取出的氧化锆股骨头的表面及材料特性检测

Examination of surface and material properties of explanted zirconia femoral heads.

作者信息

Santos Erick M, Vohra Shikhar, Catledge S Aaron, McClenny Michelle D, Lemons Jack, Moore K David

机构信息

Division of Orthopaedic Surgery, University of Alabama-Birmingham, USA.

出版信息

J Arthroplasty. 2004 Oct;19(7 Suppl 2):30-4. doi: 10.1016/j.arth.2004.06.017.

DOI:10.1016/j.arth.2004.06.017

PMID:15457415

Abstract

The crystalline structure of Zirconia femoral heads provides for superior fracture toughness when compared with alumina. Transformation of the crystalline structure that takes place with time in service may produce changes in the surface and biomechanical properties of these implants. This study examines surface and mechanical property changes of Zirconia femoral heads that occur with time in situ. Eighteen retrieved Zirconia femoral heads were compared to 5 factory-sealed controls. The retrieved implants demonstrated significant transformation to a monoclinic phase. This phase transformation was associated with decreased surface hardness. There was evidence of increased surface roughness with increasing time of implantation. The phase transformation that takes place in Zirconia femoral heads may render these implants less desirable as a bearing surface in total hip arthroplasty.

摘要

与氧化铝相比，氧化锆股骨头的晶体结构具有更高的断裂韧性。在使用过程中，晶体结构随时间发生的转变可能会导致这些植入物的表面和生物力学性能发生变化。本研究考察了氧化锆股骨头在原位随时间发生的表面和力学性能变化。将18个回收的氧化锆股骨头与5个工厂密封的对照样本进行比较。回收的植入物显示出向单斜相的显著转变。这种相变与表面硬度降低有关。有证据表明，随着植入时间的增加，表面粗糙度会增加。氧化锆股骨头发生的相变可能使这些植入物作为全髋关节置换术中的承重表面不那么理想。

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取出的氧化锆股骨头的表面及材料特性检测

Examination of surface and material properties of explanted zirconia femoral heads.

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