髋臼杯设计影响全髋关节置换术的变形反应。

Acetabular cup design influences deformational response in total hip arthroplasty.

机构信息

Joint Replacement Surgeons of Indiana Foundation, Inc, 1199 Hadley Road, Mooresville, IN 46158, USA.

出版信息

Clin Orthop Relat Res. 2013 Feb;471(2):403-9. doi: 10.1007/s11999-012-2553-7.

DOI:10.1007/s11999-012-2553-7

PMID:22948528

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3549190/

Abstract

BACKGROUND

Press-fit acetabular components are susceptible to deformation in an underreamed socket, with excessive deformation of metal-on-metal (MOM) components potentially leading to increased torsional friction and micromotion. Specifically, however, it remains unclear how cup diameter, design, and time from implantation affect shell deformation.

QUESTIONS/PURPOSES: We asked whether (1) changes in component geometry and material altered maximum shell deformation and (2) time-dependent deformational relaxation processes occurred.

METHODS

Diametral deformation was quantified after press-fit implantation of metal shells into a previously validated polyurethane model. Experimental groups (n = 6-8) consisted of 48-, 54-, 60-, and 66-mm MOM cups of 6-mm wall thickness, 58-mm cups of 10-mm wall thickness, and CoCrMo and Ti6Al4V 58-mm modular cups.

RESULTS

Greater cup diameter, thinner wall construction, and Ti6Al4V modular designs generated conditions for maximum shell deformation ranging from 0.047 to 0.267 mm. Relaxation (18%-32%) was observed 120 hours postimplantation in thin-walled and modular designs.

CONCLUSIONS

Our findings demonstrate a reduction of shell deformation over time and suggest, under physiologic loading, early component deformation varies with design.

CLINICAL RELEVANCE

Component deformation should be a design consideration regardless of bearing surface. Designs neglecting to adequately address deformational changes in vivo could be susceptible to diminished cup survival, increased wear, and premature revision.

摘要

背景

压配髋臼组件在扩孔髋臼中容易发生变形，金属对金属（MOM）组件的过度变形可能导致扭转摩擦和微动增加。然而，具体来说，杯径、设计和植入后的时间如何影响外壳变形仍然不清楚。

问题/目的：我们想知道（1）组件几何形状和材料的变化是否会改变最大外壳变形，以及（2）是否会发生与时间相关的变形松弛过程。

方法

将金属外壳压配植入先前验证的聚氨酯模型后，定量测量组件几何形状的变化。实验组（n=6-8）包括 48、54、60 和 66-mm 的 MOM 杯，壁厚 6mm，58-mm 的杯，壁厚 10mm，以及 CoCrMo 和 Ti6Al4V 58-mm 的模块化杯。

结果

更大的杯径、更薄的壁结构和 Ti6Al4V 模块化设计导致外壳变形达到最大，范围为 0.047 至 0.267mm。在薄壁和模块化设计中，植入后 120 小时观察到松弛（18%-32%）。

结论

我们的发现表明，随着时间的推移，外壳变形会减少，并表明在生理负荷下，早期组件变形会随设计而变化。

临床相关性

无论轴承表面如何，组件变形都应作为设计考虑因素。设计忽略了对体内变形变化的充分考虑，可能容易导致杯体存活率降低、磨损增加和早期翻修。

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