在使用顺应式系统和刚性系统进行负载搬运时，躯干和骨盆的运动学发生了变化。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-13 DOI:10.1080/00140139.2024.2390125

Anders Lundervold, Matthew Ellison, Klavs Madsen, Amelie Werkhausen, Hannah Rice

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引用次数: 0

摘要

负重运输是徒步旅行和军事活动的关键组成部分。负重系统（LCS）的设计会影响运动表现和受伤风险。本研究旨在比较传统和顺应式负重系统在步行和上台阶任务中的表现，以量化耗氧量和躯干-骨盆运动学方面的差异。14 名参与者分别使用刚性和顺应性 LCS 完成了负重 16 公斤的任务。在这两项任务中，不同条件下的耗氧量没有差异（P > 0.05）。在行走过程中，携带顺应性 LCS 时，躯干-骨盆轴向旋转（p = 0.041）和侧屈（p = 0.001）的运动幅度明显更大；在上台阶任务中，躯干-骨盆侧屈的运动幅度明显更大（p = 0.003）。与传统的刚性系统相比，使用顺应性负重系统负重 16 公斤可获得更大的侧屈活动范围，且不会影响氧气摄入量。

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Altered trunk-pelvis kinematics during load carriage with a compliant versus a rigid system.

Load carriage is a key component of hiking and military activity. The design of the load carriage system (LCS) could influence performance and injury risk. This study aimed to compare a traditional and a compliant LCS during walking and a step-up task to quantify differences in oxygen consumption and trunk-pelvis kinematics. Fourteen participants completed the tasks whilst carrying 16 kg in a rigid and a compliant LCS. There were no differences in oxygen consumption between conditions during either task (p > 0.05). There was significantly greater trunk-pelvis axial rotation (p = 0.041) and lateral flexion (p = 0.001) range of motion when carrying the compliant LCS during walking, and significantly greater trunk-pelvis lateral flexion range of motion during the step-up task (p = 0.003). Carrying 16 kg in a compliant load carriage system results in greater lateral flexion range of motion than a traditional, rigid system, without influencing oxygen uptake.

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464