Fundamental determinants of left ventricular (LV) pump performance are preload, afterload and myocyte contractility. Regional variability in LV end systolic wall stress, an important index of LV afterload, has been well defined in both control and congestive heart failure (CHF) states. The goal of this study was to examine end systolic wall stress and myocyte contractile function in three circumferential regions of the LV in both control and CHF states. Accordingly, LV end systolic wall stress and myocyte velocity of shortening were measured from the basal, mid and apical regions in control pigs (n=5) and following the induction of pacing-induced CHF (3 weeks, 240 beats/min, n=5). LV mid wall, circumferential, end systolic wall stress decreased from base to apex in both control (35+/-7 v 16+/-4 g/cm2, P<0.05) and CHF (155+/-23 v 92+/-24 g/cm2, P<0.05) states. In the CHF group, LV end systolic wall stress was elevated by 300% compared to control values in all regions. LV myocyte velocity of shortening was equivalent in the basal and mid regions of control myocytes (52+/-2 v 57+/-2 m/s), and was higher in the apical region (63+/-3 microm/s, P<0.05). In the CHF group, LV myocyte velocity of shortening was reduced by 45% compared to controls with no regional variation. beta-adrenergic stimulation increased myocyte velocity in both the control and CHF groups, however, regional variation was observed only in the CHF group. These unique results demonstrated that minimal regional variations in myocyte contractile function exist in both control and congestive heart failure states, and does not necessarily parallel patterns of regional LV end systolic wall stress.