Although the pressure-rate product (double product; DP) is generally recognized as a good index of myocardial oxygen consumption (VO2), catecholamines are reported to change the VO2-DP relationship. However, the separate influences of chronotropism and inotropism on the VO2-DP relation have not been studied. Therefore, we examined these influences in anesthetized open-chest dogs by cardiac pacing and dobutamine infusion. We observed two different VO2-DP lines under the separate chronotropic and inotropic changes. We interpreted such VO2-DP relations by the concept of the pressure-volume area (PVA). PVA is a measure of total mechanical energy for ventricular contraction and is a specific area in the ventricular pressure-volume (P-V) diagram circumscribed by the end-systolic and end-diastolic P-V relation curves and the systolic segment of the P-V trajectory. The empirical VO2-PVA relation that had been obtained in our previous studies reasonably simulated the dissociation of DP from VO2 under separate changes in chronotropism and inotropism.