Myoelectric, Myo-Oxygenation, and Myotonometry Changes during Robot-Assisted Bilateral Arm Exercises with Varying Resistances

Hsiao Lung Chan, Ling Fu Meng, Yung An Kao, Ya Ju Chang*, Hao Wei Chang, Szi Wen Chen, Ching Yi Wu*

*Corresponding author for this work

Research output: Contribution to journalJournal Article peer-review

Abstract

Robot-assisted bilateral arm training has demonstrated its effectiveness in improving motor function in individuals post-stroke, showing significant enhancements with increased repetitions. However, prolonged training sessions may lead to both mental and muscle fatigue. We conducted two types of robot-assisted bimanual wrist exercises on 16 healthy adults, separated by one week: long-duration, low-resistance workouts and short-duration, high-resistance exercises. Various measures, including surface electromyograms, near-infrared spectroscopy, heart rate, and the Borg Rating of Perceived Exertion scale, were employed to assess fatigue levels and the impacts of exercise intensity. High-resistance exercise resulted in a more pronounced decline in electromyogram median frequency and recruited a greater amount of hemoglobin, indicating increased muscle fatigue and a higher metabolic demand to cope with the intensified workload. Additionally, high-resistance exercise led to increased sympathetic activation and a greater sense of exertion. Conversely, engaging in low-resistance exercises proved beneficial for reducing post-exercise muscle stiffness and enhancing muscle elasticity. Choosing a low-resistance setting for robot-assisted wrist movements offers advantages by alleviating mental and physiological loads. The reduced training intensity can be further optimized by enabling extended exercise periods while maintaining an approximate dosage compared to high-resistance exercises.

Original languageEnglish
Article number1061
JournalSensors
Volume24
Issue number4
DOIs
StatePublished - 06 02 2024

Bibliographical note

Publisher Copyright:
© 2024 by the authors.

Keywords

  • electromyogram
  • exercise intensity
  • heart rate
  • mental fatigue
  • muscle fatigue
  • muscular oxygenation
  • myotonometry
  • robot-assisted bilateral arm training
  • Humans
  • Exercise/physiology
  • Robotics
  • Exercise Therapy
  • Adult
  • Upper Extremity
  • Arm

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