Numerical Study on Flow Behavior of Red Blood Cells through Symmetric Capillary Bifurcations

M. Hirono, T. Hyakutake
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Abstract

The red blood cell (RBC) partitioning properties at microvascular bifurcation are largely related to heterogeneous oxygen distributions in the microcirculatory networks. Here, three-dimensional, T-type symmetric capillary bifurcation models have been prepared and the flow behavior of RBCs through the capillary bifurcations has been investigated. Simulated blood flow was computed using the lattice Boltzmann method, in conjunction with the immersed boundary method, for incorporating fluid-membrane interactions between the flow field and deformable RBCs. To do this, first the straight vessel flow was simulated to determine the RBC flow at a parent vessel of the bifurcation model. The simulation results indicated two types of RBC arrangements according to the hematocrit: (i) zigzag-slipper and (ii) aligned-parachute shapes. Next, by adopting the RBC arrangements obtained from the straight vessel analysis, RBC partitioning in the capillary bifurcation was investigated. The simulation results were in agreement with the Pries' empirical model at high hematocrit. On the other hand, the bias of RBC flux for the parachute shape was larger than that of the empirical model at low hematocrit. These results suggest that the partitioning properties of RBCs in the microvascular bifurcation depend largely on the RBC arrangement in the parent vessel.
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红细胞通过对称毛细血管分岔流动特性的数值研究
红细胞(RBC)在微血管分叉处的分配特性很大程度上与微循环网络中氧的不均匀分布有关。本文建立了三维t型对称毛细血管分岔模型,并研究了红细胞在毛细血管分岔中的流动行为。为了考虑流场与可变形红细胞之间的流膜相互作用,采用点阵玻尔兹曼法结合浸入边界法计算模拟血流。为了做到这一点,首先模拟了直血管流动,以确定分岔模型的母血管中的红细胞流动。模拟结果表明,根据红细胞比容,红细胞排列有两种类型:(i)之字形拖鞋形和(ii)对齐降落伞形。接下来,采用直血管分析得到的红细胞排列,研究了红细胞在毛细血管分叉中的分配。在高红细胞压积条件下,模拟结果与Pries的经验模型一致。另一方面,低红细胞压积时,降落伞形状对红细胞通量的偏差大于经验模型。这些结果表明,红细胞在微血管分叉中的分配特性在很大程度上取决于红细胞在母血管中的排列。
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