采用常规固定装置的角稳定接骨板替代概念的生物力学研究。

Biomechanical investigation of an alternative concept to angular stable plating using conventional fixation hardware.

机构信息

AO Research Institute Davos, AO Foundation, Clavadelerstrasse 8, Davos, Switzerland.

出版信息

BMC Musculoskelet Disord. 2010 May 21;11:95. doi: 10.1186/1471-2474-11-95.

DOI:10.1186/1471-2474-11-95

PMID:20492707

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2882345/

Abstract

BACKGROUND

Angle-stable locking plates have improved the surgical management of fractures. However, locking implants are costly and removal can be difficult. The aim of this in vitro study was to evaluate the biomechanical performance of a newly proposed crossed-screw concept ("Fence") utilizing conventional (non-locked) implants in comparison to conventional LC-DCP (limited contact dynamic compression plate) and LCP (locking compression plate) stabilization, in a human cadaveric diaphyseal gap model.

METHODS

In eight pairs of human cadaveric femora, one femur per pair was randomly assigned to receive a Fence construct with either elevated or non-elevated plate, while the contralateral femur received either an LCP or LC-DCP instrumentation. Fracture gap motion and fatigue performance under cyclic loading was evaluated successively in axial compression and in torsion. Results were statistically compared in a pairwise setting.

RESULTS

The elevated Fence constructs allowed significantly higher gap motion compared to the LCP instrumentations (axial compression: p <or= 0.011, torsion p <or= 0.015) but revealed similar performance under cyclic loading (p = 0.43). The Fence instrumentation with established bone-plate contact revealed larger fracture gap motion under axial compression compared to the conventional LC-DCP osteosynthesis (p <or= 0.017). However, all contact Fence specimens survived the cyclic test, whereas all LC-DCP constructs failed early during torsion testing (p < 0.001). All failures occurred due to breakage of the screw heads.

CONCLUSIONS

Even though accentuated fracture gap motion became obvious, the "Fence" technique is considered an alternative to cost-intensive locking-head devices. The concept can be of interest in cases were angle-stable implants are unavailable and can lead to new strategies in implant design.

摘要

背景

角度稳定锁定板改善了骨折的手术治疗。然而，锁定植入物昂贵，且取出困难。本体外研究的目的是评估一种新提出的交叉螺钉概念（“围栏”）在人体骨干间隙模型中利用常规（非锁定）植入物与常规 LC-DCP（有限接触动力加压板）和 LCP（锁定加压板）固定相比的生物力学性能。

方法

在 8 对人体尸体股骨中，每对股骨随机分配接受带有升高或不升高钢板的围栏结构，而对侧股骨接受 LCP 或 LC-DCP 器械。在轴向压缩和扭转中依次评估骨折间隙运动和循环加载下的疲劳性能。在成对设置中对结果进行了统计学比较。

结果

升高的围栏结构允许明显更高的间隙运动，与 LCP 器械相比（轴向压缩：p≤0.011，扭转 p≤0.015），但在循环加载下表现相似（p=0.43）。与传统 LC-DCP 骨合成术相比，具有既定骨板接触的围栏器械在轴向压缩下显示出更大的骨折间隙运动（p≤0.017）。然而，所有接触围栏标本在循环试验中存活下来，而所有 LC-DCP 标本在扭转试验中早期失效（p<0.001）。所有失效均归因于螺钉头断裂。

结论

尽管明显增加了骨折间隙运动，但“围栏”技术被认为是成本密集型锁定头装置的替代方案。该概念可能对无法获得角度稳定植入物的情况感兴趣，并可能导致植入物设计的新策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cbca/2882345/0ba8a989ca7c/1471-2474-11-95-1.jpg

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采用常规固定装置的角稳定接骨板替代概念的生物力学研究。

Biomechanical investigation of an alternative concept to angular stable plating using conventional fixation hardware.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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