Differences in the regulation of vascular resistance in guinea pigs with right and left heart failure.

Abstract

Neurogenic, non-neurogenic and structural contributions to vascular resistance were investigated in hindquarters in 5 groups of guinea pigs after heart failure produced by constriction of the pulmonary artery (RHF), ascending aorta (LHFA) and descending thoracic aorta (LHFD), after left ventricular hypertrophy produced by mild constriction of the ascending aorta (LVH) and after sham surgery. Pressure-flow curves assessed vascular resistance in the isolated, perfused hindquarters. In RHF and LHFA, vascular resistance tended to increase for differnt reasons. In the LHFA group, sympathectomy produced the greatest vasodilation. Neurogenic influences predominanted. The high neurogenic tone may have been related to reduced arterial pulse pressure (P < 0.05) and reflexes arising in arterial baroreceptors. The LHFD group had increased arterial pressure and pulse pressure (P < 0.05) and normal neurogenic vasoconstriction. Non-neurogenic vasoconstriction was increased probably as a result of increased vascular responsiveness to constrictor stimuli. In the RHF group, papaverine produced the greatest vasodilation (P < 0.05). Non-neurogenic influences predominated. This was attributed to increased vascular responsiveness and altered humoral stimuli. Similar maximal vasodilation indicated that structural factors contributed equally to vascular resistance in all groups. Differences in regulation of vascular resistance in anesthetized, guinea pig models of right and left heart failure are indicated.