Effects of Back Support Exoskeleton Use on Postural Stability

While occupational back support exoskeletons (BSEs) are being considered as a potential intervention to reduce physical demands in tasks such as repetitive lifting (e.g., Frost, Abdoli-E, & Stevenson, 2009; Koopman, Kingma, Faber, de Looze, & van Dieën, 2019), BSE use in practice may introdu...

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Bibliographic Details
Published in:Proceedings of the Human Factors and Ergonomics Society Annual Meeting 2019-11, Vol.63 (1), p.1088-1089
Main Authors: Park, Jang-Ho, Kim, Sunwook, Nussbaum, Maury A., Srinivasan, Divya
Format: Article
Language:English
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Summary:While occupational back support exoskeletons (BSEs) are being considered as a potential intervention to reduce physical demands in tasks such as repetitive lifting (e.g., Frost, Abdoli-E, & Stevenson, 2009; Koopman, Kingma, Faber, de Looze, & van Dieën, 2019), BSE use in practice may introduce some unexpected or unintended safety challenges (Baltrusch, van Dieën, van Bennekom, & Houdijk, 2018; de Looze, Bosch, Krause, Stadler, & O’Sullivan, 2016). One potential adverse effect is a decrease in postural balance and stability due to the extra weight and the rigid structure of a BSE. However, there is limited empirical evidence on how the use of a BSE affects postural balance and stability. In this study, we investigated the effects of using different BSEs on postural balance and stability during quiet upright stance. A total of 20, gender-balanced, healthy participants were included [males = 25.2 (3.8) years, 176.4 (7.4) cm, and 76.6 (8.8) kg; females = 27.5 (2.7) years, 166.5 (5.4) cm, and 61.2 (8.6) kg]. Each completed multiple trials of quiet upright stance at different levels of difficulty (i.e., bipedal and unipedal stance; each with eyes open and closed), while wearing two different BSEs (SuitX™ AC version, Laevo™ V2) and in a control (no-exoskeleton) condition. Respective masses of the SuitX™ and Laevo™ were 4.5 and 2.8 kg, and both devices were designed to provide external torque parallel to that created by the torso extensor muscles via three body contact points (i.e., thighs, pelvis, and chest). Center-of-pressure (COP) time series were measured using a force-plate during each trial, and traditional COP-based postural sway parameters were used as outcome measures: median frequency (MF), mean velocity (MV), root-mean-square distance (RMSD), and sway area. MF, MV, and RMSD values were obtained in both the anteroposterior (AP) and mediolateral (ML) directions. As MV, RMSD, and SwayAREA were significantly correlated with participant height, these measures were normalized using respective linear regression models to prevent undesired bias. Results from repeated measures analyses of variance indicated that wearing BSEs may adversely affect postural stability during bipedal stance. Compared to the control condition, wearing the Laevo™ increased MFAP by 50% (p=0.015) with eyes open, and wearing the SuitX™ increased MVAP by 7% (p=0.029) with eyes closed. However, specific to the unipedal standing with eyes closed, wearing the Laevo™ appeared to positively af
ISSN:2169-5067
1071-1813
2169-5067
DOI:10.1177/1071181319631485