The development of simulator testing for total knee replacements

IF 1.6 Q4 ENGINEERING, BIOMEDICAL Biosurface and Biotribology Pub Date : 2021-04-26 DOI:10.1049/bsb2.12001

Chase Maag, Amber Metcalfe, Ioan Cracaoanu, Casey Wise, Daniel D. Auger

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Abstract

Professor Duncan Dowson was a pioneer in the field of tribology and simulator design. His work sparked many branches of research across orthopaedics. The first knee simulator described by Dowson was intended to measure the wear performance of early total knee replacements (TKRs). The industry has since advanced to achieve simulator designs with significant improvements including multi-station, multi-axis, multi-control, and multi-environmental capabilities. These simulators are used to test and compare not only wear, but also the kinematic/kinetic behaviour of TKRs and many other TKR design interactions prior to implantation. This has led to changes to the design of TKRs ranging from improvements to the tibial insert to the femoral component; all, in some way, thanks to Professor Duncan Dowson's inquisitive nature. This article provides a selective review to show the interdependencies of research and development endeavours starting with the evolution of knee simulators, the many advances in TKRs and finally the interconnection with cadaveric motion simulators.

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全膝关节置换术模拟试验的研制

Duncan Dowson教授是摩擦学和模拟器设计领域的先驱。他的工作引发了骨科的许多研究分支。道森介绍的第一个膝关节模拟器旨在测量早期全膝关节置换术（TKR）的磨损性能。自那以后，该行业取得了进步，实现了模拟器设计，并进行了重大改进，包括多站、多轴、多控制和多环境功能。这些模拟器不仅用于测试和比较磨损，还用于测试和对比TKR的运动学/动力学行为以及植入前的许多其他TKR设计相互作用。这导致TKR的设计发生了变化，从改进胫骨插入物到股骨组件；在某种程度上，这要归功于邓肯·道森教授的好奇心。本文提供了一篇选择性的综述，以显示研究和开发工作的相互依赖性，从膝盖模拟器的发展开始，TKR的许多进展，最后是与尸体运动模拟器的互连。

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