Stunning (reversible myocardial ischemia without necrosis) occurs with induced global ischemia during cardiac operations and depresses the ability of the heart to utilize oxygen efficiently because less contractile work is developed per unit of oxygen utilized. Interestingly, regional studies have demonstrated dramatic infarct size reduction with stunning episodes before prolonged ischemia, a phenomenon known as myocardial preconditioning. It is postulated that the postischemic contractile dysfunction noted after stunning causes reduced energy demands, which "preconditions" myocardium to withstand a subsequent longer ischemic episode. Some evidence from regional studies suggests that preconditioning may improve functional recovery after ischemia. This study examined the complex relationship between stunning and preconditioning to functional recovery in a surgical setting of global ischemia. To study the effect of stunning, myocardial oxygen consumption, oxygen extraction, and functional indices of contractility were measured before and after isolated rabbit hearts were subjected to 10, 20, or 45 minutes of normothermic 37 degrees C global ischemic stun intervals. This demonstrated that while oxygen consumption and extraction quickly recover to prestun levels, contractility remains depressed well beyond the stun interval. To study the effect of preconditioning using stunning, isolated hearts were then subjected to 120 minutes of 34 degrees C cardioplegic-induced ischemia after preconditioning. Hearts received either modified St. Thomas cardioplegic solution as a control or cardioplegia administered after preconditioning with 37 degrees C ischemic stunning for 5, 10, 15, 20, or 45 minutes or multiple 5- or 10-minute stuns, with reperfusion before cardioplegic-induced ischemia.(ABSTRACT TRUNCATED AT 250 WORDS)