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

机译：前后臂和步态摆动步态前臂的有限元分析

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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：提出了一种用于儿童步态的前臂拐杖的有限元分析。拐杖结构的几何特征已获得并建模。有限元模型是基于框架曲面使用壳单元创建的。利用了铝合金的线性弹性材料特性。来自交互步态和摆动步态模式的上肢动力学数据作为边界条件和载荷应用于模型。确定了两个步态模式期间的应力分布。统计上，摇摆式步态期间的应力分布比双向步态中的应力分布更大（p = 0.01）。这项工作提供了新颖的定量数据，以改善儿童脊柱裂（myelemeningocelecele）的前臂拐杖辅助步态过程中的拐杖设计并刺激对上肢（UE）关节负荷的进一步分析。

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来源
《46th annual rocky mountain bioengineering symposium amp; 46th international ISA biomedical sciences instrumentation symposium 2009》|2009年|P.310-315|共6页
会议地点 Milwaukee WI(US);Milwaukee WI(US);Milwaukee WI(US);Milwaukee WI(US)
作者
Brooke A. Slavens; Yabo Guan; Gerald F. Harris;
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作者单位

Orthopaedic and Rehabilitation Engineering Center (OREC), Milwaukee, WI 53233 Department of Biomedical Engineering, Marquette University, Milwaukee, WI 53233 Shriners Hospital for Children, Chicago, IL 60707;

rnOrthopaedic and Rehabilitation Engineering Center (OREC), Milwaukee, WI 53233 Department of Neurosurgery, Medical College of Wisconsin, Milwaukee, WI, 53226;

rnOrthopaedic and Rehabilitation Engineering Center (OREC), Milwaukee, WI 53233 Department of Biomedical Engineering, Marquette University, Milwaukee, WI 53233 Shriners Hospital for Children, Chicago, IL 60707;

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原文格式 PDF
正文语种 eng
中图分类生物工程学（生物技术）;
关键词
finite element analysis; forearm crutch; lofstrand crutch; spina bifida; myelomeningocele; dynamics; kinetics; biomechanics; gait; human motion analysis;

机译：有限元分析;前臂拐杖左手股拐杖;脊柱裂脊髓膜膨出;动力学;动力学;生物力学步态;人体运动分析;

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1. Dynamic analysis of impact in swing-through crutch gait using impulsive and continuous contact models [J] . Josep M. Font-Llagunes, Ana Barjau, Rosa Pàmies-Vilà, Multibody System Dynamics . 2012,第3期

机译：使用脉冲和连续接触模型动态分析摆动式拐杖步态的影响
2. Dynamic analysis of impact in swing-through crutch gait using impulsive and continuous contact models [J] . Font-Llagunes J.M., Barjau A., Pàmies-Vilà R., Multibody system dynamics . 2012,第3期

机译：使用脉冲和连续接触模型动态分析摆动式拐杖步态的影响
3. Analysis of terrain effects on the interfacial force distribution at the hand and forearm during crutch gait [J] . Rogers Emma, Leineweber Matthew J., Andrysek Jan Assistive technology: the official journal of RESNA . 2016,第4期

机译：拐杖步态中地形对手和前臂界面力分布的影响分析
4. FINITE ELEMENT ANALYSIS OF THE FOREARM CRUTCH DURING RECIPROCAL AND SWING-THROUGH GAIT [C] . Brooke A. Slavens, Yabo Guan, Gerald F. Harris Annual Rocky Mountain Bioengineering Symposium . 2009

机译：互惠和摆动步态期间前臂拐杖的有限元分析
5. Finite element analysis of an implanted human tibia under normal gait loading. [D] . Ionescu, Irina M. 2003

机译：正常步态负荷下植入人胫骨的有限元分析。
6. Application of 3D-Printed Orthopedic Cast for the Treatment of Forearm Fractures: Finite Element Analysis and Comparative Clinical Assessment [O] . Yanjun Chen, Hui Lin, Qinqin Yu, 2020

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7. Application of 3D-Printed Orthopedic Cast for the Treatment of Forearm Fractures: Finite Element Analysis and Comparative Clinical Assessment [O] . Yanjun Chen, Hui Lin, Qinqin Yu, 2020

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8. Survey and Development of Finite Elements for Nonlinear Structural Analysis. Volume 2: Nonlinear Shell Finite Elements [R] . 1976

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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