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钛-钛锥形件在全髋关节置换模块化髋臼组件中是否存在腐蚀和材料损失的风险?

Are Corrosion and Material Loss a Threat for Titanium-Titanium Tapers in Total Hip Arthroplasty Modular Acetabular Components?

机构信息

Implant Research Core, School of Biomedical Science, Engineering, and Health Systems, Drexel University, Philadelphia, Pennsylvania.

Exponent Inc., Philadelphia, Pennsylvania.

出版信息

J Arthroplasty. 2024 Jun;39(6):1602-1608. doi: 10.1016/j.arth.2023.12.001. Epub 2023 Dec 8.

DOI:10.1016/j.arth.2023.12.001
PMID:38070717
Abstract

BACKGROUND

Extensive research has reported on fretting corrosion and material loss for a variety of metal taper interfaces in orthopedic devices. For modular acetabular shell-liner constructs, the interfaces studied thus far have consisted of mixed-metal pairings, and the risk of fretting corrosion and material loss for the all-titanium (Ti) shell-liner taper junction in one ceramic-on-ceramic (COC) design remains poorly understood. We asked: do Ti shell-liner taper interfaces in COC total hip arthroplasty devices show in vivo evidence of (1) fretting and/or corrosion, and (2) quantifiable potential material loss?

METHODS

We examined 22 shell-liner pairs and 22 single liners from retrieved COC components. The taper interface surfaces were assessed for fretting corrosion using a semiquantitative scoring method and imaged with scanning electron microscopy. A subcohort of components was measured with a coordinate measuring machine, and volumetric material loss and maximum wear depth were calculated.

RESULTS

Fretting corrosion at the taper interfaces was minimal to mild for 95% of liners and 100% of shells. Imaging revealed fretting marks within a band of corrosion on some implants and evidence of corrosion not in the proximity of mechanical damage. Estimated material loss ranged from 0.2 to 1.3 mm for liners, and 0.5 to 1.1 mm for shells. Maximum wear depth for all components was 0.03 mm or less.

CONCLUSIONS

Our results indicate that, compared to other taper junctions in total joint arthroplasty, the risk of corrosion and material loss may be minimal for Ti shell-liner interfaces.

摘要

背景

大量研究报告了各种骨科设备中金属锥形界面的微动腐蚀和材料损失。对于组合式髋臼壳衬结构,迄今为止研究的界面由混合金属配对组成,对于一种陶瓷对陶瓷(COC)设计中的全钛(Ti)壳衬锥形接头,微动腐蚀和材料损失的风险仍知之甚少。我们提出以下问题:(1)COC 全髋关节置换装置中的 Ti 壳衬锥形界面是否存在微动和/或腐蚀,(2)是否存在可量化的潜在材料损失?

方法

我们检查了 22 对壳衬和 22 个单独的衬里,这些衬里取自回收的 COC 组件。使用半定量评分方法评估锥形界面的微动腐蚀,并使用扫描电子显微镜对其进行成像。组件的一个亚组使用坐标测量机进行测量,计算体积材料损失和最大磨损深度。

结果

95%的衬里和 100%的外壳的锥形界面微动腐蚀轻微至中度。成像显示,一些植入物的腐蚀带内存在微动痕迹,以及腐蚀证据不在机械损伤附近。衬里的估计材料损失范围为 0.2 至 1.3 毫米,外壳的材料损失范围为 0.5 至 1.1 毫米。所有组件的最大磨损深度均为 0.03 毫米或更小。

结论

与全关节置换中的其他锥形接头相比,我们的结果表明,Ti 壳衬界面的腐蚀和材料损失风险可能较低。

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