Effect of an Orthogonal Locking Plate and Primary Plate Working Length on Construct Stiffness and Plate Strain in an In vitro Fracture-Gap Model.

IF 1 2区 农林科学 Q3 VETERINARY SCIENCES Veterinary and Comparative Orthopaedics and Traumatology Pub Date : 2024-07-01 Epub Date: 2024-02-08 DOI:10.1055/s-0044-1779496
Brett Walter de Bruyn, Mark Glyde, Robert Day, Giselle Hosgood
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Abstract

Objective:  The aim of this study was to compare stiffness and strain of an in vitro fracture-gap model secured with a primary 3.5-mm locking compression plate (LCP) at three primary plate working lengths without and with an orthogonal 2.7-mm LCP.

Study design:  Primary plate screw configurations modeled short working length (SWL), medium working length (MWL), and long working length (LWL) constructs. Construct stiffness with and without an orthogonal plate during nondestructive four-point bending and torsion, and plate surface strain measured during bending, was analyzed.

Results:  Single plate construct stiffness was significantly, incrementally, lower in four-point bending and torsion as working length was extended. Addition of an orthogonal plate resulted in significantly higher bending stiffness for SWL, MWL, and LWL (p < 0.05) and torsional stiffness for MWL and LWL (p < 0.05). Single plate construct strain was significantly, incrementally, higher as working length was extended. Addition of an orthogonal plate significantly lowered strain for SWL, MWL, and LWL constructs (p < 0.01).

Conclusion:  Orthogonal plate application resulted in higher bending and torsional construct stiffness and lower strain over the primary plate in bending in this in vitro model. Working length had an inverse relationship with construct stiffness in bending and torsion and a direct relationship with strain. The inverse effect of working length on construct stiffness was completely mitigated by the application of an orthogonal plate in bending and modified in torsion.

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正交锁定板和主板工作长度对体外断裂间隙模型中结构刚度和板应变的影响
研究目的本研究旨在比较体外骨折间隙模型的刚度和应变,该模型使用 3.5 毫米的主锁定压缩板(LCP)固定,有三种主板工作长度,分别不使用和使用正交的 2.7 毫米 LCP:研究设计:主板螺钉配置为短工作长度(SWL)、中工作长度(MWL)和长工作长度(LWL)结构模型。分析了在无损四点弯曲和扭转过程中带有和不带正交板的结构刚度,以及在弯曲过程中测量到的板表面应变:结果:随着工作长度的延长,单板结构在四点弯曲和扭转时的刚度明显降低。添加正交板后,SWL、MWL 和 LWL 的弯曲刚度明显提高(p p p 结论):在该体外模型中,使用正交板可提高弯曲和扭转结构刚度,并降低主板在弯曲过程中的应变。工作长度与弯曲和扭转时的结构刚度成反比,与应变成正比。工作长度对结构刚度的反向影响通过在弯曲中使用正交板和在扭转中使用改良板而得到完全缓解。
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来源期刊
CiteScore
2.00
自引率
15.40%
发文量
49
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.
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