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Abstract
Increased movement variability has been suggested to reduce the risk of developing musculoskeletal disorders caused by repetitive work. This study investigated the effects of work pace on arm movement variability in a standardised repetitive pipetting task performed by 35 healthy women. During pipetting at slow and fast paces differing by 15%, movements of arm, hand and pipette were tracked in 3D, and used to derive shoulder and elbow joint angles. The size of cycle-to-cycle motor variability was quantified using standard deviations of several kinematics properties, while the structure of variability was quantified using indices of sample entropy and recurrence quantification analysis. When pace increased, both the size and structure of motor variability in the shoulder and elbow decreased. These results suggest that motor variability drops when repetitive movements are performed at increased paces, which may in the long run lead to undesirable outcomes such as muscle fatigue or overuse.
Abstract
Practitioner Summary: The size and structure of motor variability are associated with important outcomes in repetitive work, such as fatigue, pain and the risk of developing musculoskeletal disorders. Motor variability decreased when the pace of repetitive work was increased, indicating higher risks of developing undesirable outcomes such as muscle fatigue or overuse.
Acknowledgements
We would like to acknowledge the contributions of Nisse Larsson and Majken Rahm for their assistance in the collection of data.
Conflict of interest
The sponsors did not influence the collection, analysis and interpretation of data, writing of the manuscript or the decision to submit the manuscript for publication.