A method to quantify the reduction of back and hip muscle fatigue of lift-support exoskeletons.

IF 3.4 Q2 ENGINEERING, BIOMEDICAL Wearable technologies Pub Date : 2023-01-23 eCollection Date: 2023-01-01 DOI:10.1017/wtc.2022.32
Rachel M van Sluijs, David Rodriguez-Cianca, Clara B Sanz-Morère, Stefano Massardi, Volker Bartenbach, Diego Torricelli
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Abstract

Cumulative back muscle fatigue plays a role in the occurrence of low-back injuries in occupations that require repetitive lifting of heavy loads and working in forward leaning postures. Lift-support exoskeletons have the potential to reduce back and hip muscle activity, thereby delaying the onset of fatigue in these muscles. Therefore, exoskeletons are being considered a potentially important tool to further reduce workload-related injuries. However, today no standards have been established on how to benchmark the support level of lift-support exoskeletons. This work proposes an experimental protocol to quantify the support level of a lift-support exoskeletons on instant changes in muscle activity and fatigue development while maintaining a static forward leaning posture. It then applies the protocol to experimentally assess the effect of the support provided by a commercially available lift-support exoskeleton, the LiftSuit 2.0 (Auxivo AG, Schwerzenbach, Switzerland), on the user. In a sample of 14 participants, the amplitude of the muscle activity of the back muscles and hip muscles () was significantly reduced. Wearing the exoskeleton significantly reduced the amount of fatigue developed during the task (). Changes in muscle fatigue can be objectively recorded and correlated with relevant changes for exoskeleton users: the time a task can be performed and perceived low-back fatigue. Thus, including such measures of fatigue in standardized benchmarking procedures will help quantify the benefits of exoskeletons for occupational use.

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一种量化升降支撑外骨骼减少背部和臀部肌肉疲劳的方法
摘要在需要重复举起重物和以前倾姿势工作的职业中,累积性背部肌肉疲劳在下背部损伤的发生中起着一定作用。升力支撑外骨骼有可能减少背部和臀部肌肉的活动,从而延缓这些肌肉疲劳的发作。因此,外骨骼被认为是进一步减少工作量相关损伤的潜在重要工具。然而,目前还没有建立关于如何基准测试升力支撑外骨骼的支撑水平的标准。这项工作提出了一个实验方案,以量化在保持静态前倾姿势的同时,提升支撑外骨骼对肌肉活动和疲劳发展的即时变化的支撑水平。然后,它应用该方案来实验评估由市售的升降支撑外骨骼LiftSuit 2.0(Auxivo AG,Schwerzenbach,Switzerland)提供的支撑对用户的影响。在一个由14名参与者组成的样本中,背部肌肉$\left({\Delta}_{\mathrm{erectorspinae},\ mathrm{胸椎}\hskip0.35em=\hskip0.3em 33.0\%,{\deleta}_{\math rm{creatorspinae},\ matherm{腰椎}\hs kip0.35em=\hskip 0.35em 13.2\%\right)$和臀部肌肉(${\del}_{\mathrm{臀大肌}\ hskip0.35 em=\hs kip0.35em 16.3\%$)的肌肉活动幅度显著降低。佩戴外骨骼显著减少了任务期间产生的疲劳量(${\Delta}_{\mathrm{quadratuslumbolum}\hskip0.35em=\hskip0.35em10.1\%,{\Delta}_{/mathrm{臀大肌}}\hschip0.35em=\hskip30.35em44.0\%$)。肌肉疲劳的变化可以被客观地记录下来,并与外骨骼用户的相关变化相关联:可以执行任务的时间和感知的腰痛。因此,将这种疲劳测量纳入标准化的基准程序将有助于量化外骨骼在职业使用中的益处。
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来源期刊
CiteScore
5.80
自引率
0.00%
发文量
0
审稿时长
11 weeks
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