Wear Simulation of Total Disc Arthroplasties: Sensitivity to Device Design and Test Parameters

P. Hyde, R. Vicars, J. Fisher, R. Hall
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引用次数: 4

Abstract

The challenges of measuring in vivo total disc replacement (TDR) kinematics are well recognized, meaning that it is difficult to establish appropriate input conditions for wear simulation. Therefore it is desirable to ascertain the sensitivity of implant wear in vitro to perturbations of the kinematics and other testing parameters. It has previously been demonstrated in other metal-on-polyethylene joint replacements that cross-shear strongly influences wear rate. This study investigates this phenomenon by altering the phasing of the inputs by making the lag in the flexion-extension and lateral bend displacements zero. Further, the effect of an additional anterior-posterior shear, which has been reported in vivo, was investigated for two different TDR designs using an extra load or displacement input in addition to those prescribed by the standard ISO 18192-1. Altering the standard ISO 18192-1 waveform phasing significantly reduced the mean wear rate of the constrained polyethylene disc. The addition of an anterior-posterior input showed no significant change in the rate of wear for the constrained TDR but was increased for the unconstrained device. These data demonstrate the strong dependency of the wear in these types of joints to the input conditions as well as the devices design parameters. Hence, these factors should be given prime consideration when designing both the device itself and the assessment regime in which the construct is to be tested.
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全椎间盘置换术的磨损模拟:对设备设计和测试参数的敏感性
测量体内全椎间盘置换术(TDR)运动学的挑战是众所周知的,这意味着很难为磨损模拟建立适当的输入条件。因此,需要确定植入物磨损对运动学和其他测试参数扰动的敏感性。以前在其他金属对聚乙烯关节替代品中已经证明,交叉剪切强烈影响磨损率。本研究通过改变输入的相位,使弯曲-延伸和侧向弯曲位移的滞后为零来研究这一现象。此外,除了ISO 18192-1标准规定的额外载荷或位移输入外,还研究了两种不同的TDR设计中额外前后剪切的影响。改变标准ISO 18192-1波形相位显著降低了约束聚乙烯盘的平均磨损率。在有约束的TDR中,增加前后输入显示磨损率没有显著变化,但在无约束的TDR中增加了磨损率。这些数据表明,这些类型的关节的磨损与输入条件以及设备设计参数有很强的依赖性。因此,在设计设备本身和对该结构进行测试的评估制度时,应首先考虑这些因素。
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