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使用统计参数映射量化背部支撑外骨骼对工作动作的生物力学影响。

Quantifying the biomechanical effects of back-support exoskeletons on work movements using statistical parametric mapping.

作者信息

Riemer Julia, Wischniewski Sascha, Jaitner Thomas

机构信息

Institute for Sport and Sport Science, TU Dortmund University, 44227 Dortmund, Germany.

Federal Institute for Occupational Safety and Health, 44149 Dortmund, Germany.

出版信息

J Safety Res. 2024 Dec;91:492-504. doi: 10.1016/j.jsr.2024.09.010. Epub 2024 Sep 21.

DOI:10.1016/j.jsr.2024.09.010
PMID:39998548
Abstract

INTRODUCTION

In response to physically demanding industrial environments, back-support exoskeletons (BSEs) have emerged as assistive devices. However, their functional interaction with body structures and potential in preventing musculoskeletal disorders (MSDs) remain unclear. The objective of this study was to analyze biomechanical motion sequences throughout the entire process of different work movements and provide a comprehensive assessment of the influence of BSE.

METHOD

Using statistical parametric mapping (SPM) methodology, we examined and quantify the magnitude of significant effects of BSEs on muscle activity (MA) and kinematic movement patterns during lifting, carrying, walking, and static bending in a standardized manner.

RESULTS

Significant changes with large effect sizes were identified during the downward phase of the lifting task, indicating decreased MA in the musculus (M.) biceps femoris and a reduced hip flexion. The usage of BSEs during carrying and walking resulted in a decreased MA of M. biceps femoris during the legs' pre- and mid-swing phases, accompanied by an increased knee and ankle flexion. These changes in MA and kinematics, especially when the BSEs exert pressure on the leg shells through their supporting function, may be indicative of strain in other body regions due to the BSEs.

PRACTICAL APPLICATIONS

We suggest that the evaluated effects may lead to the non-use of BSEs in the workplace and should therefore be considered in the development of alternative BSE designs.

摘要

引言

为应对对体力要求较高的工业环境,背部支撑外骨骼(BSE)已作为辅助设备出现。然而,它们与身体结构的功能相互作用以及预防肌肉骨骼疾病(MSD)的潜力仍不明确。本研究的目的是分析不同工作动作整个过程中的生物力学运动序列,并全面评估BSE的影响。

方法

使用统计参数映射(SPM)方法,我们以标准化方式检查并量化了BSE对举重、搬运、行走和静态弯曲过程中肌肉活动(MA)和运动模式的显著影响程度。

结果

在举重任务的下降阶段发现了具有大效应量的显著变化,表明股二头肌的MA降低以及髋关节屈曲减少。在搬运和行走过程中使用BSE会导致股二头肌在腿部摆动前期和中期的MA降低,同时膝关节和踝关节屈曲增加。MA和运动学的这些变化,特别是当BSE通过其支撑功能对腿部外壳施加压力时,可能表明由于BSE导致身体其他部位的应变。

实际应用

我们建议所评估的影响可能导致工作场所不使用BSE,因此在替代BSE设计的开发中应予以考虑。

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