在不稳定环境中行走：胫骨截肢患者在步态中防止跌倒所使用的策略。

Walking in an unstable environment: strategies used by transtibial amputees to prevent falling during gait.

机构信息

Research Institute MOVE, Faculty of Human Movement Sciences, VU University Amsterdam, Amsterdam, The Netherlands.

出版信息

Arch Phys Med Rehabil. 2013 Nov;94(11):2186-93. doi: 10.1016/j.apmr.2013.07.020. Epub 2013 Aug 2.

DOI:10.1016/j.apmr.2013.07.020

PMID:23916618

Abstract

OBJECTIVE

To investigate which strategies transtibial amputees use to cope with challenges of gait stability and gait adaptability, and how these strategies differ from strategies used by able-bodied controls.

DESIGN

Cross-sectional study.

SETTING

An instrumented treadmill mounted onto a 6°-of-freedom motion platform in combination with a virtual environment.

PARTICIPANTS

Transtibial amputees (n=10) and able-bodied controls (n=9).

INTERVENTIONS

Mediolateral (ML) translations of the walking surface were imposed to manipulate gait stability. To provoke an adaptive gait pattern, a gait adaptability task was used in which subjects had to hit virtual targets with markers guided by their knees.

MAIN OUTCOME MEASURES

Walking speed, step length, step frequency, step width, and selected measures of gait stability (short-term Lyapunov exponents and backward and ML margins of stability [MoS]).

RESULTS

Amputees walked slower than able-bodied people, with a lower step frequency and wider steps. This resulted in a larger ML MoS but a smaller backward MoS for amputees. In response to the balance perturbation, both groups decreased step length and increased step frequency and step width. Walking speed did not change significantly in response to the perturbation. These adaptations induced an increase in ML and backward MoS. To perform the gait adaptability task, both groups decreased step length and increased step width, but did not change step frequency and walking speed. ML and backward MoS were maintained in both groups.

CONCLUSIONS

Transtibial amputees have the capacity to use the same strategies to deal with challenges of gait stability and adaptability, to the same extent as able-bodied people.

摘要

目的

探究小腿截肢者在应对步态稳定性和适应性挑战时使用的策略，以及这些策略与健全对照组使用的策略有何不同。

设计

横断面研究。

设置

安装在六自由度运动平台上的仪器化跑步机与虚拟环境相结合。

参与者

小腿截肢者（n=10）和健全对照组（n=9）。

干预措施

施加步行表面的横向平移，以操纵步态稳定性。为了引起适应性步态模式，使用了步态适应性任务，受试者必须用膝盖引导的标记击中虚拟目标。

主要观察指标

行走速度、步长、步频、步宽和步态稳定性的选定测量值（短期 Lyapunov 指数以及向后和横向稳定性裕度 [MoS]）。

结果

截肢者的行走速度比健全人慢，步频和步宽较低。这导致截肢者的横向 MoS 较大，但向后 MoS 较小。为了应对平衡扰动，两组都减少了步长，增加了步频和步宽。行走速度在响应扰动时没有明显变化。这些适应导致横向和向后 MoS 增加。为了完成步态适应性任务，两组都减少了步长，增加了步宽，但步频和行走速度没有变化。两组的横向和向后 MoS 都得到维持。

结论

小腿截肢者有能力使用相同的策略来应对步态稳定性和适应性的挑战，与健全人一样有效。

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在不稳定环境中行走：胫骨截肢患者在步态中防止跌倒所使用的策略。

Walking in an unstable environment: strategies used by transtibial amputees to prevent falling during gait.

机构信息

出版信息

OBJECTIVE

DESIGN

SETTING

PARTICIPANTS

INTERVENTIONS

MAIN OUTCOME MEASURES

RESULTS

CONCLUSIONS

目的

设计

设置

参与者

干预措施

主要观察指标

结果

结论

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