颈椎脊髓病手术治疗的综合有限元模型。

A comprehensive finite element model of surgical treatment for cervical myelopathy.

机构信息

Biomedical Engineering, The University of Iowa, USA.

Department of Neurosurgery, Mayo Clinic, Jacksonville, FL, USA.

出版信息

Clin Biomech (Bristol). 2020 Apr;74:79-86. doi: 10.1016/j.clinbiomech.2020.02.009. Epub 2020 Feb 21.

DOI:10.1016/j.clinbiomech.2020.02.009

PMID:32145673

Abstract

BACKGROUND

Cervical myelopathy is a common and debilitating chronic spinal cord dysfunction. Treatment includes anterior and/or posterior surgical intervention to decompress the spinal cord and stabilize the spine, but no consensus has been made as to the preferable surgical intervention. The objective of this study was to develop an finite element model of the healthy and myelopathic C2-T1 cervical spine and common anterior and posterior decompression techniques to determine how spinal cord stress and strain is altered in healthy and diseased states.

METHODS

A finite element model of the C2-T1 cervical spine, spinal cord, pia, dura, cerebral spinal fluid, and neural ligaments was developed and validated against in vivo human displacement data. To model cervical myelopathy, disc herniation and osteophytes were created at the C4-C6 levels. Three common surgical interventions were then incorporated at these levels.

FINDINGS

The finite element model accurately predicted healthy and myelopathic spinal cord displacement compared to motions observed in vivo. Spinal cord strain increased during extension in the cervical myelopathy finite element model. All surgical techniques affected spinal cord stress and strain. Specifically, adjacent levels had increased stress and strain, especially in the anterior cervical discectomy and fusion case.

INTERPRETATIONS

This model is the first biomechanically validated, finite element model of the healthy and myelopathic C2-T1 cervical spine and spinal cord which predicts spinal cord displacement, stress, and strain during physiologic motion. Our findings show surgical intervention can cause increased strain in the adjacent levels of the spinal cord which is particularly worse following anterior cervical discectomy and fusion.

摘要

背景

颈椎脊髓病是一种常见且使人虚弱的慢性脊髓功能障碍。治疗包括前路和/或后路手术干预以解除脊髓压迫并稳定脊柱，但对于首选的手术干预方法尚未达成共识。本研究的目的是建立健康和脊髓病颈椎 C2-T1 的有限元模型以及常见的前路和后路减压技术，以确定脊髓在健康和患病状态下的压力和应变如何变化。

方法

建立了 C2-T1 颈椎、脊髓、软膜、硬脑膜、脑脊液和神经韧带的有限元模型，并针对体内人体位移数据进行了验证。为了模拟颈椎脊髓病，在 C4-C6 水平创建了椎间盘突出和骨赘。然后在这些水平上合并了三种常见的手术干预。

结果

有限元模型准确预测了健康和脊髓病脊髓相对于体内观察到的运动的位移。在颈椎脊髓病有限元模型中，伸展时脊髓应变增加。所有手术技术都影响了脊髓的压力和应变。特别是在颈椎前路椎间盘切除和融合病例中，相邻节段的压力和应变增加。

解释

该模型是第一个对健康和脊髓病 C2-T1 颈椎和脊髓进行生物力学验证的有限元模型，可预测生理运动过程中脊髓的位移、压力和应变。我们的研究结果表明，手术干预会导致脊髓相邻节段的应变增加，尤其是在前路颈椎间盘切除和融合术后更为严重。

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颈椎脊髓病手术治疗的综合有限元模型。

A comprehensive finite element model of surgical treatment for cervical myelopathy.

机构信息

出版信息

BACKGROUND

METHODS

FINDINGS

INTERPRETATIONS

背景

方法

结果

解释

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