Biomechanical Analysis of Two-Level Novel Cage-Type Implant for Anterior Cervical Discectomy and Fusion: A Finite Element Analysis.

Q3 Dentistry Journal of long-term effects of medical implants Pub Date : 2023-01-01 DOI:10.1615/JLongTermEffMedImplants.2022044668

Ram Kumar, Amit Kumar

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Abstract

One of the standard treatments for spinal diseases is anterior cervical discectomy and fusion (ACDF). ACDF is a secure and successful operation that prevents patients to improve their pain and function. The mechanical goal of the ACDF is to prevent motion between adjoining vertebrae by a novel cage-screw implant. The objective of this study is to analyze the biomechanical flexibility in terms of the range of motion (ROM) of two-level ACDF fixation using the finite element method (FEM). A CT scan-based FEM model of the cervical spine (C2-C7) is used and two-level cage is implanted at C4-C6 segments. A 50-N compressive force and 1-Nm moment are applied on C2 vertebrae and C7 is fixed in all directions. The ROM at two-level fixation (C4-C5-C6) is reduced by 55 to 88% compared with intact spine during all physiological movement. The ROM slightly increase (3-9%) at the adjacent segment. The maximum von Mises stress variations are 25-65 MPa during flexion-extension, lateral bending, and axial rotations under given loading. The maximum von Mises stress found in cage and screw is below the yield stress during all physiological movement.

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用于颈椎前路椎间盘切除和融合的两级新型笼型植入物的生物力学分析：有限元分析。

脊椎疾病的标准治疗方法之一是颈前路椎间盘切除融合术（ACDF）。ACDF是一种安全而成功的手术，可以防止患者改善疼痛和功能。ACDF的机械目标是通过新型笼型螺钉植入物防止相邻椎骨之间的运动。本研究的目的是使用有限元方法（FEM）从两级ACDF内固定的运动范围（ROM）来分析生物力学灵活性。使用基于CT扫描的颈椎（C2-C7）有限元模型，在C4-C6节段植入两层笼。在C2椎骨上施加50-N的压缩力和1-Nm的力矩，并且C7在所有方向上固定。在所有生理运动过程中，两级固定（C4-C5-C6）的ROM与完整脊柱相比降低了55-88%。相邻段的ROM略有增加（3-9%）。在给定载荷下，屈伸、侧向弯曲和轴向旋转过程中，最大von Mises应力变化为25-65MPa。在所有生理运动过程中，在保持架和螺钉中发现的最大von Mises应力低于屈服应力。

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Journal of long-term effects of medical implants Dentistry-Dentistry (all)

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1.20

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0.00%

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期刊介绍： MEDICAL IMPLANTS are being used in every organ of the human body. Ideally, medical implants must have biomechanical properties comparable to those of autogenous tissues without any adverse effects. In each anatomic site, studies of the long-term effects of medical implants must be undertaken to determine accurately the safety and performance of the implants. Today, implant surgery has become an interdisciplinary undertaking involving a number of skilled and gifted specialists. For example, successful cochlear implants will involve audiologists, audiological physicians, speech and language therapists, otolaryngologists, nurses, neuro-otologists, teachers of the deaf, hearing therapists, cochlear implant manufacturers, and others involved with hearing-impaired and deaf individuals.