全膝关节置换术中聚醚醚酮股骨部件在步态期间的临床前数值评估。

A preclinical numerical assessment of a polyetheretherketone femoral component in total knee arthroplasty during gait.

作者信息

de Ruiter Lennert, Janssen Dennis, Briscoe Adam, Verdonschot Nico

机构信息

Orthopaedic Research Laboratory, Radboud University Medical Center, Radboud Institute for Health Sciences, P.O. Box 9101, 6500 HB, Nijmegen, The Netherlands.

Invibio Ltd, Thornton Cleveleys, Lancashire, FY5 4QD, UK.

出版信息

J Exp Orthop. 2017 Dec;4(1):3. doi: 10.1186/s40634-017-0078-4. Epub 2017 Feb 1.

DOI:10.1186/s40634-017-0078-4

PMID:28144820

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5285288/

Abstract

BACKGROUND

Conventional total knee replacement designs show high success rates but in the long term, the stiff metal components may affect bone quality of the distal femur. In this study we introduce an all-polymer total knee replacement device containing a PEEK femoral component on an UHMWPE tibial implant and study its mechanical integrity, fixation, and stress shielding of the periprosthetic femur.

METHODS

The implant was analysed in finite element simulations of level gait, adopted from the ISO 14243-1 standard. Mechanical integrity of the implant and underlying cement mantle were tested, and the fixation strength of the cement-implant interface was studied. Stress shielding was assessed based on strain energy density distributions in the distal femur. We compared PEEK and CoCr implants for mechanical performance and fixation, and compared both versions against an intact case to determine the change in bone strain energy density.

RESULTS

The mechanical integrity of the PEEK and CoCr components was similar in magnitude, but differences in stress patterns were found. Moreover, the cement mantle was loaded more heavily in the CoCr configuration. Under similar interface properties, the CoCr-cement interface was more at risk of failure than the PEEK-cement interface. The bone strain energy density distribution of the PEEK implant was similar to the intact case, while the CoCr implant showed signs of stress shielding, and a different distribution than the intact and PEEK models.

CONCLUSIONS

During gait, the PEEK femoral component performed similarly to CoCr, with no added risk for the cement mantle. The reduction in stress shielding for PEEK was evident and confirms the potential reduction in long-term loss of bone stock for this all-polymer knee implant.

摘要

背景

传统全膝关节置换设计成功率较高，但从长期来看，僵硬的金属部件可能会影响股骨远端的骨质。在本研究中，我们引入了一种全聚合物全膝关节置换装置，该装置在超高分子量聚乙烯胫骨植入物上包含一个聚醚醚酮（PEEK）股骨部件，并研究其机械完整性、固定情况以及假体周围股骨的应力遮挡。

方法

采用ISO 14243-1标准中的水平步态有限元模拟对该植入物进行分析。测试了植入物及其下方骨水泥套的机械完整性，并研究了骨水泥-植入物界面的固定强度。基于股骨远端的应变能密度分布评估应力遮挡情况。我们比较了PEEK和钴铬合金（CoCr）植入物的机械性能和固定情况，并将这两种版本与完整案例进行比较，以确定骨应变能密度的变化。

结果

PEEK和CoCr部件的机械完整性在数值上相似，但应力模式存在差异。此外，在CoCr配置中骨水泥套承受的负荷更大。在相似的界面特性下，CoCr-骨水泥界面比PEEK-骨水泥界面更易发生失效。PEEK植入物的骨应变能密度分布与完整案例相似，而CoCr植入物显示出应力遮挡迹象，且分布与完整案例和PEEK模型不同。

结论

在步态过程中，PEEK股骨部件的表现与CoCr相似，对骨水泥套没有额外风险。PEEK应力遮挡的减少很明显，证实了这种全聚合物膝关节植入物在长期骨量丢失方面可能减少。

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全膝关节置换术中聚醚醚酮股骨部件在步态期间的临床前数值评估。

A preclinical numerical assessment of a polyetheretherketone femoral component in total knee arthroplasty during gait.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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