Effect of Plate-Bone Distance and Working Length on 2.0-mm Locking Construct Stiffness and Plate Strain in a Diaphyseal Fracture Gap Model: A Biomechanical Study.

IF 1 2区农林科学 Q3 VETERINARY SCIENCES Veterinary and Comparative Orthopaedics and Traumatology Pub Date : 2024-01-01 Epub Date: 2023-07-20 DOI:10.1055/s-0043-1771198

Alecia Evans, Mark Glyde, Rob Day, Giselle Hosgood

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Abstract

Objective: The aim of this study was to determine the effect of plate-bone distance (PBD) and working length on 2.0-mm locking compression plate (LCP) stiffness and strain in four-point bending and torsion in a diaphyseal fracture gap model.

Study design: A total of 54 LCP with three screws per fragment were assigned to one of nine combinations of working length (WL; short, medium, and long), and PBD (1, 1.5, and 3 mm) for a sample size of six per construct configuration. Stiffness was measured under quasistatic, nondestructive four-point compression bending and torsion. Plate surface strain was recorded using three-dimensional (3D) digital image correlation during four-point compression bending.

Results: WL had a significant effect on overall construct stiffness in both compression bending and in torsion, with shorter WL constructs having higher stiffness (p < 0.0001). PBD had no effect on construct stiffness in compression bending; however, a significant reduction in stiffness was noted in torsion (p = 0.047) as PBD incrementally increased. WL had a significant effect on plate strain in compression bending, with shorter WL constructs having lower plate strain (p < 0.0001). PBD had no effect on plate strain in compression bending except for lower plate strain recorded in long WL constructs with 1-mm PBD, compared with 1.5- and 3-mm PBD constructs (p < 0.0001).

Conclusion: Longer WL constructs, regardless of PBD, had lower stiffness in compression bending, while in torsion, some modulation of this effect was noted with incremental decreases in PBD. Longer WL resulted in high plate strain, regardless of PBD.

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在骺端骨折间隙模型中，钢板-骨距离和工作长度对 2.0 毫米锁定结构刚度和钢板应变的影响：生物力学研究。

研究目的本研究旨在确定在骺端骨折间隙模型中，钢板-骨间距（PBD）和工作长度对2.0毫米锁定加压钢板（LCP）在四点弯曲和扭转时的刚度和应变的影响：共有 54 个 LCP，每个片段有三颗螺钉，将其分配到工作长度（WL；短、中、长）和 PBD（1、1.5 和 3 毫米）的九种组合之一，每个结构配置的样本量为 6 个。在准静态、无损的四点压缩弯曲和扭转条件下测量刚度。在四点压缩弯曲过程中，使用三维（3D）数字图像相关技术记录板表面应变：在压缩弯曲和扭转过程中，WL 对整体结构刚度都有显著影响，随着 PBD 的逐渐增加，较短 WL 结构的刚度更高（p p = 0.047）。WL 对压缩弯曲中的板应变有明显影响，较短的 WL 结构具有较低的板应变（p p 结论）：无论 PBD 如何，较长的 WL 结构在压缩弯曲时都具有较低的刚度，而在扭转时，随着 PBD 的逐渐减小，这种影响会受到一定的调节。无论 PBD 如何变化，较长的 WL 都会导致较高的板应变。

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来源期刊

Veterinary and Comparative Orthopaedics and Traumatology 农林科学-动物学

CiteScore

2.00

自引率

15.40%

发文量

审稿时长

18-36 weeks

期刊介绍： Veterinary and Comparative Orthopaedics and Traumatology (VCOT) is the most important single source for clinically relevant information in orthopaedics and neurosurgery available anywhere in the world today. It is unique in that it is truly comparative and there is an unrivalled mix of review articles and basic science amid the information that is immediately clinically relevant in veterinary surgery today.