“节段跳跃螺钉”结构：猪颈椎模型中传统侧块固定的替代方法——生物力学分析

The "Skipped Segment Screw" Construct: An Alternative to Conventional Lateral Mass Fixation-Biomechanical Analysis in a Porcine Cervical Spine Model.

作者信息

Padhye Kedar Prashant, Murugan Yuvaraja, Milton Raunak, Nambi Raj N Arunai, David Kenny Samuel

机构信息

Department of Spinal Disorders, Christian Medical College, Ida Scudder Road, Vellore, India.

Division of Photonics, Vellore Institute of Technology, Near Katpadi Road, Vellore, India.

出版信息

Asian Spine J. 2017 Oct;11(5):733-738. doi: 10.4184/asj.2017.11.5.733. Epub 2017 Oct 11.

DOI:10.4184/asj.2017.11.5.733

PMID:29093783

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5662856/

Abstract

STUDY DESIGN

Cadaveric biomechanical study.

PURPOSE

We compared the "skipped segment screw" (SSS) construct with the conventional "all segment screw" (ASS) construct for cervical spine fixation in six degrees of freedom in terms of the range of motion (ROM).

OVERVIEW OF LITERATURE

Currently, no clear guidelines are available in the literature for the configuration of lateral mass (LM) screwrod fixation for cervical spine stabilization. Most surgeons tend to insert screws bilaterally at all segments from C3 to C6 with the assumption that implants at every level will provide maximum stability.

METHODS

Six porcine cervical spine specimens were harvested from fresh 6-9-month-old pigs. Each specimen was sequentially tested in the following order: intact uninstrumented (UIS), SSS (LM screws in C3, C5, and C7 bilaterally), and ASS (LM screws in C3-C7 bilaterally). Biomechanical testing was performed with a force of 2 Nm in six degrees of freedom and 3D motion tracking was performed.

RESULTS

The two-tailed paired -test was used for statistical analysis. There was a significant decrease in ROM in instrumented specimens compared with that in UIS specimens in all six degrees of motion (<0.05), whereas there was no significant difference in ROM between the different types of constructs (SSS and ASS).

CONCLUSIONS

Because both configurations provide comparable stability under physiological loading, we provide a biomechanical basis for the use of SSS configuration owing to its potential clinical advantages, such as relatively less bulk of implants within a small operative field, relative ease of manipulating the rod into position, shorter surgical time, less blood loss, lower risk of screw-related complications, less implant-related costs, and most importantly, no compromise in the required stability needed until fusion.

摘要

研究设计

尸体生物力学研究。

目的

我们比较了“跳跃节段螺钉”（SSS）结构与传统的“全节段螺钉”（ASS）结构在六个自由度上用于颈椎固定时的活动范围（ROM）。

文献综述

目前，文献中尚无关于颈椎侧块（LM）螺钉棒固定结构配置的明确指南。大多数外科医生倾向于在C3至C6的所有节段双侧植入螺钉，认为每个节段的植入物将提供最大稳定性。

方法

从6至9个月大的新鲜猪身上获取六个猪颈椎标本。每个标本按以下顺序依次进行测试：完整未植入器械（UIS）、SSS（双侧C3、C5和C7的LM螺钉）和ASS（双侧C3 - C7的LM螺钉）。在六个自由度上以2 Nm的力进行生物力学测试，并进行三维运动跟踪。

结果

采用双尾配对t检验进行统计分析。与UIS标本相比，所有六个运动自由度下植入器械的标本ROM均显著降低（<0.05），而不同结构类型（SSS和ASS）之间的ROM无显著差异。

结论

由于两种结构在生理负荷下提供了可比的稳定性，我们为使用SSS结构提供了生物力学依据，因为它具有潜在的临床优势，如在小手术视野内植入物体积相对较小、将棒插入位置相对容易、手术时间较短、失血较少、螺钉相关并发症风险较低、植入物相关成本较低，最重要的是，在融合前所需的稳定性方面没有妥协。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/68e5/5662856/ca93e97d43ac/asj-11-733-g001.jpg

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“节段跳跃螺钉”结构：猪颈椎模型中传统侧块固定的替代方法——生物力学分析

The "Skipped Segment Screw" Construct: An Alternative to Conventional Lateral Mass Fixation-Biomechanical Analysis in a Porcine Cervical Spine Model.

作者信息

机构信息

出版信息

STUDY DESIGN

PURPOSE

OVERVIEW OF LITERATURE

METHODS

RESULTS

CONCLUSIONS

研究设计

目的

文献综述

方法

结果

结论

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