微分离和第三体颗粒对双活动度交联髋关节衬垫磨损的影响。

Effect of microseparation and third-body particles on dual-mobility crosslinked hip liner wear.

作者信息

Netter Jonathan D, Hermida Juan C, Chen Peter C, Nevelos James E, D'Lima Darryl D

机构信息

Shiley Center for Orthopaedic Research and Education at Scripps Clinic Scripps Health La Jolla, California.

Stryker Orthopaedics Mahwah, New Jersey.

出版信息

J Arthroplasty. 2014 Sep;29(9):1849-53. doi: 10.1016/j.arth.2014.04.010. Epub 2014 Apr 13.

DOI:10.1016/j.arth.2014.04.010

PMID:24891003

Abstract

Large heads have been recommended to reduce the risk of dislocation after total hip arthroplasty. One of the issues with larger heads is the risk of increased wear and damage in thin polyethylene liners. Dual-mobility liners have been proposed as an alternative to large heads. We tested the wear performance of highly crosslinked dual-mobility liners under adverse conditions simulating microseparation and third-body wear. No measurable increase in polyethylene wear rate was found in the presence of third-body particles. Microseparation induced a small increase in wear rate (2.9mm(3)/million cycles). A finite element model simulating microseparation in dual-mobility liners was validated using these experimental results. The results of our study indicate that highly crosslinked dual-mobility liners have high tolerance for third-body particles and microseparation.

摘要

大尺寸股骨头已被推荐用于降低全髋关节置换术后脱位的风险。较大尺寸股骨头存在的问题之一是，在薄聚乙烯衬垫中磨损和损坏增加的风险。双动衬垫已被提议作为大尺寸股骨头的替代方案。我们在模拟微分离和三体磨损的不利条件下测试了高度交联双动衬垫的磨损性能。在存在三体颗粒的情况下，未发现聚乙烯磨损率有可测量的增加。微分离导致磨损率略有增加（2.9立方毫米/百万次循环）。利用这些实验结果验证了模拟双动衬垫微分离的有限元模型。我们的研究结果表明，高度交联双动衬垫对三体颗粒和微分离具有较高的耐受性。

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微分离和第三体颗粒对双活动度交联髋关节衬垫磨损的影响。

Effect of microseparation and third-body particles on dual-mobility crosslinked hip liner wear.

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