非骨水泥型髋关节柄的初始稳定性和应变分布与植入物设计的关系

Primary stability and strain distribution of cementless hip stems as a function of implant design.

作者信息

Bieger Ralf, Ignatius Anita, Decking Ralf, Claes Lutz, Reichel Heiko, Dürselen Lutz

机构信息

Department of Orthopaedic Surgery, University of Ulm, Germany.

出版信息

Clin Biomech (Bristol). 2012 Feb;27(2):158-64. doi: 10.1016/j.clinbiomech.2011.08.004. Epub 2011 Sep 1.

DOI:10.1016/j.clinbiomech.2011.08.004

PMID:21889243

Abstract

BACKGROUND

Short stem prostheses have been developed to preserve the femoral bone stock. The purpose of this study was to evaluate the stress-shielding effect in the proximal femur as well as the micromotion between bone and implant as a measure of primary stability for a new short stem in comparison to a clinically successful short stem and a straight stem.

METHODS

Using paired fresh human femurs, stress shielding was examined by using tri-axial strain gage rosettes. The strain distribution of the proximal femur was measured before and after implantation of three cementless prostheses of different design concepts and stem lengths. Furthermore, interface motion and rotational stability were investigated under dynamic loading (100-1600 N) after 100,000 load cycles using inductive miniature displacement transducers.

FINDINGS

A reduction of longitudinal cortical strains in the proximal femur was displayed for all three implants. The reduction was less pronounced for the shorter stem implants, however. Interface motion was below the critical threshold of 150 μm at almost all measuring points for all three stems, with a tendency for greater rotational stability in the shorter stem implants.

INTERPRETATION

The new short stem prosthesis displayed reduced stress shielding and comparable primary stability to an established short stem and a conventional shaft design. Shortening the stem did not negatively influence primary stability. The clinical implications of these findings remain to be proven.

摘要

背景

短柄假体已被研发用于保留股骨骨量。本研究的目的是评估新型短柄假体与临床上成功的短柄假体及直柄假体相比，股骨近端的应力遮挡效应以及骨与植入物之间的微动情况，以此作为初次稳定性的衡量指标。

方法

使用成对的新鲜人股骨，通过三轴应变片来检测应力遮挡。在植入三种不同设计理念和柄长的非骨水泥假体之前和之后，测量股骨近端的应变分布。此外，在100,000次加载循环后，使用电感式微型位移传感器在动态载荷（100 - 1600 N）下研究界面运动和旋转稳定性。

研究结果

所有三种植入物均显示股骨近端纵向皮质应变降低。然而，较短柄长的植入物这种降低不太明显。对于所有三种柄，几乎所有测量点的界面运动均低于150μm的临界阈值，较短柄长的植入物有更大旋转稳定性的趋势。

解读

新型短柄假体显示出较低的应力遮挡，并且与已确立的短柄假体和传统柄设计相比具有相当的初次稳定性。缩短柄长对初次稳定性没有负面影响。这些发现的临床意义仍有待证实。

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非骨水泥型髋关节柄的初始稳定性和应变分布与植入物设计的关系

Primary stability and strain distribution of cementless hip stems as a function of implant design.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

FINDINGS

INTERPRETATION

背景

方法

研究结果

解读

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