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颈动脉分叉处的应力与应变行为建模

Stress and strain behaviour modelling of the carotid bifurcation.

作者信息

Lawrence-Brown Michael, Stanley Brendan M, Sun Zhonghua, Semmens James B, Liffman Kurt

机构信息

Centre for Population Health Research, Curtin Health Innovation Research Institute, Curtin University, Australia.

出版信息

ANZ J Surg. 2011 Nov;81(11):810-6. doi: 10.1111/j.1445-2197.2011.05885.x.

DOI:10.1111/j.1445-2197.2011.05885.x
PMID:22295401
Abstract

BACKGROUND

The aim of this study is to investigate the biomechanical stress and strain behaviour within the wall of the artery and its influence on plaque formation and rupture using computational fluid dynamics (CFD).

METHODS

A three-dimensional finite-element model of the carotid bifurcation was generated to analyse the wall stress and strain behaviour. Both single-layer and multilayer models were created and structural analysis was compared between these two types of models. Systolic pressure of 180 mm Hg (~24 kPa) was applied in the inner boundary of the carotid bifurcation, and CFD analysis was performed to show the wall shear stress and pressure.

RESULTS

The highest wall stress was found at the carotid bifurcation. When a high blood pressure (280 mm Hg) was applied to the carotid CFD model, the results showed that the stress at the carotid bifurcation may reach the rupture value. The multilayer carotid bifurcation model behaved differently from the equivalent single-layer model, with peak stress (Von-Mises) being higher in the multilayer model.

CONCLUSION

The peak stress and strain was located at the origins of the internal and external carotid arteries. Significant shearing occurred between the layers in the wall of the artery at the bifurcation. Intramural shear stress in the CFD multilayer model has potential for intramural vascular injury. This may be responsible for plaque formation, plaque rupture and an injury/healing cycle.

摘要

背景

本研究旨在利用计算流体动力学(CFD)研究动脉壁内的生物力学应力和应变行为及其对斑块形成和破裂的影响。

方法

建立颈动脉分叉的三维有限元模型,以分析壁应力和应变行为。创建了单层和多层模型,并对这两种模型的结构分析进行了比较。在颈动脉分叉的内边界施加180毫米汞柱(约24千帕)的收缩压,并进行CFD分析以显示壁面剪应力和压力。

结果

颈动脉分叉处的壁应力最高。当对颈动脉CFD模型施加高血压(280毫米汞柱)时,结果表明颈动脉分叉处的应力可能达到破裂值。多层颈动脉分叉模型的表现与等效单层模型不同,多层模型中的峰值应力(冯·米塞斯应力)更高。

结论

峰值应力和应变位于颈内动脉和颈外动脉的起始处。在动脉分叉处的动脉壁各层之间发生了显著的剪切。CFD多层模型中的壁内剪应力具有导致壁内血管损伤的可能性。这可能是斑块形成、斑块破裂以及损伤/愈合循环的原因。

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