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NCT04784832
The general purpose of this research project is to analyze the specific role of motor imagery on motor learning, assessed through corticospinal excitability measurements and behavioral data collection. This project is based on four sequences. For Sequence 1, the main objective is to examine the effect of mental training on movement speed and accuracy in a manual motor sequence task, as well as the influence of sensory feedback in immediate post-test (i.e., execution of a similar, but not identical, manual motor sequence, other manual tasks) on performance in delayed post-test. The secondary objective will be to examine corticospinal changes (i.e., amplitude of motor evoked potentials) induced by mental training, by measuring the amplitude of motor evoked potentials before and after mental training. For Sequence 2, the main objective is to examine the impact of a motor disturbance induced by a robotic arm at different intervals during the motor imagery process. The secondary objective will be to examine the corticospinal changes (i.e. amplitude of evoked motor potentials) induced by mental training as a function of the applied perturbations, before and after perturbation. For Sequence 3, the main objective will be to examine the influence of neuroplasticity on the quality of mental training. More specifically, the investigators will study the links between brain plasticity and motor learning through mental training. The secondary objective will be to examine the corticospinal changes (i.e. amplitude of evoked motor potentials) induced by mental training at different levels of the neuromuscular system (cortical, cervicomedullar, peripheral) after a training period. For Sequence 4, the main objective will be to examine the effect of short-term arm-immobilization of on the retention of motor learning induced by mental training. The secondary objective will be to examine the corticospinal changes (i.e., amplitude of motor evoked potentials) induced by of short-term arm-immobilization, or by transcranial direct current stimulation (tDCS), on motor learning. The results of this fundamental research project will allow a better understanding of neurophysiological and behavioral mechanisms that underlie motor learning through motor imagery. The results will allow to efficiently consider inter-individual specificities and will thus open up to clinical research perspectives, towards the establishment of adapted motor rehabilitation protocols.
NCT07379346
This single-blind randomized controlled trial investigates the effects of a virtual reality-assisted exercise program added to routine hockey training on balance, functional ankle dorsiflexion, agility, and shooting performance in youth hockey players. Participants are randomly assigned to either routine training alone or routine training plus a 6-week virtual reality-assisted exercise intervention delivered via the Nintendo Wii Balance Board. Outcomes are assessed at baseline, post-intervention, and at 3-week follow-up by a blinded assessor.
NCT02813291
The mental repetition of movements - or motor imagery (MI) practice - facilitates motor learning. It allows avoiding fatigue that occurs during physical practice; this method is thus particularly interesting for elderly people. Transcranial direct current stimulation (tDCS) is a noninvasive method of neurostimulation during which a low direct current is applied to the brain via electrodes placed on the scalp. This method has been successfully used to enhance motor learning in both young and elderly subjects. The main aim of this study is to assess the impact of MI practice combined with tDCS on the learning of a complex finger sequence, in young and elderly subjects. For that purpose, young and elderly healthy subjects will be randomly assigned to Stimulation and Sham groups. There will thus be a total of four groups: Young Stim, Young Sham, Elderly Stim, and Elderly Sham. All subjects will participate to three training sessions spread over five days, and a retention test one week after the third training session. During training they will mentally repeat a complex finger sequence with the left hand, for 13 min: * Subjects of the Stimulation groups (Young Stim and Elderly Stim) will receive in parallel an anodal tDCS of the primary motor cortex. * Subjects of the Sham groups (Young Sham and Elderly Sham) will receive in parallel a sham tDCS of the primary motor cortex. Immediately before (pretest) and after (posttest) each training session, as well as during the retention test, subjects will repeat the sequence as many times of possible, for 1 min. During these tests (pretests, posttests and retention test) electroencephalographic activity will be recorded to assess the Mu rhythm power.
NCT06414213
The primary goal of this research was to assess the practicality and initial effectiveness of a motor imagery (MI) intervention combined with elements of action observation (AO), alongside active or sham transcranial direct current stimulation (tDCS) over the prefrontal cortex (PFC), on locomotor learning in healthy adults. Feasibility was determined by examining recruitment rates, participant engagement, and safety measures. The efficacy of the intervention was gauged by analyzing the time taken to complete tasks and changes in cerebral blood flow immediately after the intervention and one week later. The study was guided by three main hypotheses: (1) the intervention techniques would be well-received and safe for the participants; (2) compared to a control group, MI training would lead to better learning outcomes and retention of learning; (3) in comparison to the control and sham tDCS groups, active tDCS would result in superior learning outcomes and retention of learning.
NCT04921072
The project aims at providing a better understanding of motor skill acquisition and learning processes. The primary objectives of the study are to determine how practice conditions, i.e., variable and constant practice conditions, in motor learning affect Central Nervous System. There are three objectives: 1. to determine functional changes following constant and variable practice conditions in motor learning (resting-state fMRI) 2. to determine the EEG activation and connectivity between cognitive, sensory, and motor cerebral cortex areas (central, temporal, parietal, occipital) in constant and variable practice conditions and as a function of practice time.
NCT04690244
30 healthy older participants were enrolled in the study and were randomly classified into two groups. In the experimental group (n = 15) participants received 10-week Tai Chi Chuan practice intervention, in the control group (n=15) participants were asked do not change their living habits in 10 weeks. All participants had no practice Tai Chi Chuan before.
NCT02189564
The effect of rewarding vs. non-rewarding feedback on acquisition of a motor skill is investigated in a single blinded parallel group design. Reward consists of performance dependent monetary reward, or of knowledge of performance in selected (above average) trials. The investigators hypothesize improved motor skill learning and higher involvement of the dopaminsrgic system under rewarding vs. non-rewarding conditions.