Comparative Biomechanical Analysis of Anterior Lumbar Interbody Fusion and Bilateral Expandable Transforaminal Lumbar Interbody Fusion Cages: A Finite Element Analysis Study.

IF 1.7 Q2 SURGERY
Mohamad Bakhaidar, Balaji Harinathan, Karthik Banurekha Devaraj, Andrew DeGroot, Narayan Yoganandan, Saman Shabani
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引用次数: 0

Abstract

Background: Expandable transforaminal lumbar interbody fusion (TLIF) cages could offer an alternative to anterior lumbar interbody fusion (ALIF). Bilateral cage insertion enhances endplate coverage, potentially improving stability and fusion rates and maximizing segmental lordosis. This study aims to compare the biomechanical properties of bilateral expandable TLIF cages to ALIF cages using finite element modeling.

Methods: We used a validated 3-dimensional finite element model of the lumbar spine. ALIF and TLIF cages were created based on available product data. Our focus was on analyzing spinal motion in the sagittal plane, evaluating forces transmitted through the vertebrae, and comparing an ALIF model with various TLIF cage models.

Results: The largest TLIF cage model exhibited a 407.9% increase in flexion motion and a 42.1% decrease in extension motion compared with the ALIF cage. The second largest TLIF cages resulted in more flexion motion and less extension motion compared with ALIF, while smaller cages were inferior to ALIF. ALIF cages were associated with increased adjacent segment motion compared with TLIF cages, primarily in extension. Endplate stress analysis revealed higher stress in the ALIF cage model with a more uniform stress distribution.

Conclusion: ALIF cages excel in stabilizing L5 to S1 during flexion, while largest TLIF cages offer superior stability in extension. Large bilateral TLIF cages may provide biomechanical stability comparable to ALIF, especially in extension and could potentially reduce the risk of adjacent segment disease with lower adjacent segment motion.

Level of evidence: 5:

前路腰椎体间融合器与双侧可扩张经椎间孔腰椎体间融合器固定架的生物力学比较分析:有限元分析研究。
背景:可扩张的经椎间孔腰椎椎体间融合器(TLIF)可替代前路腰椎椎体间融合器(ALIF)。双侧插入保持架可增强终板覆盖,从而提高稳定性和融合率,并最大限度地增加节段前凸。本研究旨在通过有限元建模比较双侧可扩张 TLIF 保持架与 ALIF 保持架的生物力学特性:方法:我们使用经过验证的腰椎三维有限元模型。方法:我们使用了经过验证的三维有限元模型,并根据现有产品数据创建了 ALIF 和 TLIF 骨架。我们的重点是分析矢状面上的脊柱运动,评估通过椎骨传递的力,并比较 ALIF 模型和各种 TLIF 保持架模型:结果:最大的 TLIF 保持架模型与 ALIF 保持架相比,屈曲运动增加了 407.9%,伸展运动减少了 42.1%。与 TLIF 保持架相比,ALIF 保持架增加了邻近节段的运动,主要是伸展运动。终板应力分析显示,ALIF固定架模型的应力更高,应力分布更均匀:结论:ALIF 保持架在屈曲时能很好地稳定 L5 至 S1,而最大的 TLIF 保持架在伸展时能提供更好的稳定性。大型双侧 TLIF 保持架可提供与 ALIF 相当的生物力学稳定性,尤其是在伸展时,并有可能通过较低的邻近节段运动降低邻近节段疾病的风险:5:
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
CiteScore
3.10
自引率
0.00%
发文量
162
期刊介绍: The International Journal of Spine Surgery is the official scientific journal of ISASS, the International Intradiscal Therapy Society, the Pittsburgh Spine Summit, and the Büttner-Janz Spinefoundation, and is an official partner of the Southern Neurosurgical Society. The goal of the International Journal of Spine Surgery is to promote and disseminate online the most up-to-date scientific and clinical research into innovations in motion preservation and new spinal surgery technology, including basic science, biologics, and tissue engineering. The Journal is dedicated to educating spine surgeons worldwide by reporting on the scientific basis, indications, surgical techniques, complications, outcomes, and follow-up data for promising spinal procedures.
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