It has been shown that sustained insulin infusion causes an increase in sympathetic vasoconstrictor discharge but, despite this, also causes peripheral vasodilatation. The present study was designed to determine in healthy subjects the effect of ingestion of a carbohydrate meal, with its attendant physiological insulinaemia, on vascular resistance in and sympathetic vasoconstrictor discharge to the same vascular bed, and the relationship between these parameters. Fifteen healthy subjects were studied for 2h following ingestion of a carbohydrate meal. Calf vascular resistance was measured by venous occlusion plethysmography, and muscle sympathetic nerve activity was assessed by peroneal microneurography. Five of the subjects also ingested water on a separate occasion, as a control. Following the carbohydrate meal, the serum insulin concentration increased to 588±72pmol/l. This was associated with a 47% increase in skeletal muscle blood flow ( P < 0.001), a 39% fall in vascular resistance ( P < 0.001) and a 57% increase in sympathetic activity ( P < 0.001). There was a significant correlation between the increase in insulin and the changes in blood flow, vascular resistance and sympathetic activity. In conclusion, we have shown that ingestion of a carbohydrate meal, with its attendant physiological insulinaemia, was associated with overriding skeletal muscle vasodilatation, despite an increase in sympathetic vasoconstrictor discharge to the same vascular bed. These mechanisms may be important in ensuring optimal glucose uptake and maintenance of blood pressure postprandially.

A marked pressor response to water drinking has been observed in patients with autonomic failure and in the elderly, and has been attributed to sympathetic vasoconstrictor activation, despite the absence of such a pressor response in healthy subjects with intact sympathetic mechanisms. We investigated whether water drinking in normal subjects affected peripheral sympathetic neural discharge and its effect on vascular resistance. In nine normal human subjects, we examined the effect of water ingestion on muscle sympathetic neural activity from the peroneal nerve, as multi-unit bursts (muscle sympathetic nerve activity; MSNA) and as single-unit impulses (s-MSNA) with vasoconstrictor function, and on calf vascular resistance for 120 min. In each subject, water ingestion caused increases in s-MSNA and MSNA which peaked at 30 min after ingestion; they increased respectively (mean±S.E.M.) from 42±4 to 58±5 impulses/100 beats ( P < 0.01) and from 36±4 to 51±5 bursts/100 beats ( P < 0.001). There were corresponding increases in calf vascular resistance and in plasma noradrenaline levels. A significant correlation occurred between all of these data. In conclusion, measurement of MSNA has provided direct evidence that water drinking in normal human subjects increases sympathetic nerve traffic, leading to peripheral vasoconstriction. This sympathetic activation was not accompanied by significant changes in arterial blood pressure.