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一种作业型肩部外骨骼在进行头顶作业时可减少肌肉活动和疲劳。

An Occupational Shoulder Exoskeleton Reduces Muscle Activity and Fatigue During Overhead Work.

出版信息

IEEE Trans Biomed Eng. 2022 Oct;69(10):3008-3020. doi: 10.1109/TBME.2022.3159094. Epub 2022 Sep 19.

DOI:10.1109/TBME.2022.3159094
PMID:35290183
Abstract

OBJECTIVE

This paper assesses the effect of a passive shoulder exoskeleton prototype, Exo4Work, on muscle activity, muscle fatigue and subjective experience during simulated occupational overhead and non-overhead work.

METHODS

Twenty-two healthy males performed six simulated industrial tasks with and without Exo4Work exoskeleton in a randomized counterbalanced cross-over design. During these tasks electromyography, heart rate, metabolic cost, subjective parameters and performance parameters were acquired. The effect of the exoskeleton and the body side on these parameters was investigated.

RESULTS

Anterior deltoid activity and fatigue reduced up to 16% and 41%, respectively, during isometric overhead work, and minimized hindrance of the device during non-overhead tasks. Wearing the exoskeleton increased feelings of frustration and increased discomfort in the areas where the exoskeleton and the body interfaced. The assistive effect of the exoskeleton was less prominent during dynamic tasks.

CONCLUSION

This exoskeleton may reduce muscle activity and delay development of muscle fatigue in an overhead working scenario. For dynamic applications, the exoskeleton's assistive profile, which mimics the gravitational torque of the arm, is potentially sub-optimal.

SIGNIFICANCE

This evaluation paper is the first to report reduced muscle fatigue and activity when working with an occupational shoulder exoskeleton providing one third of the gravitational torque of the arm during overhead work. These results stress the potential of occupational shoulder exoskeletons in overhead working situations and may direct towards longitudinal field experiments. Additionally, this experiment may stimulate future work to further investigate the effect of different assistive profiles.

摘要

目的

本文评估了一种被动式肩部外骨骼原型 Exo4Work 在模拟职业性上肢和非上肢作业时对肌肉活动、肌肉疲劳和主观体验的影响。

方法

22 名健康男性以随机交叉平衡设计的方式,在使用和不使用 Exo4Work 外骨骼的情况下完成了 6 项模拟工业任务。在这些任务中,采集了肌电图、心率、代谢成本、主观参数和性能参数。研究了外骨骼和身体侧面对这些参数的影响。

结果

在等长上肢作业中,前三角肌的活动和疲劳分别减少了 16%和 41%,并且在非上肢作业中最大限度地减少了设备的阻碍。佩戴外骨骼会增加挫败感,并增加外骨骼和身体接口区域的不适感。在动态任务中外骨骼的辅助效果不那么明显。

结论

这种外骨骼可能会减少上肢作业场景中的肌肉活动和肌肉疲劳的发展。对于动态应用,外骨骼的辅助轮廓模仿手臂的重力扭矩,可能不太理想。

意义

本文是第一篇报告在使用提供手臂三分之一重力扭矩的职业性肩部外骨骼进行上肢工作时,肌肉疲劳和活动减少的评估论文。这些结果强调了职业性肩部外骨骼在上肢工作环境中的潜力,并可能指导进行纵向现场实验。此外,这项实验可能会激发未来的研究进一步探讨不同辅助轮廓的效果。

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