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髋关节、膝关节及同侧髋/膝关节置换术后股骨应力和应变变化:有限元分析

Femoral stress and strain changes post-hip, -knee and -ipsilateral hip/knee arthroplasties: a finite element analysis.

作者信息

Sun Zhen-hui, Liu Yue-ju, Li Heng

机构信息

Center for Joint Diseases, Tianjin People's Hospital, Tianjin, China.

出版信息

Orthop Surg. 2014 May;6(2):137-44. doi: 10.1111/os.12105.

DOI:10.1111/os.12105
PMID:24890296
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6583559/
Abstract

OBJECTIVE

To identify the optimal ratio of free femur for minimizing the risks of periprosthetic fracture.

METHODS

Three dimensional models of the femur with hip and knee stem elongation were constructed. With the distal femoral condylar surface fixed in a three dimensional model, the femoral head loading was performed according to the methods described by Huiskes and van Rietbergen in the models of hip replacement, knee replacement with or without hip stem or knee stem elongation. The maximum principal stress (MPS) and maximum principal elastic strain (MPES) of the femur were recorded and their relationships to the free femur ratio were analyzed using Pearson's correlation analysis.

RESULTS

There were no obvious changes in MPS and MPES with hip stem elongation from 100 to 180 mm. In ipsilateral hip and knee replacement, the MPS and MPES had a tendency to decrease with knee and hip stem elongation. The MPS and MPES were mainly located in the anterior medial side of the middle to distal femur post-hip replacement and distalized with stem elongation. When the knee stem had been elongated more than 120 mm, the stress and strain concentrated strongly in the middle of the femoral shaft. There was a positive correlation between MPS and MPES to the free femur ratio (P < 0.01); however, no optimal ratio of free femur that would minimize the risks of periprosthetic fracture was identified.

CONCLUSION

Positive correlations were found between implant free femur and stress and strain changes in total knee arthroplasty, total hip arthroplasty and ipsilateral hip and knee replacement.

摘要

目的

确定游离股骨的最佳比例,以将假体周围骨折的风险降至最低。

方法

构建带有髋关节和膝关节柄延长的股骨三维模型。在三维模型中固定股骨远端髁表面,根据Huiskes和van Rietbergen在髋关节置换、有或无髋关节柄或膝关节柄延长的膝关节置换模型中描述的方法进行股骨头加载。记录股骨的最大主应力(MPS)和最大主弹性应变(MPES),并使用Pearson相关分析分析它们与游离股骨比例的关系。

结果

随着髋关节柄从100 mm延长至180 mm,MPS和MPES无明显变化。在同侧髋关节和膝关节置换中,MPS和MPES有随膝关节和髋关节柄延长而降低的趋势。髋关节置换后,MPS和MPES主要位于股骨中下段的前内侧,并随着柄的延长向远端移位。当膝关节柄延长超过120 mm时,应力和应变在股骨干中部强烈集中。MPS和MPES与游离股骨比例呈正相关(P < 0.01);然而,未确定能将假体周围骨折风险降至最低的游离股骨最佳比例。

结论

在全膝关节置换、全髋关节置换以及同侧髋关节和膝关节置换中,植入物游离股骨与应力和应变变化之间存在正相关。

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