Antihistamine-sensitive active vasodilatation in the perfused hindquarters of the rat.

The innervated, constant flow perfused hindquarters of the rat have been used to evaluate post-stimulation vasodilatation, which is a model of active reflex vasodilatation in this species. The vasodilatation resulting from lumbar sympathetic stimulation was dependent on stimulation frequency and duration. Maximal vasodilatation (16 +/- 2%) was at 8 Hz for 15 s, while markedly reduced vasodilatation was seen after stimulation for longer than 30 s at all frequencies tested. The vasodilatation was transient. Atropine (2.0 mg kg-1 i.v.) failed to attenuate post-stimulation vasodilatation at a time when hindquarter vasodilatation to i.a. acetylcholine had been abolished. The H1 antihistamine, tripelennamine (2.5 mg kg-1 i.v.) significantly reduced (77%) post-stimulation vasodilatation relative to controls at a time when hindquarter vasodilatation due to i.a. histamine was essentially abolished. Reactive hyperaemia is an unlikely cause of vasodilatation since it is not blocked by H1 antihistamines; 60 s post-occlusion hyperaemia also, was not demonstrable. These data suggest that there is an active component of baroreceptor-mediated vasodilatation in the rat and that histamine, rather than acetylcholine, could be a mediator of this vasodilatation.