主动脉尺寸对小鼠主动脉弓中计算得到的壁面剪应力的影响。

The influence of aortic dimensions on calculated wall shear stress in the mouse aortic arch.

作者信息

Trachet Bram, Swillens Abigail, Van Loo Denis, Casteleyn Christophe, De Paepe Anne, Loeys Bart, Segers Patrick

机构信息

IBiTech, UGent, De Pintelaan, Gent, Belgium.

出版信息

Comput Methods Biomech Biomed Engin. 2009 Oct;12(5):491-9. doi: 10.1080/10255840802695445.

DOI:10.1080/10255840802695445

PMID:19221921

Abstract

In this paper, the influence of the aortic dimensions of an investigated mouse on its resulting wall shear stress (WSS) was studied. A numerical model of a mouse aortic arch was created based on a micro-CT scan of a vascular corrosion cast of an 8-week-old wild type mouse. This model was then rescaled to obtain five models with aortic root diameters corresponding to five different stages in the mouse life cycle varying from late fetal (0.7 mm) to old adult (1.5 mm). Consistent with literature, WSS values much higher than those normally encountered in humans were found. WSS was found to decrease rapidly in early life stages and to reach a plateau in adulthood, thus supporting a mediating role for WSS in arterial growth. Our results show that WSS values for mice should be interpreted very cautiously, and if possible an animal-specific geometry with animal-specific boundary conditions should be used.

摘要

在本文中，研究了被研究小鼠的主动脉尺寸对其产生的壁面剪应力（WSS）的影响。基于对一只8周龄野生型小鼠血管铸型的显微CT扫描，创建了小鼠主动脉弓的数值模型。然后对该模型进行重新缩放，以获得五个模型，其主动脉根部直径对应于小鼠生命周期中的五个不同阶段，从胎儿晚期（0.7毫米）到老年成年期（1.5毫米）。与文献一致，发现WSS值远高于人类通常遇到的值。发现WSS在生命早期阶段迅速下降，并在成年期达到平稳状态，从而支持WSS在动脉生长中的中介作用。我们的结果表明，小鼠的WSS值应非常谨慎地解释，并且如果可能的话，应使用具有动物特异性边界条件的动物特异性几何形状。

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主动脉尺寸对小鼠主动脉弓中计算得到的壁面剪应力的影响。

The influence of aortic dimensions on calculated wall shear stress in the mouse aortic arch.

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