What question did this study set out to answer?

The aim was to analyze the effects of submaximal fatigue on fine motor performance and recovery time.

March 1, 2026

Recovery of fine motor control after submaximal wrist fatigue.

Puntos clave

The aim was to analyze the effects of submaximal fatigue on fine motor performance and recovery time.
Nineteen males performed a hand tracking task using a haptic wrist robot.
Submaximal fatigue was induced with resistance at 40% maximal voluntary isometric wrist force.
Performance was assessed before and after fatigue at various recovery intervals (0-10 minutes).
Grip force decreased by 12% immediately after fatigue and remained below baseline for 10 minutes.
Tracking error increased by 23%, figural error by 19%, and jerk ratio by 27% immediately post-fatigue.
All performance measures had normalized by 4 minutes into the recovery period.

Resumen

This study investigated how a repeated submaximal hand tracking task affects fine motor performance and short-term recovery. Nineteen males traced a 2:3 Lissajous curve using a haptic wrist robot both pre- and post-fatigue. The fatigue protocol was the same task with resistance applied to the handle of the robot at 40% maximal voluntary isometric wrist force. Performance was measured at baseline and at seven intervals during recovery (0, 1, 2, 4, 6, 8, and 10 minutes). The fatigue protocol led to a 12% decrease in grip force and remained below baseline at 10 minutes. Movement quality, quantified by tracking error, figural error, and jerk ratio, increased by 23%, 19%, and 27%, immediately following fatigue but normalised by 4 minutes. This work highlights how submaximal forearm muscle fatigue can temporarily compromise hand tracking ability but suggests that movement accuracy and smoothness recover rapidly with rest.

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Recovery of fine motor control after submaximal wrist fatigue.

Puntos clave

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