723 Clinical Trials for Various Conditions
This study will evaluate the feasibility of adapted ESDM-informed caregiver coaching in children with comorbid ASD and ADHD, who are between 36 and \<132 months of age. There will be no study provided medication treatment in this study. Children will either be on ADHD medication prescribed by their own personal provider or will not be taking any ADHD medication (this will be documented by the study). The provided behavioral treatment will be eight \~60-minute sessions in ESDM-informed caregiver coaching delivered remotely through telehealth, for 8 consecutive weeks. The behavioral treatment is provided to children through Early Start Denver Model (ESDM)-informed caregiver coaching strategies, implemented within the child's typical daily routine by the caregiver.
This study is a multisite, randomized, double-blind, placebo-controlled, phase 2/3 study of MG01CI (1400 mg daily) for 6 weeks compared with placebo in a 1:1 ratio of 300 adults with ADHD.
To look at the cognitive effects of abilify in children with a primary diagnosis of Attention Deficit Hyperactivity Disorder. To examine the safety, effectiveness and tolerability of abilify in children with a primary diagnosis of Attention Deficit Hyperactivity Disorder.
The goal of this interventional study is to learn the effects that stimulant medication prescribed to ADHD individuals has in their performance of attentive tasks, as measured by images and data collected through neuroimaging (fMRI) while also implementing new motion-correcting software. The main questions it aims to answer are: 1. How do the use of stimulants affect brain activity and motion in fMRI research in ADHD studies? 2. Can neurofeedback, an attentive task using real-time brain activity, engage the same brain circuits as seen with stimulant medication in individuals with ADHD? Researchers will compare participant's brain activity from the completion of attentive tasks performed in the scanner while following their regular medication regimen and while abstaining to take medication. Researchers will also compare how the data collected using a more precise motion correction software differs to other previously reported data from ADHD studies who possibly employed more lenient measures of motion correction. Participants will: 1. Be asked to complete at least 4 fMRI sessions, two of which will include neurofeedback 2. Be asked to abstain from taking stimulant medication on the day of two of these fMRI visits 3. Complete attentive tasks while in the scanner that will activate target brain regions of interest
The purpose of this study is to better understand sleep and circadian functioning in children with ADHD using home-based measures, parent report, and a lab based melatonin assessment. Investigators will also examine how sleep relates to psychiatric health and cognition among children with ADHD. The investigator for this study is Dr. Jessica Lunsford-Avery from the Department of Psychiatry.
Impulsive Aggression and chronic irritability (IACI) often occur together and are one of the most common reasons children present for behavioral health (BH) care. ADHD frequently associated with IACI as upwards of 50% of youth with ADHD manifest impairing IACI levels. IACI is the most common reason that children with ADHD are prescribed antipsychotics and admitted to inpatient BH units. Systematic dose optimization of CNS stimulants improves levels of IACI, reducing the need for these more intensive and burdensome treatments. However, response varies, with over half of children with ADHD showing meaningful improvement, upwards of 40% receiving minimal benefit and 3 to 10% exhibiting increased IACI levels. Symptom levels of ADHD or IACI and other demographic variables are of limited utility for predicting response, suggesting the need to move beyond symptoms in the search for treatment predictors. Youth with ADHD and IACI struggle with multiple aspects reinforcement learning (RL), defined as learning from interactions with the environment to reach a goal. Successful RL efforts tap multiple cognitive functions. In controlled laboratory tasks, youth with IACI and various BH disorders exhibit excessive behavioral and neural response to receiving reward (reward responsiveness), difficulty processing environmental cues to adapt behavior to meet a goal (set shifting/goal updating) and impaired ability to flexibly attend to relevant stimuli when blocked from a goal (frustrative nonreward). Event related potentials (ERP) are small