Cyril Sirandre scite author profile

Several sensorimotor control studies have provided evidence supporting that the central nervous system optimizes gravity effects to minimize muscle effort. Recently, this hypothesis has been supported by the consistent observation of direction-specific negative epochs in the phasic electromyographic signal of antigravity muscles during vertical arm movements. This suggests that gravity torque is harvested to produce some of the arm motion. However, further investigation is needed to more finely understand how the CNS integrates gravity effects into muscle commands. Here, we aimed to analyze the phasic muscular activity across varying movement speeds during horizontal and vertical arm movements. We quantified the amount of negativity during acceleration and deceleration phases for all movement directions during fast, natural, and slow movements. We found that the negativity was more important during the acceleration phase of downward movements and during the deceleration phase of upward movements, resulting in diminished phasic activity compared to horizontal movements. Concomitantly, we found direction-specific effects of movement speed on phasic EMG activity of gravity muscles. This resulted in altered EMG to kinematics relationships in vertical movements compared to horizontal ones. These results support the Effort-minimization hypothesis and confirm that the negativity of phasic EMG is an important aspect of the motor command. Furthermore, the present results reveal that the CNS finely tunes this feature across a range of movement speeds and directions.

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Quantifying Paddling Kinematics through Muscle Activation and Whole Body Coordination during Maximal Sprints of Different Durations on a Kayak Ergometer: A Pilot Study

Garnier

Hilt

Sirandre

et al. 2023

IJERPH

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Paddling technique and stroke kinematics are important performance factors in flatwater sprint kayaking and entail significant energetic demands and a high strength from the muscles of the trunk and upper limbs. The various distances completed (from 200 m to 1000 m) require the athletes to optimize their pacing strategy, to maximize power output distribution throughout the race. This study aimed to characterize paddling technique and stroke kinematics during two maximal sprints of different duration. Nine nationally-trained participants (2 females, age: 18 ± 3 years; BMI: 22.2 ± 2.0 Kg m−1) performed 40 s and 4 min sprints at maximal intensity on a kayak ergometer. The main findings demonstrated a significantly greater mean stroke power (237 ± 80 W vs. 170 ± 48 W; p < 0.013) and rate (131 ± 8 spm vs. 109 ± 7 spm; p < 0.001) during the 40 s sprint compared to the 4 min sprint. Athletes used an all-out strategy for the 40 s exercise and a parabolic-shape strategy during the 4 min exercise. Despite the different strategies implemented and the higher muscular activation during the 40 s sprint, no change in paddling technique and body coordination occurred during the sprints. The findings of the present study suggest that the athletes constructed a well-defined profile that was not affected by fatigue, despite a decrease in power output during the all-out strategy. In addition, they regulated their paddling kinematics during the longer exercises, with no change in paddling technique and body coordination.

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Cyril Sirandre

Improvement of motor performance by observational training in elderly people

Speed-dependent optimization of gravity effects for motor control

Quantifying Paddling Kinematics through Muscle Activation and Whole Body Coordination during Maximal Sprints of Different Durations on a Kayak Ergometer: A Pilot Study

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