Abstract: Disclosure in the medical world is a proving catastrophy ,unadressed may catalyse extinction of human genome.The world over has evidenced the wrath that drug resistance can punch into our medical fortresses.The to xic chemicals that once were our powerful remedies against the of late resistant strains,"the superbugs as we know it,"have rendered research a perpetual practice that have left our economies dwindling.ln Subsaharan Africa,lives have been lost due to resis tant HIV strains and more are on the verge.This paper reports on a programme that is aimed at proving a solution to disclosure related cases and improving adherence patterns among diverse populations by taking into use of scalability and adaptability of a system conceived to foster effectiveness of therapeutic procedures.

• Publication Date: 03-Sep-2017
• DOI: 10.15224/978-1-63248-130-6-63
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Abstract: In the present paper, the problem of pulsatile micropolar blood flow through an elastic artery has been studied. An Arbitrary Lagrangian-Eulerian (ALE) formulation of the dominate equations have been produced to model the fully-coupled Fluid-Structure Interaction (FSI). Furthermore, those derived equations have also been numerically dealt with using finite difference scheme through exploiting a mesh generation technique which leads to a uniformly spaced grid in the computational plane. The effect of variations in cardiac output and elastic modulus of artery wall on blood pressure has been determined by utilizing blood-pressure regulating drugs like Atenolol. Also a numerical model has been prepared in order to precisely define and verify the effects of various dosage of a drug on blood flow in arteries without resorting to the inefficient prevalent experiments that could have many mistakes and costs. The numerical results have shown that the artery wall stiffness has been decreased abo

• Publication Date: 02-Jul-2017
• DOI: 10.15224/978-1-63248-129-0-42
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