electrical responses in the brain in response to specific events or stimuli measured by electroencephalogram (EEG) testing. ERPs exist that can serve as established neural measures of each of these cognitive functions offering a child friendly means to assess their contribution to observable levels of IACI. CNS stimulants improve functioning in these specific realms and impact associated ERPs to the degree that differences between ADHD and non-ADHD youth disappear. This study will examine the capacity of these ERPs to predict levels of IACI exhibited by children with ADHD when at home. Investigators will then assess if variability across children in the capacity of CNS stimulants to impact RL associated ERPs accounts for differences in the clinical effects of CNS stimulant medications to improve IACI at home using a multimethod battery integrating ERPs, parent report and task performance. Specifically, investigators will examine variance in the reward positivity (RewP) ERP when receiving reward feedback, the switch positivity (SwP) ERP measuring mental effort when cued to shift set and the change in P3b amplitude measuring attention allocation when transitioning from reward to nonreward on a go-no-go task. To achieve these aims, 136 children with ADHD and elevated IACI levels will have their CNS stimulant dose optimized over six weeks and then complete a two week within subjects crossover trial of placebo versus optimal dose. ERP collection will be completed within each blinded week. Parent ratings will be gathered 3 times per day including during peak and off-peak times of medication efficacy to capture the variance in IACI levels within the day and disentangle reports of worsening IACI related to loss of previously beneficial medication effects versus those most likely related to a direct adverse response to medication.
The objective of this study is to utilize high-frequency brain signals (HFBS) to localize functional brain areas and characterize HFBS in epilepsy, migraine, and other brain disorders. Our goal is to create the world's first high-frequency MEG/EEG/ECoG/SEEG database for the developing brain. HFBS include high-gamma activation/oscillations, high-frequency oscillations (HFOs), ripples, fast ripples, spikelets, fast spikelets, and very high-frequency oscillations (VHFOs). While terminologies and frequency bands may vary among reports, both HFOs and high-gamma waves are crucial for understanding brain function and developing potential treatments for neurological disorders. We have been developing an intelligent software platform to analyze signals from low to very high-frequency ranges across multiple frequency bands. To achieve these goals, we have developed several innovative techniques and software packages: * Accumulated spectrogram * Accumulated source imaging * Frequency-encoded source imaging * Multi-frequency analysis at source levels * Artificial intelligence detection of HFOs * Neural network analysis (Graph Theory) * Other techniques (e.g., Independent Component Analysis, virtual sensors) These methods enable researchers to better understand the characteristics and significance of HFOs and high-gamma brain waves, contributing to advancements in the diagnosis and treatment of neurological disorders.
The study will evaluate the effectiveness of a standardized EEG method with the intended clinical users in the intended clinical settings with the intended population (patients who would typically receive a clinician's evaluation for ADHD). Multiple sites will be examined to provide a sample of patients across numerous communities with different demographics. The goal is to evaluate if the predictive accuracy of EEG will not be inferior to that of a widely-used and extensively validated ADHD scale in the prediction of ADHD in the intended use population as evaluated by Best Estimate Diagnosis.
The goal of this study is to test a behavioral program for pregnant individuals with ADHD. This behavioral program focuses on skills for managing ADHD and related symptoms in pregnancy and postpartum. This pilot effectiveness-implementation trial aims to (1) preliminarily evaluate the MomMA behavioral intervention compared to treatment as usual (TAU) on clinical outcomes and (2) evaluate implementation outcomes, including feasibility and acceptability of clinic screening within existing OB workflows; assessment and intervention protocols; provider training/fidelity to manual; and all other study protocols from the perspective of real-world providers and participants.
