Direct observations of sympathetic cholinergic vasodilatation of skeletal muscle small arteries in the cat.

1. The aim of this study was to examine the actual changes of the internal diameter (i.d.) of arterial vessels of skeletal muscle evoked by activation of sympathetic cholinergic nerve fibres during stimulation of the hypothalamic defence area in anaesthetized cats. 2. For this purpose, we have used our novel X-ray TV system for visualizing small arteries (100-500 microm i.d.) of the triceps surae muscle and larger extramuscular arteries (500-1400 microm i.d.) of the hindlimb (the femoral (FA), popliteal (PA) and distal caudal femoral (DCFA) arteries). The passage of a contrast medium from the large extramuscular arteries to the smaller intramuscular arteries was serially measured before and during hypothalamic stimulation. 3. Hypothalamic stimulation increased mean arterial blood pressure, heart rate and femoral vascular conductance. The i.d. of FA, PA, and DCFA did not change during the hypothalamic stimulation, whereas the i.d. of small arteries in the triceps surae muscle increased by 48 +/- 2% (mean +/- S.E.M.) and the cross-sectional area increased concomitantly by 118%. The maximum increase in i.d. of 78 +/- 6%, was observed in arteries of 100-200 microm. These increases in diameter were markedly reduced by intra-arterial injection of atropine or by cutting the sciatic nerve, but not by phentolamine and propranolol given together. 4. The vasodilatation evoked by hypothalamic stimulation was seen in almost all the sections of the small arteries observed under control conditions and was distributed along the entire length of the vessel. In addition, the number of arterial vessels that could be detected increased by 42% during hypothalamic stimulation. The newly detected arterial branches, which ranged from 100 to 300 microm in diameter, mostly arose from the branching points. 5. It is concluded that stimulation of sympathetic cholinergic nerve fibres dilates the small arteries of skeletal muscle ranging from 100 to 500 microm, but not the larger extramuscular arteries.