Mechanism of remote myocardial ischaemia after coronary occlusion in open chest dogs.

To determine whether or not the fall in coronary perfusion pressure after coronary occlusion is the cause of remote myocardial ischaemia, regional myocardial blood flow was measured using radiolabelled microspheres before and after left anterior descending (LAD) occlusion in the presence of a left circumflex artery stenosis in 22 anaesthetised dogs. Aortic pressure was maintained constant at the time of left anterior descending artery occlusion in 13 dogs (group 1) and proximal left circumflex artery pressure was held constant by a servocontrolled pump in nine dogs with a carotid artery-left circumflex artery shunt (group 2). Despite the maintenance of constant mean aortic pressure in group 1, remote posterior bed mean(SEM) endocardial flow fell from 0.69(0.05) to 0.43(0.07) ml.min-1.g-1 (p less than 0.05). In the dogs in which left atrial pressure rose to less than or equal to 9 mmHg after left anterior descending artery occlusion, remote bed endocardial flow did not fall significantly (0.66(0.07) to 0.56(0.11) ml.min-1.g-1; NS). In contrast, remote bed endocardial flow fell from 0.73(0.07) to 0.28(0.06) ml.min-1.g-1 (p less than 0.0001) after left anterior descending artery occlusion in the dogs in which left atrial pressure rose to greater than 9 mmHg. The fall in remote bed endocardial flow was prevented in group 2 dogs by maintaining proximal left circumflex artery pressure constant (0.95(0.08) to 0.86(0.09) ml.min-1.g-1; NS). An important mechanism for the development of remote myocardial ischaemia appears to be the fall in proximal coronary perfusion pressure at the time of coronary occlusion.