The effects of operating height and the passage of time on the end-point performance of fine manipulative tasks that require high accuracy

Authors
Choi, Ho SeonIn, Hyunki
Issue Date
2022-08
Publisher
Frontiers Media S.A.
Citation
Frontiers in Physiology, v.13
Abstract
Sustained shoulder abduction, which results from an inappropriate worktable height or tool shape and long task hours, leads to an accumulation of muscle fatigue and subsequent work-related injuries in workers. It can be alleviated by controlling the table height or ergonomic tool design, but workers who are doing some types of work that require a discomfortable posture, such as minimally invasive surgery, cannot avoid these situations. Loads to the shoulder joint or muscles result in several problems, such as muscle fatigue, deterioration of proprioception or changing movement strategies of the central nervous system, and these are critical to work that requires a high accuracy of the upper extremities. Therefore, in this paper, we designed and conducted an experiment with human participants to discuss how an inappropriate height of the work-table affects the task performance of workers who are performing a fine manipulative task that requires high accuracy of the end point. We developed an apparatus that can control the height and has four touch screens to evaluate the end-point accuracy with two different heights. Eighteen adults (9 women and 9 men) participated in the experiments, and the electromyography of their shoulder muscles, their movement stability, and task performance were measured for the analysis. We found that inappropriate height of a table brings about muscle fatigue, and time elapsed for conducting tasks accelerated the phenomenon. Task performance deteriorated according to increased fatigue, and improved movement stability is not enough to compensate for these situations.
Keywords
MUSCLE FATIGUE; UPPER-EXTREMITY; DYNAMIC STABILITY; TRIAL SIZE; SHOULDER; COCONTRACTION; WORK; VARIABILITY; SIGNALS; FORCE; end point accuracy; muscle fatigue; movement stability; proprioception; shoulder abduction
ISSN
1664-042X
URI
https://pubs.kist.re.kr/handle/201004/114783
DOI
10.3389/fphys.2022.944866
Appears in Collections:
KIST Article > 2022
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