Experimental evaluation of new concepts in hip arthroplasty.

Tina Strømdal Wik
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引用次数: 16

Abstract

In this thesis we evaluated two different hip arthroplasty concepts trough in vitro studies and numerical analyses. The cortical strains in the femoral neck area were increased by 10 to 15 % after insertion of a resurfacing femoral component compared to values of the intact femur, shown in an in vitro study on human cadaver femurs. There is an increased risk of femoral neck fracture after hip resurfacing arthroplasty. An increase of 10 to 15 % in femoral neck strains is limited, and cannot alone explain these fractures. Together with patient specific and surgical factors, however, increased strain can contribute to increased risk of fracture. An in vitro study showed that increasing the neck length in combination with retroversion or reduced neck shaft angle on a standard cementless femoral stem does not compromise the stability of the stem. The strain pattern in the proximal femur increased significantly at several measuring sites when the version and length of neck were altered. However, the changes were probably too small to have clinical relevance. In a validation study we have shown that a subject specific finite element analysis is able to perform reasonable predictions of strains and stress shielding after insertion of a femoral stem in human cadaver femurs. The usage of finite element models can be a valuable supplement to in vitro tests of femoral strain pattern around hip arthroplasty. Finally, a patient case shows that bone resorption around an implant caused by stress shielding can in extreme cases lead to periprosthetic fracture.

髋关节置换术新概念的实验评价。
在本文中,我们通过体外研究和数值分析评估了两种不同的髋关节置换术概念。在一项人体尸体股骨的体外研究中显示,与完整股骨相比,股骨颈区域的皮质应变在插入表面置换股骨组件后增加了10%至15%。髋关节置换术后股骨颈骨折的风险增加。股骨颈劳损增加10 - 15%是有限的,不能单独解释这些骨折。然而,加上患者的特殊因素和手术因素,增加的劳损会增加骨折的风险。一项体外研究表明,在标准无骨水泥股骨柄上,增加颈长结合后倾或减小颈轴角不会损害股骨柄的稳定性。当颈部的形状和长度改变时,股骨近端应变模式在几个测量部位明显增加。然而,这些变化可能太小,没有临床意义。在一项验证性研究中,我们已经表明,特定对象的有限元分析能够对人类尸体股骨插入股骨干后的应变和应力屏蔽进行合理的预测。有限元模型的使用可以作为髋关节置换术前后股骨应变模式体外试验的一个有价值的补充。最后,一个病例表明,应力屏蔽引起的种植体周围骨吸收在极端情况下可能导致假体周围骨折。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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