to evaluate the feasibility of performing an efficacy trial of PENFS for children with PSH.
Attention-deficit/hyperactivity disorder (ADHD) is a common psychiatric disorder, with a prevalence among adults of 2.5%. The disorder is diagnosed based on impairing levels of inattentive, hyperactive and impulsive behaviours. Most adults with ADHD present with additional mental health problems. Adults with ADHD have an increased risk to develop so-called cardiometabolic illnesses, such as type-2 diabetes, obesity and cardiovascular disease (e.g., heart failure). However, detailed knowledge about the screening, diagnosis and management of adults with ADHD and co-occurring cardiometabolic illnesses is lacking. The purpose of ART-CARMA is to (1) obtain real-world data from adults with ADHD daily life on the extent to which ADHD medication treatment and physical activity, individually and jointly, may influence cardiometabolic risks in adults with ADHD, and (2) obtain real-world data of patterns of taking ADHD medication and reasons for not taking medication, over a remote monitoring period of 12 months. ART-CARMA benefits from the ADHD Remote Technology ('ART') assessment and monitoring system for adults with ADHD (developed by Kuntsi, Dobson, et al.), and the RADAR-base mobile-health platform to which it is linked (developed by Dobson et alÍž http://www.radar-base.org). ART consists of both active (e.g., questionnaires) and passive (smartphone and a wearable device) monitoring. ART-CARMA will use remote measurement technology (RMT) in adults with ADHD to carry out unobtrusive, real-time data collection over a continuous period of 12 months. By recruiting 300 adults from adult ADHD clinic waiting lists (and a partner/family member/close friend for each of them) and monitoring them remotely, we will obtain objectively measured data relevant to cardiometabolic risk profiles from their daily lives. By targeting the period before starting any ADHD medication through to starting treatment and the subsequent period, up to 12 months in total, we obtain real-time data on multiple parameters, including side effects, that can inform the personalisation of treatment.
A Phase 3, randomized, double-blind, placebo-controlled, multi-center, fixed-dose, parallel-group efficacy and safety study in a pediatric population (6-17) with Attention-Deficit/Hyperactivity Disorder (ADHD) using CTx-1301 (d-MPH). The study will be comprised of a screening period, a double-blind randomized phase, and a safety follow-up visit.
The primary purpose of this trial is to evaluate the safety and tolerability of centanafadine QD XR in pediatric subjects with ADHD.
The primary objectives are to investigate the effect of atomoxetine on impulsivity after single dose and at steady state measured by the total score of Barrett Impulsiveness Scale version 11 (BIS-11) and Short Urgency, Perseverance, Premeditation, and Sensation Seeking-Positive Urgency Impulsive Behavior Scale (S-UPPS-P) Impulsive Behavior Scale. The secondary objective is to evaluate the safety of atomoxetine.
The aim of the study is to determine the effects of animation therapy on the main symptoms of Attention Deficit - Hyperactivity Disorder; hyperactivity, inattention and impulsivity.
This trial will be conducted to evaluate the efficacy and safety of the Centanafadine extended release (XR) capsules in adolescent subjects (13 - 17 years, inclusive) with ADHD.