Finite element analysis of two-level discontinuous cervical hybrid revision surgery strategy to reduce biomechanical responses of adjacent segments

IF 3.4 3区 医学 Q1 ORTHOPEDICS
JOR Spine Pub Date : 2024-10-31 DOI:10.1002/jsp2.70008
Weishi Liang, Duan Sun, Bo Han, Yihan Yang, Peng Yin, Yong Hai
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Abstract

Background

Hybrid surgery (HS) combined cervical disc arthroplasty (CDA) with anterior cervical discectomy and fusion (ACDF) is emerging, but its biomechanical effects as a revision surgery (RS) on adjacent segments were unclear.

Objectives

This finite element (FE) study aimed to investigate the biomechanical characteristics of HS to treat two-level discontinuous ASD in ACDF RS.

Methods

A C2-T1 intact FE model was established and modified to a primary C5/6 ACDF model and five RS models. These RS models' segments C4/5 and C6/7 were revised using cage plus plate (C), zero-profile devices (P), and Bryan disc (D), respectively, generating C-C-C, P-C-P, D-C-P, P-C-D, and D-C-D models. In the intact and C5/6 ACDF models, a 1.0 Nm moment was used to produce the range of motion (ROM). A displacement load was applied to all RS models, to achieve a total ROM match that of the primary C5/6 ACDF model.

Results

In the P-C-P model, biomechanical responses including ROM, Intradiscal pressure (IDP), Facet joint force (FJF), and Maximum von Mises stresses of discs at segments C3/4 and C7/T1 were slightly lower than the C-C-C model. The biomechanical response parameters at segments C3/4 and C7/T1 of P-C-D, D-C-P, and D-C-D were smaller than those in C-C-C and P-C-P models. D-C-D had the most significant effect on reducing all biomechanical responses among all RS models in segments C3/4 and C7/T1. Moreover, the disc stress cloud maps showed that the maximum von Mises stress of the C3/4 disc was higher than that of C7/T1.

Conclusions

D-C-D, P-C-D, and D-C-P are good RS choices for reducing the biomechanical responses, and D-C-D was the best choice. P-C-P can be the best recommendation when it does not meet the CDA indications. This study provided a biomechanical reference for hybrid surgical decision-making in the ACDF RS for preventing ASD recurrence.

Abstract Image

两级不连续颈椎混合翻修手术策略的有限元分析,以减少相邻节段的生物力学反应。
背景:混合手术(HS)联合颈椎间盘关节成形术(CDA)与颈椎前路椎间盘切除融合术(ACDF)正在兴起,但其作为翻修手术(RS)对邻近节段的生物力学影响尚不清楚:本有限元(FE)研究旨在探讨 HS 治疗 ACDF RS 两级不连续 ASD 的生物力学特征:建立了一个 C2-T1 完整 FE 模型,并将其修改为一个初级 C5/6 ACDF 模型和五个 RS 模型。这些RS模型的C4/5和C6/7节段分别使用笼加板(C)、零轮廓装置(P)和布莱恩椎间盘(D)进行了修正,生成了C-C-C、P-C-P、D-C-P、P-C-D和D-C-D模型。在完整模型和 C5/6 ACDF 模型中,使用 1.0 牛米的力矩来产生运动范围 (ROM)。对所有 RS 模型都施加了位移负荷,以实现与主要 C5/6 ACDF 模型相匹配的总 ROM:结果:在 P-C-P 模型中,C3/4 和 C7/T1 节段椎间盘的生物力学响应(包括 ROM、椎间盘内压力(IDP)、面关节力(FJF)和最大 von Mises 应力)略低于 C-C-C 模型。P-C-D、D-C-P 和 D-C-D 模型 C3/4 和 C7/T1 节段的生物力学响应参数小于 C-C-C 和 P-C-P 模型。在 C3/4 和 C7/T1 节段的所有 RS 模型中,D-C-D 对降低所有生物力学响应的效果最为显著。此外,椎间盘应力云图显示,C3/4 椎间盘的最大 von Mises 应力高于 C7/T1:结论:D-C-D、P-C-D 和 D-C-P 是减少生物力学反应的良好 RS 选择,其中 D-C-D 是最佳选择。在不符合 CDA 适应症的情况下,P-C-P 可以作为最佳推荐。该研究为 ACDF RS 预防 ASD 复发的混合手术决策提供了生物力学参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
JOR Spine
JOR Spine ORTHOPEDICS-
CiteScore
6.40
自引率
18.90%
发文量
42
审稿时长
10 weeks
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