棒型、支腿及多螺钉-棒结构对三柱失稳型颈椎手术稳定性的影响——一项生物力学分析及新技术介绍

The Effect of Rod Pattern, Outrigger, and Multiple Screw-Rod Constructs for Surgical Stabilization of the 3-Column Destabilized Cervical Spine - A Biomechanical Analysis and Introduction of a Novel Technique.

作者信息

Hartmann Sebastian, Thomé Claudius, Abramovic Anto, Lener Sara, Schmoelz Werner, Koller Juliane, Koller Heiko

机构信息

Department of Neurosurgery, Medical University of Innsbruck, Innsbruck, Austria.

Department of Trauma Surgery, Medical University of Innsbruck, Innsbruck, Austria.

出版信息

Neurospine. 2020 Sep;17(3):610-629. doi: 10.14245/ns.2040436.218. Epub 2020 Sep 30.

DOI:10.14245/ns.2040436.218

PMID:33022166

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7538352/

Abstract

OBJECTIVE

Anterior-only reconstructions for cervical multilevel corpectomies are prone to fail under continuous mechanical loading. This study sought to define the mechanical characteristics of different constructs in reducing a range of motion (ROM) of the 3-column destabilized cervical spine, including posterior cobalt-chromium (CoCr)-rods, outrigger-rods (OGR), and a novel triple rod construct using lamina screws (6S3R). The clinical implications of biomechanical findings are discussed in depth from the perspective of the challenges surgeons face cervical deformity correction.

METHODS

Three-column deficient cervical spinal models were produced based on reconstructed computed tomography scans. The corpectomy defect between C3 and C7 end-level vertebrae was restored with anterior titanium (Ti) mesh-cage. The ROM was evaluated in a customized 6-degree of freedom spine tester. Tests were performed with different rod materials (Ti vs. CoCr), varying diameter rods (3.5 mm vs. 4.0 mm), with and without anterior plating, and using different construct patterns: bilateral rod fixation (standard-group), OGR-group, and 6S3R-Group. Construct stability was expressed in changes and differences of ROM (°).

RESULTS

The largest reduction of ROM was noticed in the 6S3R-group compared to the standard- and the OGR-group. All differences observed were emphasized with an increasing number of corpectomy levels and if anterior plating was not added. For all simulated 1-, 2-, and 3-level corpectomy constructs, the OGR-group revealed decreased ROM for all motion directions compared to the standard-group. An increase of construct stiffness was also recorded for increased rod diameter (4.0 mm) and stiffer rod material (CoCr), though these effects lacked behind the more advanced construct pattern.

CONCLUSION

A novel reconstructive technique, the 6S3R-construct, was shown to outperform all other constructs and might resemble a new standard of reference for advanced posterior fixation.

摘要

目的

颈椎多节段椎体次全切除仅采用前路重建时，在持续机械负荷下容易失败。本研究旨在确定不同内固定结构在减少三柱失稳颈椎的活动范围（ROM）方面的力学特性，包括后路钴铬（CoCr）棒、支腿棒（OGR）以及一种使用椎板螺钉的新型三棒结构（6S3R）。从外科医生在颈椎畸形矫正中面临的挑战角度，深入讨论了生物力学研究结果的临床意义。

方法

基于重建的计算机断层扫描（CT）图像制作三柱缺损颈椎模型。C3至C7终末椎体之间的椎体次全切除缺损采用前路钛（Ti）网笼修复。在定制的六自由度脊柱测试仪中评估ROM。测试采用不同的棒材（Ti与CoCr）、不同直径的棒（3.5mm与4.0mm）、有无前路钢板以及不同的内固定结构模式：双侧棒固定（标准组）、OGR组和6S3R组。内固定结构稳定性通过ROM（°）的变化和差异来表示。

结果

与标准组和OGR组相比，6S3R组的ROM减少最为明显。随着椎体次全切除节段数量增加以及未添加前路钢板时，所有观察到的差异更加显著。对于所有模拟的单节段、双节段和三节段椎体次全切除内固定结构，与标准组相比，OGR组在所有运动方向上的ROM均降低。棒直径增加（4.0mm）和棒材刚度增加（CoCr）时，也记录到内固定结构刚度增加，不过这些影响不如更先进的内固定结构模式明显。

结论

一种新型重建技术，即6S3R结构，表现优于所有其他结构，可能成为高级后路固定的新参考标准。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a43e/7538352/a755d15bff3e/ns-2040436-218f1.jpg

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棒型、支腿及多螺钉-棒结构对三柱失稳型颈椎手术稳定性的影响——一项生物力学分析及新技术介绍

The Effect of Rod Pattern, Outrigger, and Multiple Screw-Rod Constructs for Surgical Stabilization of the 3-Column Destabilized Cervical Spine - A Biomechanical Analysis and Introduction of a Novel Technique.

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