A comparison of blood viscosity measured in vitro and in a vascular bed

White, Saxon William

Title: A comparison of blood viscosity measured in vitro and in a vascular bed
Creator: White, Saxon William
Relation: Acta Physiologica Scandinavica Vol. 78, p. 70-84
Publisher: Wiley-Blackwell Publishing
Resource Type: journal article
Date: 1970
Description: Blood viscosity in vivo ("apparent viscosity") and its variations with flow rate was analyzed in the maximally dilated calf muscle vascular bed of the cat by comparing pressure-flow relationships for blood and a Newtonian fluid (dextran-Tyrode) over a flow range between 60 and 0.2 ml/min X 100 g tissue. Viscosity in vitro for the same perfusates was measured in a cone-plate viscometer. Apparent viscosity was much lower (approximately 50%) than in vitro values at high shear rates, with less variation between animals. It increased with decreased flow but was as a maximum only doubled, which occurred at flows around 0.5 ml/min X 100g. Since such small flows normally occur in constricted vessels with higher flow velocities than at maximal dilatation, the range of viscosity changes with flow in the intact circulation is probably decidedly smaller. The steep rise of viscosity in vitro at quite low shear rates had no counterpart in vivo; in fact, viscosity then tended to fall again. The discrepancies between blood viscosity in vivo and in vitro seem to be related to vascular dimensions, favouring "bolus flow" and hence low regional viscosity in the most narrow vessels, which may become more pronounced at further luminal reduction, active or passive. Addition of high molecular weight dextran (HMD) raised apparent viscosity to seemingly high levels at low flows. However, to a considerable extent this appears to be due to cell aggregation and plugging of microvessels rather than to a genuine increase of blood viscosity.
Subject: blood; viscosity; circulation; vivo; vitro
Identifier: http://hdl.handle.net/1959.13/939140
Identifier: uon:12743
Identifier: ISSN:0302-2994
Language: eng
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