FINITE ELEMENT ANALYSIS OF THE FOREARM CRUTCH DURING RECIPROCAL AND SWING-THROUGH GAIT

机译：互惠和摆动步态期间前臂拐杖的有限元分析

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A finite element analysis of a commercial forearm crutch for children during gait is presented. The geometric features of the crutch structure were acquired and modeled. The finite element model was created using shell elements based on the frame surfaces. Linear elastic material properties for aluminum alloy were utilized. Upper extremity kinetic data from reciprocal and swing-through gait patterns were applied to the model as boundary conditions and loads. Stress distributions during two gait patterns were determined. Stress distributions during swing-through gait were found to be statistically greater than those during reciprocal gait (p = 0.01). This work provides novel quantitative data to improve crutch design and stimulate further analyses of upper extremity (UE) joint loads during forearm crutch-assisted gait in children with spina bifida (myelomeningocele).

机译：介绍了在步态期间儿童商用前臂拐杖的有限元分析。获取和建模拐杖结构的几何特征。使用基于帧表面的Shell元素创建有限元模型。利用用于铝合金的线性弹性材料性能。来自互惠和摆动步态图案的上肢动力学数据被应用于模型作为边界条件和负载。确定了两个步态模式期间的应力分布。发现在挥杆步态期间的应力分布在统计学上大于往复步态期间的统计学（p = 0.01）。该工作提供了新颖的定量数据，以改善拐杖设计，并刺激前肢拐杖辅助步态的上肢（UE）关节载荷的进一步分析脊柱裂片（Myelomeningocele）。

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《Annual Rocky Mountain Bioengineering Symposium》|2009年||共6页
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Brooke A. Slavens; Yabo Guan; Gerald F. Harris;
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中图分类 TH7-53;
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Finite element analysis; Forearm crutch; Lofstrand crutch; Spina bifida; Myelomeningocele; Dynamics; Kinetics; Biomechanics; Gait; Human motion analysis;

机译：有限元分析;前臂拐杖;lofstrand cruck;spina bifida;myelomeningocele;动态;动态;生物力学;步态;人类运动分析;

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4. FINITE ELEMENT ANALYSIS OF THE FOREARM CRUTCH DURING RECIPROCAL AND SWING-THROUGH GAIT [C] . Brooke A. Slavens, Yabo Guan, Gerald F. Harris 46th annual rocky mountain bioengineering symposium amp; 46th international ISA biomedical sciences instrumentation symposium 2009 . 2009

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机译：非线性结构分析有限元的研究与发展。第2卷：非线性壳有限元

FINITE ELEMENT ANALYSIS OF THE FOREARM CRUTCH DURING RECIPROCAL AND SWING-THROUGH GAIT

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