Phase 3b, Randomized, Double-blind, 8-week, Placebo-controlled Trial to Evaluate the Efficacy and Safety of Centanafadine Once Daily Extended-release Capsules for the Treatment of Adults with Attention-deficit/Hyperactivity Disorder and Comorbid Anxiety
This project aims to develop an adaptation of the Collaborative Life Skills Program (CLS) that will be supported by mHealth technology. CLS is an evidence-based intervention for 2nd-5th grade children with ADHD that is delivered in schools through coordinated efforts among school mental health providers, teachers, and parents. School mental health providers are trained to coordinate evidence-based teacher- (i.e., Daily Behavioral Report Card) and parent-mediated (i.e., Behavioral Parent Training) behavioral interventions, and lead child social and organizational skills training groups. The adapted intervention, which integrates mHealth technology (CLS-M), will improve the usability, feasibility, and acceptability of CLS in schools with limited resources serving children from low-socioeconomic status (SES) and ethnic/racial minority (ERM) backgrounds, reducing disparities in access to evidence-based ADHD interventions in these populations. Barriers to service use in schools where low-SES and ERM families are most likely to receive services include logistical constraints (e.g., time, transportation, childcare, work schedules), perceptual barriers (e.g., cultural mistrust, stigma, perceived efficacy), and insufficient resources (e.g., staff, time, consultation support). Building on prior research, the investigators will develop and test a fully functional web-based mHealth application to support CLS-M that includes an integrated user portal for school mental health providers, teachers, and parents. The application will also include separate interfaces that support key features to facilitate each person's role in CLS implementation at school or at home, such as access to shared information about child assessments, goals, and automatically generated graphs of child Daily Behavioral Report Card performance. Messaging features will facilitate communication among school mental health providers, parents, and teachers, and calendar features that integrate with third- party calendar applications (e.g., Google Calendar) will facilitate scheduling, meeting tracking, and sharing links to third-party videoconferencing applications (e.g., Zoom). Based on stakeholder feedback from school administrators, school mental health providers, teachers, and parents, the investigators will work with mobile application developers to design a fully functional web-based mHealth application prototype to support the CLS-M protocol. the investigators will then test and refine the prototype through a series of individual usability tests and an open feasibility trial. the investigators will also collect formative data from stakeholders in rural schools in Imperial County to inform future research on adapting CLS-M for low-SES and ERM families served in this setting. Finally, the investigators will conduct a Hybrid Type I cluster randomized trial in 24 schools in a large urban school district, to evaluate whether CLS-M results in acceptable implementation outcomes and improved child outcomes in comparison to usual school services. The specific aims are to 1) Develop CLS-M and test its usability, feasibility, and acceptability among key stakeholders; 2) Collect formative data to inform future CLS-M adaptations for families living in rural settings; and 3) Evaluate CLS-M implementation and impact on child outcomes relative to typical school services.
A combination therapy of NRCT-101 with NRCT-202 is being developed for patients with ADHD.
The study will develop and test a behavioral program for pregnant individuals with Attention-Deficit/Hyperactivity Disorder (ADHD). This behavioral program will include skills for managing ADHD and related symptoms during pregnancy and after delivery and will be taught by a behavioral therapist in OB care settings.
The primary goal of the project is to test personalized medication experiments to inform decisions about future medication use. Our central hypothesis is that our intervention will lead to within subject increases in adolescent involvement in decision making and decreases in uncertainty about future medication use. The investigators view this open label trial as a pilot study to test the feasibility, acceptability, and preliminary efficacy of the medication experiment intervention and therefore warrants further testing in a future larger trial.
The goal of this clinical trial is to study the impact of Dyanavel on co-occuring fatigue in adults with Attention Deficit/Hyperactivity Disorder. The main question it aims to answer is whether Dyanavel XR leads to a statistically significant reduction in fatigue compared to placebo, as measured by the Fatigue Symptom Inventory.
The goal of this clinical trial is to evaluate the efficacy and safety of NRCT-101SR compared to placebo in adult patients with ADHD aged 18 years and older.
