A Mathematical Model for Blood Flow Accounting for the Hematological Disorders

Q2 Mathematics

Computational and Mathematical Biophysics Pub Date : 2022-01-01 DOI:10.1515/cmb-2022-0136

A. Karthik, Panthagani Praveen Kumar, T. Radhika

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引用次数: 1

Abstract

Abstract This paper considers a mathematical model that accounts for the hematological disorders of blood in its flow in human arteries. Blood is described as a Newtonian fluid but with its viscosity as a function of the hematocrit, plasma viscosity, and shape factor of the red blood cells. The artery is modeled as a flexible circular pipe with the blood flow as oscillatory. This model is solved using HAM (Homotopy Analysis Method), an approximate analytical method, and we computed expressions for wall shear stress (WSS) and volumetric flow rate. With the help of publicly available data, blood flow in the human femoral artery for male and female populations aged 19 to 60 and above years is simulated for healthy, anemia, and polycythemia cases. The model projected a significant difference in the mean volumetric flow rates in the conditions mentioned above. Results also indicated that the mean WSS of healthy and anemic populations are not significantly different. However, a significant difference in the mean has been observed in healthy and polycythemic conditions. Furthermore, a 33.3% decrease in hematocrit value from that in the normal range (taken as 0.45) of a healthy population has increased the flow rate by 33.5%. For a value 33.3% above 0.45, there is a decrease of 42.7% in the flow rate.

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血液系统疾病的血流数学模型

摘要:本文考虑了一个数学模型，该模型可以解释血液在人体动脉流动中的血液学紊乱。血液被描述为牛顿流体，但其黏度是红细胞压积、血浆黏度和红细胞形状因子的函数。动脉被建模成一个有弹性的圆管，血流是振荡的。采用近似解析方法HAM (Homotopy Analysis Method)对该模型进行求解，并计算出壁面剪切应力(WSS)和体积流量的表达式。在公开可用数据的帮助下，模拟了19至60岁及以上男性和女性人群的健康、贫血和红细胞增多症病例的股动脉血流。在上述条件下，该模型预测了平均体积流量的显著差异。结果还表明，健康人群和贫血人群的平均WSS无显著差异。然而，在健康和红细胞增多的情况下，平均数有显著差异。此外，与健康人群的正常范围(取0.45)相比，红细胞压积值下降33.3%，使血流速率增加33.5%。高于0.45的值为33.3%时，流量下降42.7%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Computational and Mathematical Biophysics Mathematics-Mathematical Physics

CiteScore

2.50

自引率

0.00%

发文量

审稿时长

30 weeks