Biomechanical of bilateral heel rise, and its association with balance, functional mobility, and walking speed in older adults.

IF 2.9 Q1 REHABILITATION

Archives of physiotherapy Pub Date : 2025-07-30 eCollection Date: 2025-01-01 DOI:10.33393/aop.2025.3482

Cristian Caparrós-Manosalva, Rodrigo Guzmán-Venegas, Francisca Gajardo-Garrido, Marion González-Fuentes, Víctor Pino-Domínguez, Jessica Espinoza-Araneda, Ivan Palomo, Nacim Molina

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Abstract

Introduction: Aging advancing decreases ankle-foot strength and mobility, affecting gait and balance control. The heel-rise (HR) task requires the ankle-foot to control different biomechanical demands. It is still unclear whether these demands during HR are associated with functional performance in older adults. The aim was to describe the association between HR biomechanical parameters and single-leg stability, functional mobility, and walking speed in community-dwelling older adults.

Methods: Sixty-nine older adults (73.0, SD 6.8 years) were tested on a force platform performing bilateral rapid HR in the rise and drop phases. The biomechanical parameters measured were peak force and time, impulse, root mean square and displacement of the center of pressure (CoP), as well as displacement and velocity of the center of mass (CoM), and vertical stiffness. Functional performance was assessed through balance using the single-leg stance test (SLS), functional mobility with the Timed Up & Go test (TUG), and walking speed (WS). Associations between functional tests and biomechanical parameters were determined using correlation tests.

Results: HR peak strength and time showed a medium to large association with TUG and WS but not SLS. CoP anteroposterior displacement showed a large association in the drop phase with all functional tests but not in the rise phase. CoM velocity and vertical stiffness were associated with all tests in both phases.

Conclusion: Older adults HR biomechanical parameters are more closely associated with functional mobility and walking speed tests (TUG and WS) than with static balance tests such as SLS.

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老年人双侧足跟上升的生物力学及其与平衡、功能活动和行走速度的关系。

年龄的增长会降低踝足的力量和活动能力，影响步态和平衡控制。脚跟上升（HR）任务需要踝足控制不同的生物力学要求。目前尚不清楚HR期间的这些需求是否与老年人的功能表现有关。目的是描述社区居住老年人HR生物力学参数与单腿稳定性、功能活动性和步行速度之间的关系。方法：69名老年人（73.0岁，SD 6.8岁）在一个力平台上进行双侧快速心率上升和下降阶段测试。测量的生物力学参数包括峰值力和时间、冲量、压力中心（CoP）的均方根和位移、质心（CoM）的位移和速度以及垂直刚度。功能表现通过单腿站立测试（SLS）的平衡、计时Up & Go测试（TUG）的功能机动性和步行速度（WS）来评估。功能测试和生物力学参数之间的关联通过相关性测试确定。结果：HR峰强度和时间与TUG和WS有中等到较大的相关性，而与SLS无相关性。CoP前后位移在下降阶段与所有功能测试都有很大的关联，而在上升阶段则没有。CoM速度和垂直刚度与两个阶段的所有测试相关。结论：老年人HR生物力学参数与功能活动能力和步行速度测试（TUG和WS）的关系比与静态平衡测试（SLS）的关系更密切。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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