View clinical trials related to Hyperkinesis.
Filter by:- To determine if the T-PTNS is not inferior in the short term (3 months) to one of the usual pharmacological treatments (Solifenacin) in the treatment of hyperactive bladder syndrome and with respect to the percentage of patients that improve 50% any of the 3 signs (Urinary frequency, diurnal / nocturnal frequency, urgency and urinary incontinence). - To determine prognostic factors associated with insufficient improvement (less than 50% in the 3 main signs of hyperactive bladder syndrome (urinary frequency, urgency and urinary incontinence frequency) after treatment with T-PTNS and Solifenacin.
This is a 6-month trial in adults to find out if certain neuromarkers can predict individual treatment response to stimulant medications for Attention Deficit Hyperactivity Disorder (ADHD). Males and females, ages 18-45, will complete an MRI scan at MIT prior to beginning medication for ADHD as determined by a treating clinician outside the context of this study.
Subjects will answer the following questionnaire and tests: - Symptom severity and improvement will be measured using ADHA Rating scale IV (ADHD RS) - Demographic Questionnaire - composed by the researchers - Family Eating Habits Questionnaire (FEAHQ-33) - Food Frequency Questionnaire (FFQ) - Test MOXO The subjects will take the study product for six months. After six months the subject will fill once again all the questionnaires.
The purpose of this project is to evaluate the effectiveness of a structured aerobic exercise intervention for adults with Attention-Deficit/Hyperactivity Disorder (ADHD) with and without medication and compare it to medication alone. Participants will be randomly assigned to medication only + education, aerobic exercise intervention only, and combined aerobic exercise and medication groups. Participants will be evaluated at baseline, following medication optimization (for medicated groups), following 8 weeks of intervention, after 3 months of follow-up, and after 6 months of follow-up. The investigators hypothesize that the combined group will have the best outcome at all evaluation points and that treatment gains will be maintained throughout the follow-up period if the assigned treatments are continued.
Open label, flexible dose, long-term multicenter study of safety and efficacy of SPN-812 ER in pediatric ADHD patients
The purpose of the project is to evaluate the efficacy of cognitive behavioral therapy (CBT) for adults with attention deficit hyperactivity disorder (ADHD) with and without stimulant medication and compare it to medication alone. Subjects will be randomly assigned to stimulant medication only, CBT only and combined CBT and stimulant medication group. Patients will be evaluated at baseline, following mediation optimization (for medicated groups), following 12 months of treatment, after 3 months of follow up, and after 6 months of follow up. The investigators hypothesize that the combined group will have the best outcome at all evaluation points. ADHD in adults is associated with significant morbidity and impaired academic, occupational, social, and emotional functioning. Developing optimal treatment approaches for this population is key in improving their functioning.
This double-blind crossover study aims to compare cognitive performance (e.g., working memory, selective attention and cognitive flexibility) of children ages 6-18 years diagnosed with ADHD of the combined type (ADHD-C) or inattentive-type (ADHD-IA) and currently on > 20 mg/day of psychostimulants (psychostimulants) on: a) their current dose of psychostimulants, vs. b) a lower-dose of psychostimulants (half of their current dose). The investigators hypothesize that the lower-dose psychostimulants will result in better cognitive performance than moderate-to-high doses of psychostimulants.
The purpose of the study is to examine how well two types of treatment follow up work compared to one another: 1. standard community follow up 2. medication monitoring plus tailored case management follow up. A child's participation will involve 3 months of treatment consisting of medication and psychological, behavioural, and academic interventions tailored to their individual needs. Following this treatment, the child will be randomly assigned to receive two years of either community follow up or medication monitoring plus tailored case management follow up delivered by the study team. During both types of follow up, at 6 month intervals, the parent and child will be asked to complete interviews with our study personnel and comprehensive assessments pertaining to ADHD symptoms and various other areas of functioning. Parents will also be asked to obtain information from the child's teacher regarding the child's functioning at 6 month intervals during the school year.
Background: Attention deficit hyperactivity disorder (ADHD) is an early onset, highly heritable, clinically heterogeneous, long-term impairing disorder with tremendous impact on individuals, families, and societies. It affects 7.5% of school-aged children in Taiwan. Emerging evidence has suggested that patients with ADHD may present with a deficit of attention, alertness and sleep disturbances. Since attention, alertness, and sleep disturbances may significantly increase the functional impairment of ADHD, gaining insight into their pathophysiology as well as into their treatment is of relevance to provide a better clinical management of patients suffering from ADHD. The orexin system, located in the hypothalamus, takes an important role in homeostatic functions, such as attention, alertness, sleep-wake cycle, and feeding. To our best knowledge, the functioning of the orexin system has never been investigated in patients with ADHD. Given the involvement of the orexin system in the control of alertness and reward seeking, the present study aims to examine whether plasma orexin and mRNA expression levels of pre-pro-orexin gene are associated with the symptoms and neurocognitive deficits of ADHD.
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 in treating ADHD in adults. Since naltrexone is a kappa opioid receptor antagonist, it increases dopamine in the brain. We predict that naltrexone as a monotherapy will be effective for ADHD symptoms in adults with ADHD. We also plan to assess the effects of naltrexone on dopamine as measured by changes in serum prolactin. We predict that naltrexone will increase dopamine as indexed by decreases in serum prolactin.