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本文引用的文献

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Gait parameters and stride-to-stride variability during familiarization to walking on a split-belt treadmill.在适应在分体式跑带上行走过程中的步态参数和步幅间变异性。
Clin Biomech (Bristol). 2010 May;25(4):383-6. doi: 10.1016/j.clinbiomech.2009.11.002. Epub 2009 Dec 9.
2
Two simple methods for determining gait events during treadmill and overground walking using kinematic data.两种利用运动学数据确定跑步机行走和地面行走过程中步态事件的简单方法。
Gait Posture. 2008 May;27(4):710-4. doi: 10.1016/j.gaitpost.2007.07.007. Epub 2007 Aug 27.
3
A kinematic and kinetic comparison of overground and treadmill walking in healthy subjects.健康受试者在地面行走和跑步机行走的运动学与动力学比较。
Gait Posture. 2007 Jun;26(1):17-24. doi: 10.1016/j.gaitpost.2006.07.003. Epub 2006 Aug 14.
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Short-term relationships between footstep variables in young adults.
Gait Posture. 2007 Feb;25(2):229-35. doi: 10.1016/j.gaitpost.2006.04.004. Epub 2006 Jun 5.
5
Habituation to treadmill walking.对跑步机行走的习惯化
Biomed Mater Eng. 2006;16(1):43-52.
6
Clinical applicability of using spherical fitting to find hip joint centers.使用球面拟合来确定髋关节中心的临床适用性。
Gait Posture. 2005 Oct;22(2):138-45. doi: 10.1016/j.gaitpost.2004.08.004.
7
Familiarisation to treadmill walking in unimpaired older people.未受损老年人对跑步机行走的熟悉过程。
Gait Posture. 2005 Jan;21(1):72-9. doi: 10.1016/j.gaitpost.2004.01.003.
8
Test-retest reliability of temporal and spatial gait characteristics measured with an instrumented walkway system (GAITRite).使用仪器化步道系统(GAITRite)测量的时空步态特征的重测信度。
BMC Musculoskelet Disord. 2004 May 17;5:13. doi: 10.1186/1471-2474-5-13.
9
Step width variability, but not step length variability or step time variability, discriminates gait of healthy young and older adults during treadmill locomotion.步幅变异性而非步长变异性或步时变异性,可区分健康年轻人和老年人在跑步机上行走时的步态。
J Biomech. 2004 Jun;37(6):935-8. doi: 10.1016/j.jbiomech.2003.11.012.
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Development of a reliable method to assess footwear comfort during running.开发一种可靠的方法来评估跑步过程中鞋子的舒适度。
Gait Posture. 2002 Aug;16(1):38-45. doi: 10.1016/s0966-6362(01)00197-7.

分割带和单带跑步机行走的运动学比较及适应的影响。

Kinematic comparison of split-belt and single-belt treadmill walking and the effects of accommodation.

机构信息

Biomechanics and Movement Science Program, 301 McKinly Lab, University of Delaware, Newark, DE 19716, USA.

出版信息

Gait Posture. 2012 Feb;35(2):287-91. doi: 10.1016/j.gaitpost.2011.09.101. Epub 2011 Oct 19.

DOI:10.1016/j.gaitpost.2011.09.101
PMID:22015048
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3274623/
Abstract

INTRODUCTION

Instrumented treadmills are becoming increasingly more common in gait laboratories. Instrumented side-split treadmills allow the collection of forces under each foot during walking. However, there may be a tendency to increase the base of support when walking on these treadmills, influencing other frontal plane mechanics as well. Therefore, the purpose of this study was to examine the effect of walking on a side-split instrumented treadmill on base of gait and frontal plane kinematics of the lower extremity.

METHODS

Twenty subjects walked on both a split and a single-belt treadmill. Base of gait and frontal plane kinematic angles and variability data were recorded. A one-way ANOVA was used to determine differences between the single and split-belt conditions at baseline and following a 10 min accommodation on the split-belt. The relationships between the change in base of gait and change in each kinematic variable were also determined.

RESULTS

On average, the base of gait was 3.7 cm wider on the split-belt treadmill with a 4mm gap between belts. No significant differences were observed in the mean values of lower extremity kinematics or kinematic variability at baseline or following the 10 min accommodation. However, the increase in base of gait was significantly related to a decrease in peak knee and hip adduction angles.

CONCLUSION

The 4mm gap between the treadmill belts significantly increased the mean base of gait in all subjects. This did not alter mean frontal plane kinematics. However, as base of gait increased, the tendency towards hip and knee abduction also increased.

摘要

简介

仪器化跑步机在步态实验室中越来越常见。仪器化侧部分跑步机允许在步行时收集每只脚下的力。然而,在这些跑步机上行走时可能会有增加支撑基础的趋势,这也会影响其他额状面力学。因此,本研究的目的是研究在侧部分跑步机上行走对步态和下肢额状面运动学的影响。

方法

20 名受试者分别在分带和单带跑步机上行走。记录步态基础和额状面运动学角度和可变性数据。使用单向方差分析来确定在基线和在分带适应 10 分钟后,单带和分带条件之间的差异。还确定了步态基础变化与每个运动学变量变化之间的关系。

结果

平均而言,分带跑步机上的步态基础宽 3.7 厘米,两条带之间有 4 毫米的间隙。在基线或适应 10 分钟后,下肢运动学或运动学可变性的平均值均无显着差异。然而,步态基础的增加与峰值膝和髋内收角度的减少显着相关。

结论

跑步机带之间的 4 毫米间隙显着增加了所有受试者的平均步态基础。这并没有改变额状面运动学的平均值。然而,随着步态基础的增加,髋关节和膝关节外展的趋势也增加了。