转子下缩短型全髋关节置换术中股骨截骨最佳位置的有限元分析

Finite Element Analysis of Optimal Positioning of Femoral Osteotomy in Total Hip Arthroplasty With Subtrochanteric Shortening.

作者信息

Takahashi Daisuke, Noyama Yoshihiro, Shimizu Tomohiro, Terkawi Mohamad Alaa, Iwasaki Norimasa

机构信息

Department of Orthopaedic Surgery, Faculty of Medicine and Graduate School of Medicine, Hokkaido University, Sapporo, Japan.

Department of Pharmaceutical Affairs Division, Teijin Nakashima Medical Company Limited, Okayama, Japan.

出版信息

Arthroplast Today. 2022 Mar 2;14:105-109. doi: 10.1016/j.artd.2022.01.021. eCollection 2022 Apr.

DOI:10.1016/j.artd.2022.01.021

PMID:35252515

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8891993/

Abstract

BACKGROUND

Total hip arthroplasty with femoral shortening is frequently recommended for patients with high hip dislocation. However, the possibility of postoperative rotational deviation of the stem presents a challenge for surgeons. We aimed to determine the optimal position for osteotomy in total hip arthroplasty under full weight-bearing and turning torque by using finite element analysis.

METHODS

Four models of femoral osteotomy with 30-mm transverse shortening at 30% (model 30), 40% (model 40), 50% (model 50), and 60% (model 60) from the proximal end of the full length of the Exeter stem were constructed. Using finite element analysis, the constructs were first analyzed under an axial load of 1500 N and then with an added torsional load of 10°.

RESULTS

The analyses under torsional loading conditions revealed that the maximum von Mises stress on the stem in each model occurred at the proximal end of the distal fragment and the distal side of the stem. The maximum stress values at the stem were 819 MPa (model 30), 825 MPa (model 40), 916 MPa (model 50), and 944 MPa (model 60). The maximum stress values at the osteotomy site of the medullary cavity side of the distal bone fragment were 761 MPa (model 30), 165 MPa (model 40), 187 MPa (model 50), and 414 MPa (model 60).

CONCLUSIONS

The osteotomy level should be around the proximal 40% of the full length of the Exeter stem, which is most suitable for rotation stability in the early postoperative period.

摘要

背景

对于高位髋关节脱位患者，常建议采用股骨缩短全髋关节置换术。然而，术后假体柄旋转偏差的可能性给外科医生带来了挑战。我们旨在通过有限元分析确定全髋关节置换术中在完全负重和扭转力矩下截骨的最佳位置。

方法

构建了4种股骨截骨模型，截骨位于埃克塞特假体柄全长近端的30%（模型30）、40%（模型40）、50%（模型50）和60%（模型60）处，横向缩短30mm。使用有限元分析，首先在1500N轴向载荷下对构建模型进行分析，然后施加10°的附加扭转载荷。

结果

扭转载荷条件下的分析表明，每个模型中假体柄上的最大von Mises应力出现在远端骨折块的近端和假体柄的远端。假体柄处的最大应力值分别为819MPa（模型30）、825MPa（模型40）、916MPa（模型50）和944MPa（模型60）。远端骨块髓腔侧截骨部位的最大应力值分别为761MPa（模型30）、165MPa（模型40）、187MPa（模型50）和414MPa（模型60）。

结论

截骨水平应在埃克塞特假体柄全长近端约40%处，这最适合术后早期的旋转稳定性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f83e/8891993/61650788a43c/gr1.jpg

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转子下缩短型全髋关节置换术中股骨截骨最佳位置的有限元分析

Finite Element Analysis of Optimal Positioning of Femoral Osteotomy in Total Hip Arthroplasty With Subtrochanteric Shortening.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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