To determine whether aging affects the coronary circulation, left and right ventricular coronary blood flow and vascular resistance at rest and after maximal vasodilation were measured by left atrial injection of radioactive microspheres in conscious, unrestrained male Fischer 344 rats at 4, 12, and 20 mo of age. As a function of age, maximal coronary blood flow per 100 g of tissue decreased by 43% in the left ventricle at both 12 and 20 mo, whereas a 44 and a 47% reduction was found in the right side of the heart at the same time intervals. Minimal coronary vascular resistance per 100 g of myocardium increased by 56 and 36% in the left ventricle and by 48 and 44% in the right at 12 and 20 mo, respectively. No change was found in total minimal coronary resistance for either ventricle despite an increase in myocardial mass. Maximal coronary blood flow per 100 g to the endocardium was depressed more than epicardial flow, leading to a 24% reduction in the endocardial-to-epicardial flow ratio at 20 mo. Coronary vascular reserve per 100 g, expressed as the increase in coronary blood flow during maximal coronary vasodilation, was greater in the right than in the left ventricle at all ages. It is concluded that the changes in coronary hemodynamics associated with maturation and aging are comparable with those seen in pressure overload hypertrophy with an increased vulnerability potential of the myocardium to ischemic episodes, particularly of the subendocardial region of the left ventricle.