Patients with congestive heart failure have abnormal coronary hemodynamics, characterized by decreased coronary sinus oxygen content, increased coronary sinus blood flow and increased myocardial oxygen consumption. To evaluate their prognostic importance, the clinical characteristics and systemic and coronary hemodynamics were related to survival in 91 patients with severe congestive heart failure and decreased ejection fraction (25.5 +/- 10% [mean +/- SD]). In 69 patients congestive heart failure was due to or secondary to coronary artery disease (group 1) and in 22 it was due to idiopathic dilated cardiomyopathy (group 2). Five patients were in functional class II, 48 in class III and 38 in class IV. The median survival time was 20.7 months. As assessed with the Cox proportional hazards model, coronary sinus oxygen content was most strongly associated with a poor prognosis. On the basis of a comparison between the lowest (coronary sinus oxygen content less than or equal to 4.44 vol%) and highest quintile (coronary sinus oxygen content greater than 4.44 vol%), a low coronary sinus oxygen content was associated with a 2.34-fold increased risk of dying (95% confidence interval, 1.31 to 4.08). A low systolic blood pressure and a high diastolic pulmonary artery pressure were also significantly associated with increased mortality. Patients in the subgroup with a low coronary sinus oxygen content had values for functional class, ejection fraction and systemic hemodynamics similar to those of patients in the subgroup with high coronary sinus oxygen content. It is concluded that a low coronary sinus oxygen content indicative of noncompensated metabolic demand suggests a poor prognosis in patients with severe congestive heart failure.