颈动脉粥样硬化斑块内出血新生血管力学的有限元分析

Finite element analysis of mechanics of neovessels with intraplaque hemorrhage in carotid atherosclerosis.

作者信息

Lu Jinqiu, Duan Wanying, Qiao Aike

出版信息

Biomed Eng Online. 2015;14 Suppl 1(Suppl 1):S3. doi: 10.1186/1475-925X-14-S1-S3. Epub 2015 Jan 9.

DOI:10.1186/1475-925X-14-S1-S3

PMID:25603398

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4306113/

Abstract

BACKGROUND

Intraplaque hemorrhage is a widely known factor facilitating plaque instability. Neovascularization of plaque can be regarded as a compensatory response to the blood supply in the deep intimal and medial areas of the artery. Due to the physiological function, the deformation of carotid atherosclerotic plaque would happen under the action of blood pressure and blood flow. Neovessels are subject to mechanical loading and likely undergo deformation. The rupture of neovessels may deteriorate the instability of plaque. This study focuses on the local mechanical environments around neovessels and investigates the relationship between the biomechanics and the morphological specificity of neovessels.

METHODS

Stress and stretch were used to evaluate the rupture risk of the neovessels in plaque. Computational structural analysis was performed based on two human carotid plaque slice samples. Two-dimensional models containing neovessels and other components were built according to the plaque slice samples. Each component was assumed to be non-linear isotropic, piecewise homogeneous and incompressible. Different mechanical boundary conditions, i.e. static pressures, were imposed in the carotid lumen and neovessels lumen respectively. Finite element method was used to simulate the mechanical conditions in the atherosclerotic plaque.

RESULTS

Those neovessels closer to the carotid lumen undergo larger stress and stretch. With the same distance to the carotid lumen, the longer the perimeter of neovessels is, the larger stress and the deformation of the neovessels will be. Under the same conditions, the neovessels with larger curvature suffer greater stress and stretch. Neovessels surrounded by red blood cells undergo a much larger stretch.

CONCLUSIONS

Local mechanical conditions may result in the hemorrhage of neovessels and accelerate the rupture of plaque. The mechanical environments of the neovessel are related to its shape, curvature, distance to the carotid lumen and the material properties of plaque.

摘要

背景

斑块内出血是促进斑块不稳定的一个广为人知的因素。斑块新生血管形成可被视为对动脉内膜深层和中膜区域血液供应的一种代偿反应。由于生理功能，颈动脉粥样硬化斑块在血压和血流作用下会发生变形。新生血管承受机械负荷并可能发生变形。新生血管破裂可能会使斑块的不稳定性恶化。本研究聚焦于新生血管周围的局部力学环境，并研究生物力学与新生血管形态特异性之间的关系。

方法

采用应力和拉伸来评估斑块内新生血管的破裂风险。基于两个人类颈动脉斑块切片样本进行了计算结构分析。根据斑块切片样本构建了包含新生血管和其他成分的二维模型。假定每个成分是非线性各向同性、分段均匀且不可压缩的。分别在颈动脉腔和新生血管腔内施加不同的机械边界条件，即静压力。采用有限元方法模拟动脉粥样硬化斑块中的力学状况。

结果

那些距离颈动脉腔较近的新生血管承受更大的应力和拉伸。在与颈动脉腔距离相同的情况下，新生血管的周长越长，其应力和变形就越大。在相同条件下，曲率较大的新生血管承受的应力和拉伸更大。被红细胞包围的新生血管承受的拉伸要大得多。

结论

局部力学状况可能导致新生血管出血并加速斑块破裂。新生血管的力学环境与其形状、曲率、与颈动脉腔的距离以及斑块的材料特性有关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3eb4/4306113/22193a0ca85d/1475-925X-14-S1-S3-1.jpg

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颈动脉粥样硬化斑块内出血新生血管力学的有限元分析

Finite element analysis of mechanics of neovessels with intraplaque hemorrhage in carotid atherosclerosis.

作者信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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