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Issue title: Computational Engineering for Health, Environment and Biological Sciences
Article type: Research Article
Authors: Kumar, Nitesha | Khader, Abdula | Pai, Raghuvira; * | Kyriacou, Panayiotisb | Khan, Sanowarb | Koteshwara, Prakashinic
Affiliations: [a] Department of Mechanical and Manufacturing Engineering, Manipal Institute of Technology, Manipal Academy of Higher Education, Manipal, India | [b] School of Mathematics, Computer Science and Engineering, Department of Electrical and Electronic Engineering, University of London, London, UK | [c] Department of Radiodiagnosis, Kasturba Medical College and Hospital, Manipal Academy of Higher Education, Manipal, India
Correspondence: [*] Corresponding author: Raghuvir Pai, Department of Mechanical and Manufacturing Engineering, Manipal Institute of Technology, Manipal Academy of Higher Education, Manipal, India. Tel.: +91 99 4567 0697; E-mail: [email protected].
Abstract: Pulsatile blood flow through the human carotid artery is studied using Computational Fluid Dynamics (CFD) in order to investigate the effect of blood rheology on the hemodynamic parameters. The carotid artery model used is segmented and reconstructed from the Magnetic Resonance Images (MRI) of a specific patient. The results of a non-Newtonian (Carreau-Yasuda) model and a Newtonian model are studied and compared. The results are represented for each peak systole where it is observed that there is significant variation in the spatial parameters between the two models considered in the study. Comparison of local shear stress magnitude in different branches namely Common Carotid Artery (CCA), Internal Carotid Artery (ICA) and External Carotid Artery (ECA) show that the shear thinning property of blood influences the Wall Shear Stress (WSS) variation. This is observed in branches where there is reduction in diameter and where the diameter reduces due to plaque deposition and also in the region where there is flow recirculation like carotid sinus.
Keywords: Carotid artery, computational fluid dynamic, Newtonian and Carreau-Yasuda, wall shear stress
DOI: 10.3233/JCM-181004
Journal: Journal of Computational Methods in Sciences and Engineering, vol. 19, no. 2, pp. 465-477, 2019
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