Phase-Specific Biomechanical Characterization of Upper Limb Movements in Stroke
Lei Li, Wei Peng, Jingcheng Chen, Shaoming Sun, Junhong Wang

TL;DR
This study identifies phase-specific biomechanical features in stroke patients' upper limb movements that could improve rehabilitation assessment and treatment.
Contribution
The study introduces phase-specific biomechanical metrics and a novel torque-based co-contraction index for stroke assessment.
Findings
Phase-specific metrics correlated significantly with clinical motor impairment scores in stroke patients.
Stroke patients showed reduced output capacity, increased torque fluctuations, and abnormal co-contraction patterns.
A quadratic support vector machine achieved 84.6% accuracy in classifying stroke patients using phase-specific features.
Abstract
Stroke often leads to persistent upper limb dysfunction that impairs activities of daily living, yet objective biomechanical indicators for precise assessment remain limited. This study aimed to characterize phase-specific impairments in energy output, torque stability, and muscle coordination during the hand-to-mouth (HTM) task and to explore their potential for improving rehabilitation evaluation. Motion data from 20 stroke patients and 20 healthy controls were recorded using wearable surface electromyography and inertial measurement unit systems. A musculoskeletal model was applied to calculate joint torque, mechanical work, torque smoothness, and a novel torque-based co-contraction index across four movement subphases. These phase-specific metrics demonstrated significant correlations with clinical motor impairment scores, confirming their clinical validity. Significant dynamic…
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Taxonomy
TopicsMuscle activation and electromyography studies · Motor Control and Adaptation · Effects of Vibration on Health
