Altered flow-dependent vasodilatation of conduit arteries in maintenance haemodialysis.

Abstract

An altered arterial nitric oxide (NO) pathway could partly explain the damage to arteries observed in haemodialyzed (HD) patients. The present study was designed to non-invasively evaluate the NO pathway of peripheral conduit arteries in HD patients. Twelve normotensive, non-diabetic HD patients treated with erythropoietin and 12 matched healthy controls (C) were included in the study. The effect of endogenous release of NO was assessed by measuring the flow-dependent vasodilatation of the radial artery (post-ischaemic hyperaemia), and the response to exogenous NO assessed using sublingual glyceryl trinitrate administration (GTN). Radial artery diameter (echo-tracking), radial blood flow (RBF: Doppler) and mean arterial pressure (Finapres) were identical at baseline in HD patients and in healthy subjects. The flow-dependent vasodilatation of the radial artery was decreased in HD patients (C: 9 +/- 1% vs HD: 3 +/- 05%, P < 0.05). The decrease in radial vascular resistance (C: -44 +/- 4% vs HD: -24 +/- 2%, P < 0.05) and the increase in radial diameter (C: 31 +/- 2% vs HD: 25 +/- 2%, P < 0.05) after GTN administration were less in HD patients than in controls. The ratio between the increase in diameter after hyperaemia to the increase in diameter after GTN, was also diminished in HD patients (C: 30 +/- 3% vs HD: 13 +/- 2%, P < 0.001). The flow-dependent vasodilatation of peripheral conduit arteries is altered in HD patients and is associated with a slight but significant decrease in the vasodilating response to exogenous NO. These results suggest, in the absence of changes in basal radial vascular resistance and arterial diameter, more a decrease in endothelial NO bioavailability, than an increase in basal vascular tone.