人类颈脊髓的有限元建模及其应用：一项系统综述。

Finite element modeling of the human cervical spinal cord and its applications: A systematic review.

作者信息

Singhal Ishan, Harinathan Balaji, Warraich Ali, Purushothaman Yuvaraj, Budde Matthew D, Yoganandan Narayan, Vedantam Aditya

机构信息

Department of Neurosurgery, Medical College of Wisconsin, 9200 W Wisconsin Ave, Milwaukee, WI 53226, United States.

University of Chicago, 1413 East 57 St, Chicago, IL 60637, United States.

出版信息

N Am Spine Soc J. 2023 Jul 27;15:100246. doi: 10.1016/j.xnsj.2023.100246. eCollection 2023 Sep.

DOI:10.1016/j.xnsj.2023.100246

PMID:37636342

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10448221/

Abstract

BACKGROUND CONTEXT

Finite element modeling (FEM) is an established tool to analyze the biomechanics of complex systems. Advances in computational techniques have led to the increasing use of spinal cord FEMs to study cervical spinal cord pathology. There is considerable variability in the creation of cervical spinal cord FEMs and to date there has been no systematic review of the technique. The aim of this study was to review the uses, techniques, limitations, and applications of FEMs of the human cervical spinal cord.

METHODS

A literature search was performed through PubMed and Scopus using the words finite element analysis, spinal cord, and biomechanics. Studies were selected based on the following inclusion criteria: (1) use of human spinal cord modeling at the cervical level; (2) model the cervical spinal cord with or without the osteoligamentous spine; and (3) the study should describe an application of the spinal cord FEM.

RESULTS

Our search resulted in 369 total publications, 49 underwent reviews of the abstract and full text, and 23 were included in the study. Spinal cord FEMs are used to study spinal cord injury and trauma, pathologic processes, and spine surgery. Considerable variation exists in the derivation of spinal cord geometries, mathematical models, and material properties. Less than 50% of the FEMs incorporate the dura mater, cerebrospinal fluid, nerve roots, and denticulate ligaments. Von Mises stress, and strain of the spinal cord are the most common outputs studied. FEM offers the opportunity for dynamic simulation, but this has been used in only four studies.

CONCLUSIONS

Spinal cord FEM provides unique insight into the stress and strain of the cervical spinal cord in various pathological conditions and allows for the simulation of surgical procedures. Standardization of modeling parameters, anatomical structures and inclusion of patient-specific data are necessary to improve the clinical translation.

摘要

背景

有限元建模（FEM）是分析复杂系统生物力学的既定工具。计算技术的进步导致越来越多地使用脊髓有限元模型来研究颈脊髓病理学。颈脊髓有限元模型的创建存在很大差异，迄今为止尚未对该技术进行系统评价。本研究的目的是回顾人类颈脊髓有限元模型的用途、技术、局限性和应用。

方法

通过PubMed和Scopus使用有限元分析、脊髓和生物力学等关键词进行文献检索。根据以下纳入标准选择研究：（1）使用颈椎水平的人类脊髓模型；（2）对有无骨韧带脊柱的颈脊髓进行建模；（3）研究应描述脊髓有限元模型的应用。

结果

我们的检索共得到369篇出版物，49篇进行了摘要和全文审查，23篇纳入研究。脊髓有限元模型用于研究脊髓损伤和创伤、病理过程及脊柱手术。脊髓几何形状、数学模型和材料特性的推导存在很大差异。不到50%的有限元模型纳入了硬脑膜、脑脊液、神经根和齿状韧带。冯·米塞斯应力和脊髓应变是最常研究的输出结果。有限元模型提供了动态模拟的机会，但仅在四项研究中使用过。

结论

脊髓有限元模型为各种病理条件下颈脊髓的应力和应变提供了独特的见解，并允许模拟手术过程。为了改善临床转化，建模参数、解剖结构的标准化以及纳入患者特异性数据是必要的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/43f5/10448221/a5bac6cf710b/gr1.jpg

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人类颈脊髓的有限元建模及其应用：一项系统综述。

Finite element modeling of the human cervical spinal cord and its applications: A systematic review.

作者信息

机构信息

出版信息

BACKGROUND CONTEXT

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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