胫骨平台后内侧骨折固定技术的生物力学评价：尸体模型。

IF 1.9 Q2 ORTHOPEDICS

Joint diseases and related surgery Pub Date : 2025-06-27 DOI:10.52312/jdrs.2025.2373

Mahmut Kalem, Çağatay Baltacı, Halil İbrahim Açar, Yunus Uslan, Elif Naz Perdeci, Ercan Şahin

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引用次数: 0

摘要

目的：本研究旨在比较静、动态轴向载荷条件下尸体模型分离胫骨平台后内侧骨折的5种固定技术，即后路螺钉（PA）、后路螺钉（AP）、后路锁定加压钢板（LCP）、解剖后内侧钢板（PMP）和前外侧钢板（ALP）的生物力学性能。材料和方法：使用25块新鲜冷冻的尸体胫骨来制造标准化的后内侧劈裂型骨折。根据固定方法将标本平均分为5组。生物力学测试包括循环轴向加载（10-250 N， 2500次，2hz），然后是静态压缩下的加载-失效测试。结果参数包括刚度、3mm位移时的载荷、极限载荷、失效时的位移和照相位移。结果：PMP组表现出最高的生物力学稳定性，最大的极限载荷（805.60±218.96 N）和最小的位移。PA螺钉固定也显示出可接受的性能，提供了一种微创的替代方法。相比之下，AP和ALP组在负荷耐受和片段控制方面表现出最低的值。两组之间存在显著差异，尤其倾向于后路技术(结论：解剖PMP为孤立性胫骨平台后内侧骨折提供了优越的生物力学稳定性。PA螺钉固定提供了一种侵入性较小且稳定的替代方法。由于生物力学不足，应避免采用前路固定策略，如AP螺钉和ALP。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

$Biomechanical evaluation of fixation techniques for posteromedial tibial plateau fractures: A cadaveric model.$

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Biomechanical evaluation of fixation techniques for posteromedial tibial plateau fractures: A cadaveric model.

Objectives: This study aims to compare the biomechanical performances of five fixation techniques, posteroanterior (PA) screw, anteroposterior (AP) screw, posterior locking compression plate (LCP), anatomic posteromedial plate (PMP), and anterolateral plate (ALP), for isolated posteromedial tibial plateau fractures using cadaveric models under static and dynamic axial loading conditions.

Materials and methods: Twenty-five fresh-frozen cadaveric tibias were used to create standardized posteromedial split-type fractures. Specimens were divided equally into five groups based on the fixation method. Biomechanical testing involved cyclic axial loading (10-250 N, 2500 cycles at 2 Hz), followed by load-to-failure testing under static compression. Outcome parameters included stiffness, load at 3 mm displacement, ultimate load, displacement at failure, and photographic displacement.

Results: The PMP group demonstrated the highest biomechanical stability, with the greatest ultimate load (805.60±218.96 N) and minimal displacement. The PA screw fixation also showed acceptable performance, offering a minimally invasive alternative. In contrast, the AP and ALP groups exhibited the lowest values for load tolerance and fragment control. There were significant differences between the groups, particularly favoring posterior-based techniques (p<0.05).

Conclusion: Anatomic PMP provides superior biomechanical stability for isolated posteromedial tibial plateau fractures. The PA screw fixation offers a less invasive, yet stable alternative. Anterior-based fixation strategies such as AP screws and ALP should be avoided due to biomechanical insufficiency.

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来源期刊

Joint diseases and related surgery

CiteScore

2.50

自引率

0.00%

发文量