International Journal of Applied Research
Vol. 1, Issue 8, Part F (2015)
A Non-Newtonian mathematical model on the two phase Hepatic Systolic blood flow in Hepatic arterioles with special reference to Hepatitis B.
Om Prakash, V Upadhyay, AK Agrawal and PN Pandey
In this paper, we have presented a model of two phased Systolic blood flow in Hepatic arterioles remote from the heart and proximate to the Liver, Keeping in view the nature of Hepatic blood circulation in human body. The viscosity increases in the arterioles due to formation of rouleaux along axis of red blood cells. P.N. Pandey and V. Upadhyay have considered that the blood flow has two phased, one of which that of red blood cells and other is plasma. They have also applied the Herschel Bulkley Non-Newtonian model in Bio- fluid mechanical setup. We have collected a clinical data in case of Hepatitis B for Hematocrit versus blood pressure. The graphical presentation for a particular parametric value is very close to the clinical observation. The overall presentation is in tensorial form and the solution techanic adopted is analytical as well as numerical. The role of hematocrit is explicit in the determination of blood pressure in case of Hepatic disease Hepatitis B the graphical presentation for particular parametric value is much close to the clinical observation.
How to cite this article:
Om Prakash, V Upadhyay, AK Agrawal and PN Pandey. A Non-Newtonian mathematical model on the two phase Hepatic Systolic blood flow in Hepatic arterioles with special reference to Hepatitis B.. International Journal of Applied Research. 2015; 1(8): 318-323.