在体力和认知要求较高的任务中使用上肢外骨骼的性别差异--随机实验的研究方案。

IF 2.7 3区 医学 Q2 CLINICAL NEUROLOGY Frontiers in Neurology Pub Date : 2024-10-18 eCollection Date: 2024-01-01 DOI:10.3389/fneur.2024.1401937
Bettina Wollesen, Julia Gräf, Lasse Hansen, Anna Gurevich, Shirley A Elprama, Andreas Argubi-Wollesen, Kevin De Pauw
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引用次数: 0

摘要

背景:建议使用上肢外骨骼来缓解肌肉疲劳,尤其是在高空作业等引起肌肉骨骼不适的工作环境中。然而,穿戴外骨骼可能会带来认知运动干扰,影响工作表现。了解外骨骼对神经的影响以及设计效应中潜在的性别差异至关重要。因此,本研究的目的是研究外骨骼的影响,进行跨性别比较,并探索在真实世界场景中对认知和体力工作量的影响。研究问题涉及使用外骨骼对肌肉协同作用、上半身姿势、认知资源、舒适度/不适感、接受度和可用性的影响:横断面研究采用多因素混合测量设计。参与者按性别(女性与男性)和工作条件(有外骨骼与无外骨骼)分组。将对运动表现和潜在的神经元相关因素(fNIRS)进行分析。根据事先计算的样本量,将招募 80 名参与者(40 名女性/40 名男性)。工作表现将通过 1. 身体表现任务(PILE 任务)和 2.精确度任务(采用菲茨范式),同时使用 Xsens 运动捕捉系统监控身体姿势。大脑激活情况将通过由 32 个活动光点组成的 fNIRS 系统进行捕捉。姿势舒适度/不适度、接受度和可用性将通过标准化问卷进行报告:该研究将深入了解外骨骼使用中的潜在性别差异,并通过考虑肌肉协同作用、运动可变性和认知资源分配,为设计和优化外骨骼的实施做出贡献。此外,该研究还强调了使用者的不适感,这是一个可能阻碍外骨骼在现实世界中被广泛采用(尤其是女性)的关键因素。
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Gender differences in the use of an upper-extremity exoskeleton during physically and cognitively demanding tasks- a study protocol for a randomized experimental trial.

Background: Upper limb exoskeletons are recommended to alleviate muscle fatigue, particularly in working conditions inducing musculoskeletal discomfort like overhead work. However, wearing an exoskeleton might introduce cognitive-motor interference, affecting performance. Understanding its neural impact and potential gender differences in design effects is crucial. Therefore, the aim of this study is to examine exoskeleton effects addressing cross-gender comparisons, and exploring the impact on cognitive and physical workload in real-world scenarios. The research questions address the impact of exoskeleton use on muscle synergies, upper body posture, cognitive resources, comfort/discomfort, acceptance and usability.

Methods: The cross-sectional study integrates a multifactorial mixed-measure design. Participants are grouped by gender (female vs. male) and working condition (with vs. without exoskeleton). Motor performance and underlying neuronal correlates (fNIRS) will be analyzed. Based on an a priori sample size calculation, 80 participants (40 female/40 male) will be recruited. Working performance will be assessed by 1. Physical Performance Task (PILE task) and 2. Precision Task (following the Fitts paradigm), while body postures will be monitored with an Xsens motion capture system. Brain activation will be captured with an fNIRS system comprising 32 active optodes. Postural comfort/discomfort, acceptance, and usability will be reported via standardized questionnaires.

Discussion: The study will gain insights into potential gender differences in exoskeleton use and will contribute to designing and optimizing the implementation of exoskeletons by considering muscle synergies, movement variability and cognitive resource allocation. Additionally, the study also highlights user discomfort, a crucial factor that could impede widespread adoption, particularly among females, in real-world scenarios.

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来源期刊
Frontiers in Neurology
Frontiers in Neurology CLINICAL NEUROLOGYNEUROSCIENCES -NEUROSCIENCES
CiteScore
4.90
自引率
8.80%
发文量
2792
审稿时长
14 weeks
期刊介绍: The section Stroke aims to quickly and accurately publish important experimental, translational and clinical studies, and reviews that contribute to the knowledge of stroke, its causes, manifestations, diagnosis, and management.
期刊最新文献
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