Intracarotid nitroprusside does not augment cerebral blood flow in human subjects

Abstract

Background: The recent resurgence of interest in the cerebrovascular effects of nitroprusside can be attributed to the possibility of using nitric oxide donors in treating cerebrovascular insufficiency. However, limited human data suggest that intracarotid nitroprusside does not directly affect cerebrovascular resistance. In previous studies, physiologic or pharmacologic reactivity of the preparation was not tested at the time of nitroprusside challenge. The authors hypothesized that if nitric oxide is a potent modulator of human cerebral blood flow (CBF), then intracarotid infusion of nitroprusside will augment CBF. Methods: Cerebral blood flow was measured (intraarterial 133Xe technique) in sedated human subjects undergoing cerebral angiography during sequential infusions of (1) intracarotid saline, (2) intravenous phenylephrine to induce systemic hypertension, (3) intravenous phenylephrine with intracarotid nitroprusside (0.5 μg · kg-1 · min-1), and (4) intracarotid verapamil (0.013 mg · kg-1 · min-1). Data (mean ± SD) were analyzed by repeated-measures analysis of variance and post hoc Bonferroni-Dunn test. Results: Intravenous phenylephrine increased systemic mean arterial pressure (from 83 ± 12 to 98 ± 6 mmHg; n = 8; P < 0.001), and concurrent infusion of intravenous phenylephrine and intracarotid nitroprusside reversed this effect. However, compared with baseline, CBF did not change with intravenous phenylephrine or with concurrent infusions of intravenous phenylephrine and intracarotid nitroprusside. Intracarotid verapamil increased CBF (43 ± 9 to 65 ± 11 ml · 100 g-1 · min-1; P < 0.05). Conclusions: The authors conclude that, in humans, intracarotid nitroprusside sufficient to decrease mean arterial pressure during recirculation, does not augment CBF. Failure of intracarotid nitroprusside to augment CBF despite demonstrable autoregulatory vasoconstriction and pharmacologic vasodilation questions the significance of nitric oxide-mediated vasodilation in human cerebral circulation.