PREVENTION OF HYPOXEMIA-INDUCED RENAL DYSFUNCTION BY PERINDOPRILAT IN THE RABBIT

摘要

The role of angiotensin II, a potent postglomerular vasoconstrictor, in the hypoxemia-induced renal changes is still controversial. The ability of perindoprilat, an angiotensin converting-enzyme inhibitor, to prevent the acute renal effects of hypoxemia was assessed in 22 anesthetized-ventilated rabbits. In 8 untreated rabbits, hypoxemia induced a significant drop in mean blood pressure (MBP) (-12 +/- 2%), glomerular filtration rate (GFR) (-16 +/- 3%) and renal blood flow (RBF) (-12 +/- 3%) with a concomittant increase in renal vascular resistance (RVR) (+18 +/- 5%) and urine flow rate (+33 +/- 14%), and without any changes in filtration fraction (FF) (-4 +/- 2%). This suggests the occurrence of glomerular vasoconstriction during the hypoxemic stress. In 7 normoxemic rabbits, intravenous perindoprilat (20 mu g/kg) induced an increase in urine flow rate (+17 +/- 4%) and RBF (-17 +/- 4%), and a decrease in MBP (-6 +/- 1%), RVR (-14 +/- 3%) and FF (-11 +/- 2%) without a significant change in GFR. The drop in FF and the increase in RBF suggests preferential postglomerular vasodilatation. In 7 rabbits, perindoprilat prevented the occurence of the hypoxemia-induced changes in RBF and RVR without improving MBP. FF decreased significantly (-18 +/- 2%), while the drop in GFR (-7 +/- 2%) was partially blunted and the increase in urine flow rate (+25 +/- 9%) was confirmed. These results could be explained by the inhibition of the angiotensin-mediated efferent vasoconstriction and by the inhibition of bradykinin degradation by perindoprilat. These data confirm the ability of converting-enzyme inhibitors to prevent the renal hypoperfusion induced by acute hypoxemia. [References: 45]