Finite Element Analysis of Protective Measures against Lateral Hinge Fractures in High-Tibial Osteotomy.

IF 1.2 Q3 ORTHOPEDICS
Advances in Orthopedics Pub Date : 2024-08-22 eCollection Date: 2024-01-01 DOI:10.1155/2024/5510319
Emre Özmen, Alican Baris, Esra Circi, Serdar Yuksel, Ozan Beytemür
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引用次数: 0

Abstract

Background: Opening wedge high-tibial osteotomy (OWHTO) is widely used for correcting mechanical axis deviations and offloading the medial compartment in unicompartmental osteoarthritis. However, lateral hinge fractures (LHFs) pose a significant complication. This study investigates protective measures to mitigate these fractures, guided by prior observations of mechanical stress impact on LHFs.

Purpose: The study aims to assess the effectiveness of different protective measures, specifically the use of varying sizes of Kirchner wires and drill holes, in reducing the incidence of LHFs during OWHTO. Study Design. The study employs a quantitative, comparative analysis using a finite element method (FEM) based on computed tomography (CT) scans.

Methods: Using CT-based FEM, the study compares the impact of different sizes of K-wires (1.6 mm, 2.0 mm, and 2.5 mm) and drill holes (3.2 mm and 4.5 mm) on the mechanical stresses around the hinge area in OWHTO. The models were created from a CT scan of a healthy 33-year-old male, focusing on the force required to open the osteotomy gap and the incidence of cracked shell elements.

Results: The study found that thicker K-wires increased the force required to open the osteotomy gap, whereas larger apical holes decreased it. The 4.5 mm apical hole model demonstrated significantly fewer cracks compared to the 2.0 mm K-wire model, with no significant difference observed compared to the 2.5 mm K-wire model. Models using a 1.6 mm K-wire or a 3.2 mm drill hole did not significantly reduce cracks compared to the base model.

Conclusions: The findings suggest that a 4.5 mm drill hole may be more effective in reducing the risk of LHFs compared to thinner diameter K-wires or smaller apical holes. Both a 2.5 mm K-wire and a 4.5 mm drill hole reduce the number of cracked elements, but the 4.5 mm drill hole also significantly decreases the average and maximum principal stresses as well as the average tensile strength ratio at the hinge area. These findings may be important for surgical planning, particularly in cases requiring increased osteotomy distraction.

针对高胫骨截骨术中外侧铰链骨折保护措施的有限元分析
背景:开放性楔形高胫骨截骨术(Opening wedge high-tibial osteotomy,OWHTO)被广泛用于纠正单髁骨关节炎的机械轴偏差和减轻内侧间室的负荷。然而,外侧铰链骨折(LHF)是一个重要的并发症。目的:本研究旨在评估不同保护措施(特别是使用不同尺寸的基希纳钢丝和钻孔)在减少 OWHTO 过程中外侧铰链骨折发生率方面的有效性。研究设计。研究采用基于计算机断层扫描(CT)的有限元法(FEM)进行定量比较分析:研究使用基于 CT 的有限元法,比较了不同尺寸的 K 线(1.6 毫米、2.0 毫米和 2.5 毫米)和钻孔(3.2 毫米和 4.5 毫米)对 OWHTO 中铰链区域周围机械应力的影响。这些模型是根据一名 33 岁健康男性的 CT 扫描结果创建的,重点关注打开截骨间隙所需的力和外壳元件破裂的发生率:研究发现,较粗的 K 线会增加打开截骨间隙所需的力,而较大的根尖孔则会减小打开截骨间隙所需的力。与 2.0 毫米的 K 线模型相比,4.5 毫米的根尖孔模型显示的裂纹明显较少,而与 2.5 毫米的 K 线模型相比则没有观察到明显的差异。与基础模型相比,使用 1.6 毫米 K 线或 3.2 毫米钻孔的模型并没有明显减少裂纹:研究结果表明,与直径较细的 K 线或较小的根尖孔相比,4.5 毫米的钻孔在降低 LHF 风险方面可能更有效。2.5 毫米的 K 线和 4.5 毫米的钻孔都能减少开裂元素的数量,但 4.5 毫米的钻孔还能显著降低铰链区域的平均和最大主应力以及平均拉伸强度比。这些发现可能对手术规划很重要,尤其是在需要增加截骨牵引的病例中。
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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来源期刊
CiteScore
2.40
自引率
0.00%
发文量
36
审稿时长
21 weeks
期刊介绍: Advances in Orthopedics is a peer-reviewed, Open Access journal that provides a forum for orthopaedics working on improving the quality of orthopedic health care. The journal publishes original research articles, review articles, and clinical studies related to arthroplasty, hand surgery, limb reconstruction, pediatric orthopaedics, sports medicine, trauma, spinal deformities, and orthopaedic oncology.
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