A Computational Fluid Dynamics Study on Patient-Specific Bifurcated Carotid Artery

Document Type

Article

Publication Title

Engineered Science

Abstract

The carotid artery is one of the main arteries that provide blood to the brain and face. Sclerotic disorders resulting from plaque build-up in the carotid artery can increase the possibility of a stroke in a patient. This study investigates atherogenesis by carrying out a comparative study of the haemodynamic parameters in patient-specific carotid artery using Computational Fluid Dynamics (CFD) methods. The 3-dimensional model of patient-specific arteries was extracted using their Digital Imaging and Communications in Medicine (DICOM) images via Materialise Interactive Medical Image Control System (MIMICS). The processing of arteries was carried out on 3-matic, a meshing software in MIMICS. The artery blocked due to stenosis was reconstructed using an open-source medical software '3-D Slicer', and was later refined using Meshmixer software. Analysis of Systems (ANSYS) Fluent, an engineering simulation software, was used for this analysis. The conclusions have been drawn by monitoring wall shear stress on the artery under two different non-Newtonian viscosity models. A maximum Wall Shear Stress (WSS) of 17 Pa has been observed for the healthy carotid artery whereas the stenosed carotid artery recorded a maximum WSS of 136 Pa. Further analysis is conducted on the topology of the carotid artery based on the concentration of wall shear stress within the artery.

First Page

243

Last Page

252

DOI

10.30919/es8d691

Publication Date

1-1-2022

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