Assessing the impact of hyperviscosity on stenosis shape in COVID patients

S. Shankar Narayan; Sunanda Saha; Anuradha Bhattacharjee; M. Ijaz Khan; Ferjeni Zouidi; Sayed M Eldin

Ain Shams Engineering Journal (Dec 2023)

Assessing the impact of hyperviscosity on stenosis shape in COVID patients

S. Shankar Narayan,
Sunanda Saha,
Anuradha Bhattacharjee,
M. Ijaz Khan,
Ferjeni Zouidi,
Sayed M Eldin

Affiliations

S. Shankar Narayan: Department of Mathematics & Statistics, Faculty of Mathematical & Physical Sciences, Ramaiah University of Applied Sciences, Bengaluru 560058, India; Department of Mathematics, Dayananda Sagar University, Bengaluru 560078, India; Corresponding author at: Department of Mathematics & Statistics, Faculty of Mathematical & Physical Sciences, Ramaiah University of Applied Sciences, Bengaluru 560058, India.
Sunanda Saha: Department of Mathematics, Vellore Institute of Technology, Vellore 632014, India
Anuradha Bhattacharjee: Department of Mathematics, Dayananda Sagar University, Bengaluru 560078, India
M. Ijaz Khan: Department of Mechanical Engineering, Lebanese American University, Beirut, Lebanon; Department of Mathematics and Statistics, Ripah International University I-14, Islamabad 44000, Pakistan
Ferjeni Zouidi: Biology Department, Faculty of Arts and Sciences of Muhayil Aseer, King Khalid University, Saudi Arabia
Sayed M Eldin: Center of Research, Faculty of Engineering, Future University in Egypt New Cairo, 11835, Egypt

Journal volume & issue: Vol. 14, no. 12
p. 102227

Abstract

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Recent studies have proven that the shape of the stenosis greatly affects the flow characteristics. The 2D rigid wall model examined in this research is analyzed mathematically using various principles and results of functional analysis for the existence and uniqueness of the solution. The model taken into consideration for the current study has also been used to examine the consequences of hyperviscosity in COVID-19 cases. The results of the investigation surmise that the maximum peak velocity of 3.155m/s and the minimum trough pressure of 7041.538Pa were manifested in the high slope geometry. Also, the number of spots over the upper wall of high slope geometry bearing the least wall shear stress was considerably high when compared to the other geometries. The study deduced that the arterial segment bearing dual high slope stenosis was more susceptible to new plaques, plaque ruptures, and hyper viscous syndrome.

Published in Ain Shams Engineering Journal

ISSN: 2090-4479 (Print); 2090-4495 (Online)
Publisher: Elsevier
Country of publisher: Egypt
LCC subjects: Technology: Engineering (General). Civil engineering (General)
Website: http://www.journals.elsevier.com/ain-shams-engineering-journal/

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