非骨水泥型股骨柄假体的偏移和长度对初始固定于股骨的力学影响。

Mechanical Effects of Offset and Length of the Cementless Stem for Initial Fixation to the Femur.

作者信息

Shibuta Yutaro, Kaku Nobuhiro, Tanaka Kensei, Hosoyama Tsuguaki

机构信息

Department of Orthopaedic Surgery, Faculty of Medicine, Oita University, Yufu City, Japan.

出版信息

Clin Orthop Surg. 2025 Feb;17(1):46-52. doi: 10.4055/cios24051. Epub 2024 Dec 6.

DOI:10.4055/cios24051

PMID:39912065

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11791486/

Abstract

BACKGROUD

Implants with different neck offsets for hip replacement surgery are now available from various implant manufacturers and have become a widely used option for achieving postoperative hip stability. This study aimed to compare the impact of neck offset on initial stem fixation and the mechanical effects of different stem lengths when using cementless stems.

METHODS

We performed a finite element analysis using Mechanical Finder ver. 12.0. CAD models of the Profemur Preserve and Profemur TL cementless stems. Each stem was appropriately sized, and the von Mises stress was calculated. We defined micromotion as the relative displacement between the stem node and the surface of bone contact. The maximum micromotion values of these finite element models were compared under standing conditions.

RESULTS

The stress per zone for both stems (Preserve and TL) was the highest in zone 5, followed by zones 3 and 4, which were almost in line with each other. The high offset (HIGH) stress was higher than the standard offset (STD) stress in each stem and zone. The micromotion of each stem was higher at each load in the following order: Preserve HIGH, Preserve STD, TL HIGH, and TL STD, with HIGH being higher than STD at each stem.

CONCLUSIONS

The choice of higher offset or shorter length stems induced higher micromotion at the interface to the bone in the early postoperative period. Therefore, surgeons should be more careful to get appropriate initial fixation using shorter stems with higher offset necks due to the relatively high incidence of loosening or fractures.

摘要

背景

目前，不同颈部偏移量的髋关节置换植入物可从多家植入物制造商处获得，并且已成为实现术后髋关节稳定性的广泛使用的选择。本研究旨在比较颈部偏移量对初次柄固定的影响以及使用非骨水泥柄时不同柄长度的力学效应。

方法

我们使用Mechanical Finder ver. 12.0进行了有限元分析。使用了Profemur Preserve和Profemur TL非骨水泥柄的CAD模型。对每个柄进行了适当尺寸设定，并计算了冯·米塞斯应力。我们将微动定义为柄节点与骨接触表面之间的相对位移。在站立条件下比较这些有限元模型的最大微动值。

结果

两个柄（Preserve和TL）每个区域的应力在区域5中最高，其次是区域3和4，这两个区域几乎处于同一水平。每个柄和区域中的高偏移（HIGH）应力均高于标准偏移（STD）应力。每个柄在每个载荷下的微动按以下顺序更高：Preserve HIGH、Preserve STD、TL HIGH和TL STD，每个柄的HIGH均高于STD。

结论

选择更高偏移量或更短长度的柄在术后早期会在柄与骨的界面处引起更高的微动。因此，由于松动或骨折的发生率相对较高，外科医生在使用具有更高偏移颈部的较短柄时应更加小心以获得适当的初始固定。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/021c/11791486/2829f9923fa8/cios-17-46-g001.jpg

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非骨水泥型股骨柄假体的偏移和长度对初始固定于股骨的力学影响。

Mechanical Effects of Offset and Length of the Cementless Stem for Initial Fixation to the Femur.

作者信息

机构信息

出版信息

BACKGROUD

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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