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上颈椎有限元模型的建立及韧带特性的参数研究

Development of a finite element model of the upper cervical spine and a parameter study of ligament characteristics.

作者信息

Brolin Karin, Halldin Peter

机构信息

Department of Aeronautics, Royal Institute of Technology, Stockholm, Sweden.

出版信息

Spine (Phila Pa 1976). 2004 Feb 15;29(4):376-85. doi: 10.1097/01.brs.0000090820.99182.2d.

DOI:10.1097/01.brs.0000090820.99182.2d
PMID:15094533
Abstract

STUDY DESIGN

Numeric techniques were used to study the upper cervical spine.

OBJECTIVES

To develop and validate an anatomic detailed finite element model of the ligamentous upper cervical spine and to analyze the effect of material properties of the ligaments on spinal kinematics.

SUMMARY OF BACKGROUND DATA

Cervical spinal injuries may be prevented with an increased knowledge of spinal behavior and injury mechanisms. The finite element method is tempting to use because stresses and strains in the different tissues can be studied during the course of loading. The authors know of no published results so far of validated finite element models that implement the complex geometry of the upper cervical spine.

METHODS

The finite element model was developed with anatomic detail from computed tomographic images of the occiput to the C3. The ligaments were modeled with nonlinear spring elements. The model was validated for axial rotation, flexion, extension, lateral bending, and tension for 1.5 Nm, 10 Nm, and 1500 N. A material property sensitivity study was conducted for the ligaments.

RESULTS

The model correlated with experimental data for all load cases. Moments of 1.5 Nm produced joint rotations of 3 degrees to 23 degrees depending on loading direction. The parameter study confirmed that the mechanical properties of the upper cervical ligaments play an important role in spinal kinematics. The capsular ligaments had the largest impact on spinal kinematics (40% change).

CONCLUSIONS

The anatomic detailed finite element model of the upper cervical spine realistically simulates the complex kinematics of the craniocervical region. An injury that changes the material characteristics of any spinal ligament will influence the structural behavior of the upper cervical spine.

摘要

研究设计

采用数值技术研究上颈椎。

目的

建立并验证一个韧带完整的上颈椎详细解剖有限元模型,并分析韧带材料特性对脊柱运动学的影响。

背景资料总结

增加对脊柱行为和损伤机制的了解或许可以预防颈椎损伤。有限元方法很有吸引力,因为在加载过程中可以研究不同组织中的应力和应变。据作者所知,目前尚无已发表的关于实现上颈椎复杂几何形状的经过验证的有限元模型的结果。

方法

基于从枕骨到C3的计算机断层扫描图像建立具有解剖细节的有限元模型。韧带采用非线性弹簧单元进行建模。该模型针对1.5 Nm、10 Nm和1500 N的轴向旋转、屈伸、侧弯和拉伸进行了验证。对韧带进行了材料特性敏感性研究。

结果

在所有载荷情况下,该模型与实验数据均具有相关性。根据加载方向,1.5 Nm的力矩会产生3度至23度的关节旋转。参数研究证实,上颈椎韧带的力学特性在脊柱运动学中起着重要作用。关节囊韧带对脊柱运动学的影响最大(变化40%)。

结论

上颈椎详细解剖有限元模型逼真地模拟了颅颈区域的复杂运动学。任何脊柱韧带材料特性的改变都会影响上颈椎的结构行为。

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