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Marian Wysocki, MD, PhD*

Ove K. Andersson, MD, PhD*

Bengt Persson, MD, PhD*

and Ulf Bagge, MD, PhD^

ABSTRACT

The reduction of blood viscosity by moderate acute hypervolemic hemodilution in untreated hypertensives can be associated with a secondary vasoconstriction. The aim of this study was to examine whether a vasodilating therapy prevents this hemodynamic reaction.

Twelve hypertensive patients (WHO stage II) were treated with the vasoselective calcium channel blocker isradipine in a placebo-controlled, double-blind, crossover study. Acute hypervolemic hemodilution was performed twice: at the end of the placebo period and after two months of treatment. Hemodilution was achieved by the intravenous infusion of 1000 mL saline over a 10- to 15-minute period. Arterial blood pressure, heart rate, cardiac output (dye dilution), renal blood flow, glomerular filtration, natriuresis, hematocrit, whole blood, and plasma viscosity were assessed before and after infusion. Flow resistance and vascular hindrance in the central and renal circulation were calculated.

Acute hemodilution associated with a significant reduction of blood (P<0.01) and plasma (P<0.01) viscosity did not influence the mean arterial pressure and cardiac output. Consequently, the total flow resistance remained unchanged. However, as a result of hemodilution, the calculated vascular hindrance index in the systemic circulation increased, indicating a vasoconstrictive reaction, both with placebo (from 5.22 to 6.07 U x mPa^sup -1^ x s^sup -1^, P<0.05) and during chronic treatment with calcium blockade (from 3.75 to 4.22 U x mPa^sup -1^ x s^sup -1^, P<0.02). Vasoconstriction was not observed in the renal circulation, either during the placebo or active treatments.

The results of this study indicate that the systemic vasoconstriction evoked by the acute moderate hypervolemic hemodilution in hypertensive patients was not prevented by a calcium channel blockade.