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对患有神经病变的老年人在光滑和不平整表面上的步幅时间变异性的探索。

An exploration of step time variability on smooth and irregular surfaces in older persons with neuropathy.

作者信息

Richardson James K, Thies Sibylle, Ashton-Miller James A

机构信息

Department of Physical Medicine and Rehabilitation, University of Michigan, 325 East Eisenhower Parkway, Ann Arbor, MI 48108, United States.

出版信息

Clin Biomech (Bristol). 2008 Mar;23(3):349-56. doi: 10.1016/j.clinbiomech.2007.10.004. Epub 2007 Nov 26.

DOI:10.1016/j.clinbiomech.2007.10.004
PMID:18035458
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2277078/
Abstract

BACKGROUND

Increased step time variability, particularly on an irregular surface, has been associated with impaired mobility function and a variety of diseases. However the biomechanical necessity, or advantage, of increasing step time variability has not been identified.

METHODS

We performed a secondary analysis of gait data previously obtained on 42 subjects age 50 or older with neuropathy who walked on smooth and irregular surfaces, the latter with and without three interventions (cane, ankle orthosis and wall touch) that provided frontal plane support.

FINDINGS

Step time variability on smooth and irregular surfaces was most strongly associated with reduction in step length on the irregular surface as compared to the smooth. More specifically, the greater the decrease in step length on the irregular surface the greater the step time variability on both surfaces and the greater the increase in step time variability on the irregular surface. The increase in step length on the irregular surface afforded by the interventions coincided with a decrease in step time variability. The subjects did not simultaneously demonstrate increased step time variability and step width range on the irregular surface.

INTERPRETATION

Among adults age 50 and older with neuropathy, increased step time variability is strongly associated with the need to shorten step length on an irregular surface. Therefore step time variability may be a marker for instability during single limb stance which necessitates rapidly placed, shortened recovery steps. Such steps may also offer the advantage of reducing extremes in lateral foot placement of the swing limb, and so assist in maintaining frontal plane stability.

摘要

背景

步时变异性增加,尤其是在不规则表面上行走时,与运动功能受损及多种疾病相关。然而,增加步时变异性的生物力学必要性或优势尚未明确。

方法

我们对先前在42名50岁及以上患有神经病变的受试者身上获取的步态数据进行了二次分析,这些受试者在光滑和不规则表面上行走,后者在有和没有三种提供额面支撑的干预措施(手杖、踝足矫形器和靠墙触摸)的情况下行走。

结果

与光滑表面相比,光滑和不规则表面上的步时变异性与不规则表面上步长的缩短最为密切相关。更具体地说,不规则表面上步长的下降幅度越大,两个表面上的步时变异性就越大,不规则表面上步时变异性的增加幅度也越大。干预措施使不规则表面上步长增加的同时,步时变异性降低。受试者在不规则表面上并未同时表现出步时变异性和步宽范围的增加。

解读

在50岁及以上患有神经病变的成年人中,步时变异性增加与在不规则表面上缩短步长的需求密切相关。因此,步时变异性可能是单腿站立期间不稳定的一个标志,这需要快速迈出、缩短的恢复步。这样的步长还可能具有减少摆动腿在外侧足部放置极端情况的优势,从而有助于维持额面稳定性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2b7a/2277078/789c2157a2f8/nihms-42682-f0001.jpg

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