年轻人和老年人在滑倒和绊倒干扰后的第一步恢复期间下肢关节的代偿效应。

Lower extremity joint compensatory effects during the first recovery step following slipping and stumbling perturbations in young and older subjects.

机构信息

College of Physical Education and Health Sciences, Zhejiang Normal University, 688 Yingbin Road, Jinhua, 321000, China.

Biomechanics and Implant Technology Research Laboratory, Department of Orthopaedics, Rostock University Medical Centre, Doberaner Strasse 142, 18057, Rostock, Germany.

出版信息

BMC Geriatr. 2022 Aug 10;22(1):656. doi: 10.1186/s12877-022-03354-3.

DOI:10.1186/s12877-022-03354-3

PMID:35948887

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9367084/

Abstract

BACKGROUND

The lower extremity may play a crucial role in compensating for gait perturbations. The study aimed to explore the mechanism of perturbation compensation by investigating the gait characteristics and lower extremity joint moment effects in young (YS) and older subjects (OS) during the first recovery gait following slipping (slipping_Rec1) and stumbling (stumbling_Rec1).

METHOD

An automatic perturbation-triggered program was developed using D-Flow software based on the Gait Real-time Analysis Interactive Lab to induce the two aforementioned perturbations. Marker trajectories and ground reaction forces were recorded from 15 healthy YS (age: 26.53 ± 3.04 years; body height: 1.73 ± 0.07 m; body mass: 66.81 ± 11.44 kg) and 15 healthy OS (age: 68.33 ± 3.29 years; body height: 1.76 ± 0.10 m; body mass: 81.13 ± 13.99 kg). The Human Body Model was used to compute the variables of interest. One-way analysis of variance and independent samples t-test statistical analyses were performed.

RESULTS

In slipping_Rec1 and stumbling_Rec1, the change in gait pattern was mainly reflected in a significant increase in step width, no alterations in step length and stance/swing ratio were revealed. Based on perturbed task specificity, lower extremity joint moments increased or decreased at specific phases of the gait cycle in both YS and OS in slipping_Rec1 and stumbling_Rec1 compared to normal gait. The two perturbed gaits reflected the respective compensatory requirements for the lower extremity joints, with both sagittal and frontal joint moments producing compensatory effects. The aging effect was not reflected in the gait pattern, but rather in the hip extension moment during the initial stance of slipping_Rec1.

CONCLUSIONS

Slipping appears to be more demanding for gait recovery than stumbling. Gait perturbation compensatory mechanisms for OS should concentrate on ankle strategy in the frontal plane and counter-rotation strategy around the hip.

摘要

背景

下肢在代偿步态扰动方面可能起着至关重要的作用。本研究旨在通过研究年轻人（YS）和老年人（OS）在滑倒后第一次恢复步态（滑倒_Rec1）和绊倒后第一次恢复步态（绊倒_Rec1）期间的步态特征和下肢关节力矩的影响，来探讨扰动补偿的机制。

方法

使用 D-Flow 软件基于步态实时分析交互式实验室开发了一个自动扰动触发程序，以诱发上述两种扰动。从 15 名健康的 YS（年龄：26.53±3.04 岁；身高：1.73±0.07 m；体重：66.81±11.44 kg）和 15 名健康的 OS（年龄：68.33±3.29 岁；身高：1.76±0.10 m；体重：81.13±13.99 kg）中记录标记轨迹和地面反作用力。使用人体模型来计算感兴趣的变量。进行了单因素方差分析和独立样本 t 检验统计分析。

结果

在滑倒_Rec1 和绊倒_Rec1 中，步态模式的变化主要表现为步宽显著增加，而步长没有变化，支撑/摆动比也没有变化。基于受扰任务的特异性，YS 和 OS 在滑倒_Rec1 和绊倒_Rec1 中与正常步态相比，下肢关节力矩在步态周期的特定阶段增加或减少。两种受扰步态反映了下肢关节各自的补偿要求，矢状面和额状面关节力矩都产生了补偿效应。衰老效应在步态模式中没有体现，而是在滑倒_Rec1 初始支撑阶段的髋关节伸展力矩中体现。

结论

滑倒似乎比绊倒更需要步态恢复。针对 OS 的步态扰动补偿机制应集中在额状面的踝关节策略和髋关节的反向旋转策略上。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8844/9367084/b121c4e1e8eb/12877_2022_3354_Fig1_HTML.jpg

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年轻人和老年人在滑倒和绊倒干扰后的第一步恢复期间下肢关节的代偿效应。

Lower extremity joint compensatory effects during the first recovery step following slipping and stumbling perturbations in young and older subjects.

机构信息

出版信息

BACKGROUND

METHOD

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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