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Article type: Research Article
Authors: Brookshier, Kathleen K. | Tarbell, John M.
Affiliations: Department of Chemical Engineering, The Pennsylvania State University, University Park, PA 16802, USA
Note: [] Accepted by: G.W. Schmid-Schönbein
Abstract: Porcine blood was used to examine the relationship between hematocrit levels and wall shear rate patterns in straight and curved artery models under fixed oscillatory flow conditions characteristic of larger arteries. It is demonstrated that porcine blood models both the viscous and elastic components of the 2 Hz complex viscosity of human blood quite accurately over a broad range of shear rates (1–1000 s−1) and hematocrits (20% - 80%). For a fixed oscillatory flow waveform (Poiseuille peak shear rate = 168 s−1; mean shear rate 84 s−1), increases in hematocrit produced a decrease in the peak wall shear rate in both the straight and curved artery models and a corresponding decrease in wall shear rate reversal on the inside wall of the curved artery model. The same trends were also observed for oscillatory flows of aqueous glycerin solutions of increasing viscosity in the range of viscosity of the blood samples tested. Aqueous glycerin solutions produced wall shear rate waveforms of the same magnitude and shape as the porcine blood. This indicates that variations in the shear rate, and therefore the shear stress, were caused primarily by changes in the viscous and not the elastic properties of blood. The results suggest that simple Newtonian fluids may be sufficient for in vitro determination of the first order effects to be expected of human blood flow in large vessels having complex geometries and shear rates in or above the range of the present study.
Keywords: Wall shear rate, viscoelasticity, complex viscosity
DOI: 10.3233/BIR-1991-28608
Journal: Biorheology, vol. 28, no. 6, pp. 569-587, 1991
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