View clinical trials related to Executive Functions.
Filter by:The aim of the study is to assess the effects of an intervention using modern board game-based learning in a sample of older individuals. The evaluation will focus on determining if there is a change in executive functions, social participation, and participants' perception of well-being.
How to optimally stimulate the developing brain is still unclear. Executive functions (EF) exhibited substantially stronger far transfer effects in children who learned to play a musical instrument than in children who acquired other arts. What is crucially lacking is a large-scale, long-term genuine randomized controlled trial (RCT) in cognitive neuroscience, comparing musical instrumental training (MIP) to another art form and a control group. Collected data of this proposal will allow, using machine learning, to build a data-driven multivariate model of children's interconnected brain and EF development over the first 2 years of their academic curriculum (6-8 years), with or without music or other art training.
This randomized controlled trial will investigate the hypothesis that since balance and executive functions (EFs) require a similar neural circuit and EFs are recruited when trying to maintain balance, that training balance might improve EFs as well as balance. There will be an active control condition (watching music videos) and a no-treatment condition. Children (18-12 years old) will be randomly assigned to one of these conditions for 12 weeks (36 per condition). The balance and music conditions will involve 15-min sessions 3x/week and a weekly check-in session with an investigator. Participants will be assessed pre-intervention, immediately post and 3-months post.
The proposed study is a pilot study that aims to understand if the Pi Electronics adaptive music intervention (AM) is effective to promote positive psychosocial and cognitive outcomes, over and above a traditional music intervention (TM) among healthy older adults. This study will contribute to the ongoing literature on the benefits of music interventions and provide insight on how emerging technology can enhance the therapeutic effects of music as a viable intervention for older adults. The study will adopt a three-arm randomized controlled trial (RCT). Eligible participants will be randomized into one of three groups: traditional music therapy group (TM), Pi Electronic's adaptive music program (AM), and a waitlist control group (CG). Informed consent will be collected from all participants. All three groups will complete outcome measures at three sessions: pretest, posttest, and at a three-month follow-up, but only the TM and AM group will receive music between the pretest and posttest sessions, spanning for 4 weeks, with 4 music therapy sessions per week, and each session lasting 30 minutes. Data will be analyzed for each outcome variables to understand the group differences in the performance on the psychosocial and cognitive outcome measures. The study will also validate the Pi Electronics EEG headset with the BioSemi, 64-channel EEG system.
Background: Recent studies indicate that exercise-related games can improve executive function, attention processing, and visuospatial skills. Objective: This study investigates whether exercise with exergaming can improve the executive function in patients with metabolic syndrome (MetS). Methods: Twenty-two MetS patients were recruited and randomly assigned to the exergaming group (EXG) and treadmill exercise group (TEG). The reaction time (RT) and electrophysiological signal from the frontal (Fz), central (Cz), and parietal (Pz) cortex were collected during a Stroop task after 12 weeks' exercise.
Age-related cognitive decline affects negatively daily living and quality of life of older adults. Previous research has shown a moderate impact of cognitive and physical training on the cognitive functioning of elders. This randomized controlled trial (RCT) examines the differential impact of multi-domain cognitive (video game training) and physical training (the physical exercise was Body-attack, a mixed of dance, aerobic, strength, and muscular resistance versus cognitive training and physical training separately, on executive control and memory functions of healthy older adults (N=120), in comparison with an active control group. Participants (between 60 and 80 years old) will be allocated randomly to one of the four experimental groups: 1) physical training-single domain: physical training and cognitive control activity; 2) cognitive training-single domain: cognitive training and physical control activity; 3) cognitive-physical multi-domain: physical training and cognitive training; 4) active control: physical control activity and cognitive control activity. Physical training will be group-based and include coordination, aerobic exercise and strength exercise. The physical control activity will include stretching and relaxation exercises. The cognitive training will consist of commercial brain training video games. Difficulty will be automatically adjusted to the performance level of the participant. The cognitive control activity will be cognitively non-demanding video games. Physical activities (experimental and control) will be trained for 40 min and cognitive activities (experimental and control) for 40 min consecutively during the same session. There will be 2 session/wk over 3 months. Executive functioning, memory functions and psychological wellbeing will be assessed using behavioral and electrophysiological measures at baseline, after study completion and at 3-month follow-up. The main goal was to investigate possible intervention-related transfer effects to untrained executive and memory functions. The goal is to find out whether multi-domain training improves more executive and memory functions that are often compromised in later years, but essential for everyday activities. We expect to find larger transfer effects in the multi-domain condition than in the uni-domain conditions, shorter ERP latencies of the P2 component, and enhanced N2 and P3b components after training.
in more than 60% of premature children processing speed and academic failures are observed, even in children with a normal cognitive level. The aim of the study is to use for rehabilitation an application for training functional cognitive skills (Intendu®). It is a software which is able to interact with the patient through a video monitoring feedback (Kinect®), enhancing brain plasticity of patients with brain dysfunction.