Background: Children with attention deficit hyperactivity disorder (ADHD) often have cognitive problems. It may be hard for them to control their behaviors, concentrate for long periods, or make decisions. This can affect their education, friendships, and daily life. Virtual reality-based games may help improve cognitive skills in children with ADHD. It may also help change how the brain functions. Objective: To see if virtual reality-based games help improve thinking skills and brain function in children with ADHD. Eligibility: Children aged 8 to 16 years with ADHD. Design: We will first do a pilot study, meaning that everyone will receive the games. If this is successful, we will then conduct a randomized controlled trial, meaning that some participants will be randomly assigned to the full version of the games and some will be randomly assigned to a limited version. Participants will be screened. Their physical and mental health, medical and family history, and intellectual and emotional development will be evaluated. They will have tests of their mood, memory, attention, thinking, and behavior. Blood or saliva may be collected. Participants may have an MRI scan of the brain. Participants will receive a set of virtual reality games. The set includes 4 different games all played using a virtual reality headset. The participant will play the games for 20 minutes 5 days a week for 4 weeks. The parent or caregiver will start each game using an iPad. Each of the games is designed to help the participant practice specific cognitive skills. These include inhibition control, processing speed, temporal information processing, and working memory. Participants will have interviews each week. They will answer questions about motion sickness, eye strain, headache, and any other side effects, as well as number of game sessions played. Blood or saliva tests and the MRI may be repeated after the last game session. For the pilot, participants will have a final interview at the study end. For the full trial, a 1-month follow-up visit will be done by telehealth.
College students with ADHD have significant difficulty effectively managing their time, organizing, planning, and completing their academic work. As a result, they typically have lower grade-point averages, more course failures and withdrawals, are more likely to be placed on academic probation and are less likely to graduate from college than students without ADHD. The purpose of this project is to refine and test a psychological intervention on campus to help students with ADHD develop these self-management skills so that they can be more successful in college and avoid these negative outcomes.
This trial will be conducted to evaluate the efficacy of centanafadine QD XR versus placebo in the treatment of child subjects (4 to 12 years, inclusive) with ADHD. The trial will consist of a screening period, a double-blind treatment period, and follow-up period.
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.
The primary purpose of this trial is to evaluate the safety and tolerability of centanafadine QD XR in pediatric subjects with ADHD.
This trial was conducted to evaluate the efficacy and safety of the Centanafadine once daily (QD) extended release (XR) capsules in adolescent participants (13 - 17 years, inclusive) with attention-deficit/hyperactivity disorder (ADHD).
A double-blind, placebo controlled study of solriamfetol for adults age 18 to 65 with diagnosis of Attention Deficit Hyperactivity Disorder.
Behavioral parent training is an evidence-based treatment for ADHD. The intervention can be implemented individually, or in groups. Currently, group-based parent training programs require considerable coordination, including ascertainment of a large physical space, the coordination of all families traveling to the same location at the same time, and the require for the provision of childcare. Innovations in online connectivity and ease of implementation of online support applications (e.g., Zoom) may reduce these barriers. However, it is necessary to investigate the feasibility and promise of the online approach to ensure it supports parents effectively.
The purpose of this study is to investigate the treatment effectiveness of Adhansia XR at month-2 after initiation, and the effectiveness of Adhansia XR overall and when compared with the active comparator group (Concerta) over time.
The purpose of this study is to document the extent of on-label and off-label use of Methylphenidate (MPH) (Concerta), MPH (Ritalin), Atomoxetine (ATO), and Guanfacine (GFC) in Japan.
The main aim of this study is learn more about long-term TAK-503 treatment in children and teenagers with ADHD for whom earlier stimulant treatment did not work. The study has two parts (A and B). In Part A, participants will take tablets of TAK-503, atomoxetine or placebo and in Part B TAK-503 tablets.
With the pharmacokinetics (PK) of centanafadine currently being evaluated in adults. The PK of extended-release centanafadine may differ in children compared to adults due to physiological differences in the gastrointestinal tract. The information in this trial will support pediatric dose selection in future trials.
The purpose of this study is to assess the effect on driving performance of a single dose of amphetamine extended-release tablets (20 mg/tablet) compared with placebo at 45 minutes and 10 hours post-dose in young adults with ADHD.