单侧胫骨截肢者跑步时SACH足和动态反应足影响的生物力学分析

Q3 Medicine JOURNAL OF REHABILITATION Pub Date : 2022-04-01 DOI:10.32598/rj.23.1.3317.1
Mohammad Hasan Modares Sabzevari, M. Anbarian, M. Safari, F. Tabatabai, MohammadJavad Razi
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引用次数: 0

摘要

目的:由于部分肌肉骨骼结构的丧失而导致的下肢截肢降低了运动性能并增加了运动过程中的损伤。在多项研究中分析了不同类型的假肢脚在跑步中的效果。本研究的目的是生物力学分析SACH和动态反应足对单侧胫骨截肢患者站立阶段几个动力学变量的影响。材料与方法:在半实验研究中,采用有效或简便的抽样方法将8例左脚经胫截肢者纳入研究。目标人群是能够跑步的单侧胫骨截肢者,可用人群包括2008年至2012年转诊到德黑兰Kosar康复中心的左胫骨截肢者。为了适应足部,每只脚在实验前至少使用一周。所有受试者参加3个运行评价环节;1个阶段涉及使用他们自己的脚(熟悉阶段),1个阶段涉及使用SACH脚,1个阶段涉及使用动态脚。只有最后两次的数据被用来比较两只脚。每个受试者以每秒2.5米的速度在12米长的人行道上跑3次。为了动力学变量的可比性,选择相同的运行速度。使用运动鞋使测试条件更接近实际运行条件。在每一节中,进行3次成功的试验,以使足部与力板完全和完美地接触。采用Kistler力板和Vicon三维运动分析系统分别采集了运动数据和运动学数据。运动和力板数据分别在200 Hz和1000 Hz同时采样。使用Vicon软件包1.7版中的预测均方误差自适应滤波器对标记物和模拟数据的轨迹进行滤波。利用Vicon插件式步态的动力学模型生成动力学变量。垂直地面反作用力按体重归一化。本研究选取5个变量进行足部生物力学分析。计算最大垂直地面反力、功率、弹簧效率、截腿处踝关节力矩以及截腿与完整腿最大垂直地面反力的对称比(百分比)。每个试验中每个受试者每只脚的所有值取平均值。采用配对t检验和Wilcoxon检验进行正态性分析(P≤0.05)。结果:在检验数据分布的正态性时,结果显示SACH足的踝关节最大功率吸收数据和Dynamic-Response足的髋部最大功率吸收数据不符合正态分布,其他变量符合正态分布。配对t检验和Wilcoxon结果显示,SACH组和动态响应组的弹簧效率和最大足底屈曲度差异有统计学意义(P≤0.05)。动态响应足的弹簧效率高于SACH足(P =0.05),但SACH足的最大足底屈曲度大于动态响应足(P =0.05)。而最大垂直地面反力、踝关节最大功率吸收和产生、膝关节最大功率吸收和产生、髋部最大功率吸收和产生、最大背屈力矩、最大垂直地面反力与完整腿之间的对称比(百分比)无统计学差异。结论:研究结果表明,动态响应足的弹簧效率大于SACH足,接近正常足的弹簧效率。从这个角度来看,动态响应脚比SACH脚有更自然的表现。
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Biomechanical Analysis of the Influence of SACH Foot and Dynamic-Response Foot in Individual With Unilateral Transtibial Amputee During Running
Objective: Amputation of the lower limb due to loss of part of the musculoskeletal structure reduces performance and increases injury during locomotion. The effect of various types of prosthetic feet has been analyzed in several studies during running. The purpose of this study was a biomechanical analysis of the influence of SACH and Dynamic-Response foot on several kinetic variables in the stance phase of running in individuals with unilateral transtibial amputation. Materials & Methods: In this semi-experimental study, 8 left foot transtibial amputees were included in this study using an available or easy sampling method. The target population was unilateral transtibial amputees who were able to run and the available population included left transtibial amputees who were referred to Kosar Rehabilitation Center in Tehran from 2008 to 2012. To adapt to the foot, each foot was used by the subjects for at least one week before the experiment. All subjects participated in 3 running evaluation sessions; 1 session involving the use of their own foot (familiarization session), 1 session involving the use of SACH foot, and 1 session involving the use of Dynamic foot. Only data from the 2 last sessions were used to compare both feet. Each subject runs in 12-meter walkway 3 times at a speed of 2.5 meters per second. The same running speed was chosen for the comparability of kinetic variables. Sport shoes were used to bring the test conditions closer to the actual running conditions. In each session, 3 successful trials were performed so that the foot was in full and perfect contact with the force plate. Kistler force plate and three-dimensional motion analysis Vicon system were used to collect kinetic and kinematic data, respectively. The motion and the force plate data were sampled simultaneously at 200 and 1000 Hz, respectively. The trajectories of the markers and analog data were filtered using the predicted mean square error adaptive filter in version 1.7 of the Vicon software package. The Kinetic variables were generated using the dynamic model of the Vicon Plug-in-Gait. The vertical ground reaction force was normalized for body weight. In the present study, 5 variables were selected for biomechanical analysis of feet. The maximum vertical ground reaction force, power, spring efficiency, ankle moments at the amputated leg, and the symmetry ratio (percentage) of the maximum vertical ground reaction force between the amputated leg and the intact leg were calculated. All values ​​in each trial were averaged for each subject with each foot. A paired t-test and a Wilcoxon test were used to analyze the data based on normality (P ≤0.05). Results: In examining the normality of the data distribution, the results showed that the data of maximum power absorption of the ankle with the SACH foot and the maximum power absorption of the hip with the Dynamic-Response foot did not have a normal distribution and other variables had a normal distribution. The results of paired t-test and Wilcoxon showed that Spring Efficiency and Maximum Plantar Flexion were significantly different between the SACH and Dynamic-Response feet (P ≤0.05). The Spring Efficiency was greater with Dynamic-Response foot than the SACH foot (P =0.05), although the Maximum Plantar Flexion with the SACH foot was greater than Dynamic-Response foot (P =0.05). While there is no statistical difference between the maximum vertical ground reaction force, maximum power absorption and generation in the ankle, maximum power absorption and generation in the knee, maximum power absorption and generation in the hip, maximum dorsiflexion moment, and the symmetry ratio (percentage) of the maximum vertical ground reaction force between the amputated leg and the intact leg. Conclusion: The results of the study showed that the spring efficiency with Dynamic-Response foot was greater than SACH foot and closing to the spring efficiency of a normal foot. With this perspective, the Dynamic-Response foot has more natural performance than the SACH foot.
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JOURNAL OF REHABILITATION
JOURNAL OF REHABILITATION REHABILITATION-
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