The aim of this study is to investigate the impact of an acute intense physical exercise bout on the learning ability of children with typical motor development (TD) and children with developmental coordination disorder (DCD). The effects will be studied during the learning and in the short- (1 hour), medium- (24 hours), and long-terms (7 days) after the initial learning. Participants will be divided into 4 groups: children with typical development who will exercise (EX-TD), children with developmental coordination disorder who will exercise (EX-DCD), children with typical development who will not exercise (CON-TD), and children with developmental coordination disorder who will not exercise (CON-DCD). Participants will be enrolled for 4 different sessions: Session 1: First, participants will do a test to asses their cognitive ability and their height and weight will be measured. Then, participants will run a race test to assess their level of physical condition and to calculate high and moderate intensities of the exercise bout. The test will consist of running from one side to the other of a 20 m long track, while following the rhythm set by a sound. Session 2: at least 48 hours after the first one, the participants will do an exercise bout running from side to side of a 20 m long track alternating high and moderate intensities during 13 min. The members of the control groups (CON-TD and CON-DCD) will not perform this exercise and, instead, will remain at rest for a time equivalent to the exercise of the other groups. On the other hand, participants will perform a learning task involving hand-eye coordination, in which participants will control the movements of a circle on a computer screen using a joystick. The objective of this task will be to move the circle to target points that will appear on the screen with the maximum accuracy and speed possible. Participants will be asked to practice this task for approximately 8 min. Then, after a 1-hour rest period, the participants will be asked to perform the learning task again (only 3.5 min) to check the level of retention of the initial learning. A headcap will be adjusted on the head of the participants during the motor task performance to measure the activity of the brain through infrared light. Sessions 3 and 4: participants will complete two retention tests of the learning task (one in each session) 24 hours and 7 days after the second session, respectively. Participants will also wear the headcap for the brain activity measurements.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
120
The acute intense aerobic exercise bout (iE) will consist of a 13-minute 20-meter shuttle run. During this exercise bout two speeds, based on a percentage of the estimated maximal oxygen consumption (VO2max), will be combined: a fast-paced speed (fast: 85% of VO2max) and a slow-paced speed (slow: 60% VO2max). A total of 3 series of 3 min of the fast-paced speed will be carried interspersed with 2 series of 2 min of the slow-paced speed. Prior to the iE start, a warm-up protocol consisting of 2 min slow and 1 min fast will be done with the objective to familiarize participants with the iE speeds. A 5-minute rest period will be guaranteed before starting the iE. Transition time between iE and the rotational visuomotor adaptation task (rVMA) will be 4 min.
Escola Bosc de Montjuïc
Barcelona, Spain
RECRUITINGEscola Ramon Casas
Barcelona, Spain
RECRUITINGEscola Seat
Barcelona, Spain
RECRUITINGinitial directional error
Initial directional error (IDE) will be calculated as the absolute angular difference between the ideal trajectory, a linear vector from the center to the target, and the early real trajectory, defined by the linear vector from the center to the cursor position at the time of 80 ms after movement onset.
Time frame: 0, 1, and 24 hours, and 7 days
root mean square error
Root mean square error (RMSE) will be calculated to represent the straightness of the movement between the ideal trajectory and the real joystick trajectory.
Time frame: 0, 1, and 24 hours, and 7 days
initial rate of learning
The initial rate of learning (RL) will be computed as the first derivative of the first half of the function and evaluated at epoch 1 for both error variables initial directional error (RL-IDE) and root mean square error (RL-RMSE).
Time frame: 0, 1, and 24 hours, and 7 days
relative oxyhemoglobin concentration ([02Hb]) in the ventrolateral prefrontal cortex
Neural activation of each cortical area will be expressed as a relative increase of oxyhemoglobin concentration (\[02Hb\]) measured by functional near-infrared spectroscopy (fNIRS).
Time frame: 0, 1, and 24 hours, and 7 days
relative oxyhemoglobin concentration ([02Hb]) in the dorsolateral prefrontal cortex
Neural activation of each cortical area will be expressed as a relative increase of oxyhemoglobin concentration (\[02Hb\]) measured by functional near-infrared spectroscopy (fNIRS).
Time frame: 0, 1, and 24 hours, and 7 days
relative deoxyhemoglobin concentration ([HHb]) in the ventrolateral prefrontal cortex
Neural activation of each cortical area will be expressed as a relative decrease of deoxyhemoglobin concentration (\[HHb\]) measured by functional near-infrared spectroscopy (fNIRS).
Time frame: 0, 1, and 24 hours, and 7 days
relative deoxyhemoglobin concentration ([HHb]) in the dorsolateral prefrontal cortex
Neural activation of each cortical area will be expressed as a relative decrease of deoxyhemoglobin concentration (\[HHb\]) measured by functional near-infrared spectroscopy (fNIRS).
Time frame: 0, 1, and 24 hours, and 7 days
movement time
Time spend moving the cursor from its initial position to its final position
Time frame: 0, 1, and 24 hours, and 7 days
travel distance
Displacement of the cursor from its initial position to its final position
Time frame: 0, 1, and 24 hours, and 7 days
reaction time
Reaction time will be defined as the time between target appearance and movement onset.
Time frame: 0, 1, and 24 hours, and 7 days
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