跑步机皮带加速可能无法准确复制老年人在绊倒障碍物时的运动学反应。

Treadmill belt accelerations may not accurately replicate kinematic responses to tripping on an obstacle in older people.

作者信息

Jung Dayeon C, Sturnieks Daina L, McDonald Kirsty A, Song Patrick Y H, Davis Michael K, Lord Stephen R, Okubo Yoshiro

机构信息

Falls, Balance and Injury Research Centre, Neuroscience Research Australia, Sydney, Australia.

School of Medical Sciences, University of New South Wales, Sydney, Australia.

出版信息

PLoS One. 2025 Jan 9;20(1):e0312261. doi: 10.1371/journal.pone.0312261. eCollection 2025.

DOI:10.1371/journal.pone.0312261

PMID:39787054

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11717211/

Abstract

BACKGROUND

Treadmill belt perturbations have high clinical feasibility for use in perturbation-based training in older people, but their kinematic validity is unclear. This study examined the kinematic validity of treadmill belt accelerations as a surrogate for overground walkway trips during gait in older people.

METHODS

Thirty-eight community-dwelling older people were exposed to two unilateral belt accelerations (8 m s-2) whilst walking on a split-belt treadmill and two trips induced by a 14 cm trip-board whilst walking on a walkway with condition presentation randomised. Anteroposterior margin of stability (MoS), number of falls, and trunk and lower limb kinematics were quantified for the step prior and five recovery steps following the treadmill perturbations and the walkway trips which elicited elevating and lowering strategies.

FINDINGS

Rates of falls following the treadmill accelerations and walkway trips were 0% and 13.1%, respectively. MoS was similar during the first recovery step (P>0.05) but less negative during subsequent recovery steps following treadmill belt accelerations than walkway trips (P<0.01) regardless of recovery strategy. Excluding the first recovery step in the lowering strategy, recovery step lengths, toe clearance, maximum trunk, hip and knee angles (P<0.05) were smaller during recovery on the treadmill compared to the walkway.

INTERPRETATION

Destabilisation by treadmill belt accelerations quickly dissipated after only one recovery step but continued for multiple recovery steps following walkway trips. Smaller trunk displacement, step lengths, toe clearance and no falls on the treadmill indicate treadmill belt accelerations may not accurately simulate the biomechanical challenge of obstacle-induced trips in older people.

摘要

背景

跑步机皮带扰动在老年人基于扰动的训练中具有较高的临床可行性，但其运动学有效性尚不清楚。本研究探讨了跑步机皮带加速度作为老年人步态中地面行走绊倒替代指标的运动学有效性。

方法

38名社区居住的老年人在分开式皮带跑步机上行走时接受两次单侧皮带加速度（8米/秒²），以及在地面行走时由一个14厘米的绊倒板诱发两次绊倒，条件呈现随机化。对跑步机扰动和地面行走绊倒（引发抬高和降低策略）之前的一步以及随后的五个恢复步骤的前后稳定性 margin（MoS）、跌倒次数以及躯干和下肢运动学进行量化。

结果

跑步机加速度和地面行走绊倒后的跌倒率分别为0%和13.1%。在第一个恢复步骤中，MoS相似（P>0.05），但无论恢复策略如何，跑步机皮带加速后随后的恢复步骤中MoS比地面行走绊倒时的负值更小（P<0.01）。在降低策略中排除第一个恢复步骤后，与地面行走相比，跑步机恢复过程中的恢复步长、脚趾间隙、最大躯干、髋部和膝部角度（P<0.05）更小。

解读

跑步机皮带加速导致的失稳在仅一个恢复步骤后迅速消散，但在地面行走绊倒后会持续多个恢复步骤。跑步机上较小的躯干位移、步长、脚趾间隙以及无跌倒表明跑步机皮带加速可能无法准确模拟老年人障碍物诱发绊倒的生物力学挑战。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ffe7/11717211/28d3d1e25677/pone.0312261.g001.jpg

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跑步机皮带加速可能无法准确复制老年人在绊倒障碍物时的运动学反应。

Treadmill belt accelerations may not accurately replicate kinematic responses to tripping on an obstacle in older people.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

FINDINGS

INTERPRETATION

背景

方法

结果

解读

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