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使用膝关节运动模拟器对膝关节假体的胫骨植入物进行应变测量。

Strain measurements of the tibial insert of a knee prosthesis using a knee motion simulator.

作者信息

Sera Toshihiro, Iwai Yuya, Yamazaki Takaharu, Tomita Tetsuya, Yoshikawa Hideki, Naito Hisahi, Matsumoto Takeshi, Tanaka Masao

机构信息

Department of Mechanical Engineering, Kyushu University, Fukuoka, Japan.

Department of Mechanical Science and Bioengineering, Graduate School of Engineering Science, Osaka University, Osaka, Japan.

出版信息

J Orthop. 2017 Aug 9;14(4):495-500. doi: 10.1016/j.jor.2017.08.003. eCollection 2017 Dec.

DOI:10.1016/j.jor.2017.08.003
PMID:28839353
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5558622/
Abstract

OBJECTIVE

The longevity of a knee prosthesis is influenced by the wear of the tibial insert due to its posture and movement. In this study, we assumed that the strain on the tibial insert is one of the main reasons for its wear and investigated the influence of the knee varus-valgus angles on the mechanical stress of the tibial insert.

METHODS

Knee prosthesis motion was simulated using a knee motion simulator based on a parallel-link six degrees-of-freedom actuator and the principal strain and pressure distribution of the tibial insert were measured. In particular, the early stance phase obtained from X-ray images was examined because the knee is applied to the largest load during extension/flexion movement. The knee varus-valgus angles were 0° (neutral alignment), 3°, and 5° malalignment.

RESULTS

Under a neutral orientation, the pressure was higher at the middle and posterior condyles. The first and second principal strains were larger at the high and low pressure areas, respectively. Even for a 3° malalignment, the load was concentrated at one condyle and the positive first principal strain increased dramatically at the high pressure area. The negative second principal strain was large at the low pressure area on the other condyle. The maximum equivalent strain was 1.3-2.1 times larger at the high pressure area. For a 5° malalignment, the maximum equivalent strain increased slightly.

CONCLUSION

These strain and pressure measurements can provide the mechanical stress of the tibial insert in detail for determining the longevity of an artificial knee joint.

摘要

目的

膝关节假体的使用寿命受胫骨衬垫因姿势和运动产生的磨损影响。在本研究中,我们假设胫骨衬垫上的应变是其磨损的主要原因之一,并研究了膝内翻-外翻角度对胫骨衬垫机械应力的影响。

方法

使用基于平行连杆六自由度致动器的膝关节运动模拟器模拟膝关节假体运动,并测量胫骨衬垫的主应变和压力分布。特别检查了从X射线图像获得的早期站立阶段,因为膝关节在伸展/屈曲运动期间承受最大负荷。膝内翻-外翻角度为0°(中立位)、3°和5°畸形。

结果

在中立位时,中后髁处压力较高。第一和第二主应变分别在高压区和低压区较大。即使对于3°的畸形,负荷也集中在一个髁上,高压区的正第一主应变急剧增加。另一髁上低压区的负第二主应变较大。高压区的最大等效应变增大1.3 - 2.1倍。对于5°的畸形,最大等效应变略有增加。

结论

这些应变和压力测量可以详细提供胫骨衬垫的机械应力,以确定人工膝关节的使用寿命。