Biomechanical comparison of single versus double plate osteosynthesis in acromion type III fractures.

IF 1.4 Q3 ORTHOPEDICS

Orthopedic Reviews Pub Date : 2024-04-26 eCollection Date: 2024-01-01 DOI:10.52965/001c.88396

Marc-Frederic Pastor, Dennis Nebel, Annika Degering, Tomas Smith, Roman Karkosch, Hauke Horstmann, Alexander Ellwein

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Abstract

Background: One of complications of the reverse shoulder arthroplasty is acromion fractures, and its therapy is controversial. The aim of the study was to investigate the double-plate osteosynthesis for these fractures.

Methods: An acromion type III fracture according to classification of Levy was simulated in 16 human shoulder cadavers, and the specimens were randomly divided into two groups. Single-plate osteosynthesis was performed in the first group (locking compression plate) and double-plate osteosynthesis (locking compression plate and one-third tubular locking plate) in the second group. Biomechanical testing included cycling load and load at failure on a material testing machine. During the test, the translation was measured using an optical tracking system.

Results: The load at failure for the single-plate osteosynthesis was 167 N and for the double-osteosynthesis 233.7 N (P = 0.328). The average translation was 11.1 mm for the single-plate osteosynthesis and 16.4 mm for the double-plate osteosynthesis (P = 0.753). The resulting stiffness resulted in 74.7 N/mm for the single-plate osteosynthesis and 327.9 N/mm for the double-plate osteosynthesis (P = 0.141).

Discussion: Results of the biomechanical study showed that double-plate osteosynthesis had biomechanical properties similar to those of single-plate osteosynthesis for an acromion type III fracture at time point zero. The missing advantages of double-plate osteosynthesis can be explained by the choice of plate configuration.

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肩峰 III 型骨折单板与双板骨合成术的生物力学比较。

背景：肩峰骨折是反向肩关节置换术的并发症之一，其治疗方法存在争议。本研究旨在探讨双板骨合成术治疗此类骨折的方法：方法：在 16 具人体肩部尸体上模拟 Levy 分级法 III 型肩峰骨折，并将标本随机分为两组。第一组采用单板骨结合（锁定加压钢板），第二组采用双板骨结合（锁定加压钢板和三分之一管状锁定钢板）。生物力学测试包括材料试验机上的循环载荷和失效载荷。在测试过程中，使用光学跟踪系统测量平移：结果：单板骨整合器的破坏载荷为 167 牛顿，双板骨整合器的破坏载荷为 233.7 牛顿（P = 0.328）。单板骨合成的平均平移量为 11.1 毫米，双板骨合成的平均平移量为 16.4 毫米（P = 0.753）。由此产生的硬度为：单板骨整合为 74.7 牛顿/毫米，双板骨整合为 327.9 牛顿/毫米（P = 0.141）：生物力学研究结果表明，双板骨整合术在治疗肩峰III型骨折时的生物力学特性与单板骨整合术在零点时的生物力学特性相似。双板植骨术优势缺失的原因在于钢板结构的选择。

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

Orthopedic Reviews ORTHOPEDICS-

CiteScore

2.70

自引率

4.80%

发文量

122

审稿时长

10 weeks

期刊介绍： Orthopedic Reviews is an Open Access, online-only, peer-reviewed journal that considers articles concerned with any aspect of orthopedics, as well as diagnosis and treatment, trauma, surgical procedures, arthroscopy, sports medicine, rehabilitation, pediatric and geriatric orthopedics. All bone-related molecular and cell biology, genetics, pathophysiology and epidemiology papers are also welcome. The journal publishes original articles, brief reports, reviews and case reports of general interest.