Abstract
The effect of acetylcholine on regional coronary blood flow and myocardial O2 consumption was determined in order to compare its direct vasodilatory effects with the metabolic vasoconstriction it induces. Experiments were conducted in seven untreated control anaesthetized open chest rabbits and seven rabbits which were infused with acetylcholine (1 μ/kg/min). Myocardial blood flow was determined before and during acetylcholine infusion using radioactive microspheres. Regional arterial and venous 02 saturation was analyzed microspectrophotometrically.
Acetylcholine reduced heart rate by 30% and significantly depressed the arterial systolic and diastolic blood pressure. The mean 02 consumption was significantly reduced with acetylcholine from 9.6±2.0 to 6.1 ±3.6 ml O2/min/100 g. Coronary blood flow decreased uniformly across the left ventricular wall by about 50% and resistance to flow increased by 42% despite potential direct cholinergic vasodilation. O2 extraction was not affected by acetylcholine infusion. It is concluded that the acetylcholine infusion directly decreased myocardial O2 consumption, which in turn lowered the coronary blood flow and increased the resistance. The decreased flow was related to a reduced metabolic demand rather than a direct result of lowered blood pressure. Unaffected myocardial O2 extraction also suggested that blood flow and metabolism were matched. This indicates that direct cholinergic vasodilation of the coronary vasculature does not allow a greater reduction in metabolism than flow in the anaesthetized open chest rabbit heart during acetylcholine infusion.