Effects of Sedimentation of Small Red Blood Cell Aggregates on Blood Flow in Narrow Horizontal Tubes

Article type: Research Article

Authors: Murata, T.

Affiliations: Department of Physics, Faculty of Science, Tokyo Metropolitan University, Minami Ohsawa 1-1, Hachiohji-si, Tokyo 192-03, Japan; Fax: 81-426-77-2483

Abstract: The flow properties of aggregating red cell suspensions flowing at low flow rates through horizontal tubes are analyzed using a theoretical model. The effects of sedimentation of small aggregates, which will be formed at comparatively high flow rates, on the relative apparent viscosity are considered. In the case in which a large number of small aggregates are formed in a suspension flowing through a horizontal tube, it seems that red cells are transported as a concentrated suspension through the bottom part of the tube because of sedimentation of aggregates. A two-layer flow model is used for the distribution of red cells. It consists of plasma in the upper part and a concentrated red cell suspension in the bottom part of the tube divided by a smooth and horizontal interface. It is assumed that the suspension is a Newtonian fluid whose viscosity increases exponentially with hematocrit. The velocity distribution, the relative apparent viscosity and the flux of red cells are calculated as functions of width of plasma layer for a different discharge hematocrit. The theoretical results are compared with the results obtained from experimental data. The relative apparent viscosity increases rapidly with an increasing degree of sedimentation over a wide range of plasma layer widths.

Keywords: Red cell aggregation, sedimentation of aggregates, microcirculation, flow resistance, blood viscosity

DOI: 10.3233/BIR-1996-33305

Journal: Biorheology, vol. 33, no. 3, pp. 267-283, 1996