Scientific Reports (Sep 2023)

Neuromotor variability partially explains different endurance capacities of expert pianists

  • Etienne Goubault,
  • Craig Turner,
  • Robin Mailly,
  • Mickaël Begon,
  • Fabien Dal Maso,
  • Felipe Verdugo

DOI
https://doi.org/10.1038/s41598-023-42408-3
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 14

Abstract

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Abstract During fatiguing piano tasks, muscle fatigue develops differently between expert pianists. Differences in neuromotor strategies employed could explain a slower rate of fatigue development. The objective was to compare muscle activation and kinematic variabilities between ShortDuration (i.e., pianists with less endurance) and LongDuration groups. Results from 49 pianists showed that EMG activation variability of most shoulder and upper limbs muscles was greater for the ShortDuration group with time during two piano fatiguing tasks, namely Digital and Chord tasks. Segment acceleration variability, assessed using inertial measurement units, was also greater with time for the ShortDuration group at the right arm during the Digital task, and at the thorax and head during the Chord task. Finally, thorax lateroflexion variability increased with time for the LongDuration group (but not the ShortDuration group) during the Digital task. During the Chord task, wrist flexion variability was higher for the LongDuration group compared to the ShortDuration group. These results showed a direct effect of time on the pianists’ acceleration variability and EMG activation variability. In contrast, a protective effect of fatigue development could be attributed to kinematic variability. Results also suggest a higher risk of injury among pianists in the ShortDuration group.