Simulation studies on erythrocyte passage through a bifurcating microvessel

机译：红细胞通过分叉微血管的模拟研究

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This paper presents a numerical model to predict the erythrocyte deformation and motion in a symmetric diverging and converging bifurcation of a microchannel. Membrane mechanics is considered and is incorporated with fluid dynamics. The model has been used to evaluate the effect of different biophysical parameters. The simulation results demonstrate that erythrocytes in microvessels blunt velocity profiles in both straight section and daughter branches. Moreover, the deformation and motion of erythrocytes is strongly influenced by the initial position of the cells, cell stiffness, and shape of the cells. These results may provide fundamental knowledge for a better understanding of hemodynamic behavior of microscale blood flow.

机译：本文提出了一种数值模型，可预测微通道对称发散和会聚分叉中的红细胞变形和运动。考虑了膜力学，并将其与流体动力学结合在一起。该模型已用于评估不同生物物理参数的影响。仿真结果表明，微血管中的红细胞在直节和子枝中均使速度分布变钝。而且，红细胞的变形和运动受到细胞的初始位置，细胞刚度和细胞形状的强烈影响。这些结果可能为更好地了解微尺度血流的血液动力学行为提供基础知识。

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《International Conference on BioMedical Engineering and Informatics》|2015年|306-311|共6页
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Yi Tang; Zhongwen Xing; Tong Wang;
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bifurcation; blood flow; erythrocyte; immersed boundary-fictitious domain method; numerical simulation;

机译：分叉血流红细胞浸入边界虚拟域法数值模拟;

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4. Simulation studies on erythrocyte passage through a bifurcating microvessel [C] . Yi Tang, Zhongwen Xing, Tong Wang International Conference on BioMedical Engineering and Informatics . 2015

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6. A micro-scale simulation of red blood cell passage through symmetric and asymmetric bifurcated vessels [O] . Tong Wang, Uwitije Rongin, Zhongwen Xing -1

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Simulation studies on erythrocyte passage through a bifurcating microvessel

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