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Article type: Research Article
Authors: Choi, Hyo Won | Barakat, Abdul I.
Affiliations: Department of Mechanical and Aeronautical Engineering, University of California, Davis, USA
Note: [] Address for correspondence: Prof. Abdul I. Barakat, Department of Mechanical and Aeronautical Engineering, University of California, Davis, One Shields Avenue, Davis, CA 95616, USA. Tel.: +1 530 754 9295; Fax: +1 530 752 4158. E-mail: abarakat@ucdavis.edu.
Abstract: Endothelial cell (EC) responsiveness to shear stress is essential for vasoregulation and plays a role in atherogenesis. Although blood is a non-Newtonian fluid, EC flow studies in vitro are typically performed using Newtonian fluids. The goal of the present study was to determine the impact of non-Newtonian behavior on the flow field within a model flow chamber capable of producing flow disturbance and whose dimensions permit Reynolds and Womersley numbers comparable to those present in vivo. We performed two-dimensional computational fluid dynamic simulations of steady and pulsatile laminar flow of Newtonian and non-Newtonian fluids over a backward facing step. In the non-Newtonian simulations, the fluid was modeled as a shear-thinning Carreau fluid. Steady flow results demonstrate that for Re in the range 50–400, the flow recirculation zone downstream of the step is 22–63% larger for the Newtonian fluid than for the non-Newtonian fluid, while spatial gradients of shear stress are larger for the non-Newtonian fluid. In pulsatile flow, the temporal gradients of shear stress within the flow recirculation zone are significantly larger for the Newtonian fluid than for the non-Newtonian fluid. These findings raise the possibility that in regions of flow disturbance, EC mechanotransduction pathways stimulated by Newtonian and non-Newtonian fluids may be different.
Keywords: Endothelial cells, disturbed flow, mechanotransduction, shear stress, atherosclerosis
Journal: Biorheology, vol. 42, no. 6, pp. 493-509, 2005
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