Background/aims: This study aimed to investigate: (i) whether the hyperkinetic circulation that develops after portacaval shunt is associated with decreased vascular sensitivity to vasoconstrictors and (ii) the role of nitric oxide on its pathogenesis.
Methods: Portacaval-shunted and sham-operated rats received long-term treatment with the nitric oxide inhibitor L-NAME (osmotic minipump) or its inactive enantiomer D-NAME. Measurements of arterial pressure, cardiac output and superior mesenteric artery blood flow (transit-time flow probe) were done 4 days later in baseline conditions and after increasing doses of methoxamine. Peripheral and superior mesenteric vascular resistance were calculated.
Results: Portacaval shunted rats showed a significantly lower peripheral and superior mesenteric vascular resistance and a significant reduction in their response to incremental doses of methoxamine than sham-operated controls. Chronic nitric oxide inhibition attenuated the systemic but not the splanchnic vasodilatation and totally corrected the hyposensitivity to methoxamine of portacaval-shunted rats. However, they still had a significantly lower peripheral and superior mesenteric vascular resistance than sham-operated rats.
Conclusions: This study shows that the splanchnic and systemic hyporesponsiveness to methoxamine observed in portacaval-shunted rats could be explained by an excess of nitric oxide. However, other factors may be involved in maintaining splanchnic and systemic vasodilatation despite NO-inhibition.