一种基于真实关节运动数据的全膝关节置换术中磨损模拟新方案：爬楼梯。

A new protocol from real joint motion data for wear simulation in total knee arthroplasty: stair climbing.

作者信息

Battaglia Santina, Belvedere Claudio, Jaber Sami Abdel, Affatato Saverio, D'Angeli Valentina, Leardini Alberto

机构信息

Medical Technology Laboratory, Istituto Ortopedico Rizzoli, Bologna, Italy.

Movement Analysis Laboratory, Istituto Ortopedico Rizzoli, Bologna, Italy.

出版信息

Med Eng Phys. 2014 Dec;36(12):1605-10. doi: 10.1016/j.medengphy.2014.08.010. Epub 2014 Sep 18.

DOI:10.1016/j.medengphy.2014.08.010

PMID:25242732

Abstract

In its normal lifespan, a knee prosthesis must bear highly demanding loading conditions, going beyond the sole activity of level walking required by ISO standard 14243. We have developed a protocol for in vitro wear simulation of stair climbing on a displacement controlled knee simulator. The flexion/extension angle, intra/extra rotation angle, and antero/posterior translation were obtained in patients by three-dimensional video-fluoroscopy. Axial load data were collected by gait analysis. Kinematics and load data revealed a good consistence across patients, in spite of the different prosthesis size. The protocol was then implemented and tested on a displacement controlled knee wear simulator, showing an accurate reproduction of stair climbing waveforms with a relative error lower than 5%.

摘要

在其正常使用寿命内，膝关节假体必须承受极其苛刻的负载条件，这超出了ISO标准14243所要求的平路行走这一单一活动。我们开发了一种在位移控制膝关节模拟器上进行体外爬楼梯磨损模拟的方案。通过三维视频荧光透视法获取患者的屈伸角度、内外旋转角度以及前后平移数据。通过步态分析收集轴向载荷数据。尽管假体尺寸不同，但运动学和载荷数据显示患者之间具有良好的一致性。然后在位移控制膝关节磨损模拟器上实施并测试该方案，结果表明能够准确再现爬楼梯波形，相对误差低于5%。

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一种基于真实关节运动数据的全膝关节置换术中磨损模拟新方案：爬楼梯。

A new protocol from real joint motion data for wear simulation in total knee arthroplasty: stair climbing.

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