Research PaperNo Access

Application of computational fluid dynamics for detection of high risk region in middle cerebral artery (MCA) aneurysm

Ali Rostamian

Department of Mechanical Engineering, Sari Branch, Islamic Azad University, Sari, Iran

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Keivan Fallah

Department of Mechanical Engineering, Sari Branch, Islamic Azad University, Sari, Iran

E-mail Address: Keyvan.fallah@gmail.com

E-mail Address: Keyvan.fallah@iau.ac.ir

Corresponding author.

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Yasser Rostamiyan

Department of Mechanical Engineering, Sari Branch, Islamic Azad University, Sari, Iran

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, and

Javad Alinejad

Department of Mechanical Engineering, Sari Branch, Islamic Azad University, Sari, Iran

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https://doi.org/10.1142/S0129183123500195Cited by:27 (Source: Crossref)

Abstract

In the recent decades, the main reason for the high death rate is related to cardiovascular disease and stroke. In this paper, numerical studies have been done to investigate the hemodynamic effects on the rupture of middle cerebral artery (MCA) in different working conditions. In this work, the effects of the blood viscosity and velocity on the pressure distribution and average wall shear stress (AWSS) are fully investigated. Also, the flow pattern inside the aneurysm is investigated to obtain the high-risk regions for the rupture of the aneurysm. Our findings show that the wall shear stress increases with increasing the blood flow velocity. Meanwhile, the risk of aneurysm rupture is considerably increased when the AWSS increases more than 0.6. In fact, the blood flow with high viscosity expands the high-risk region on the wall of the aneurysm. Blood flow indicates that the angle of the incoming bloodstream is substantially effective in the high-risk region on the aneurysm wall. The augmentation of the blood velocity and vortices considerably increases the risk of hemorrhage of the aneurysm.

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