Cardiac sympathetic stimulation increases cardiac contractility but decreases contractile efficiency in canine hearts in vivo

Abstract

The effect of cardiac sympathetic stimulation on cardiac contractile efficiency was studied in dogs. In 19 anesthetized and open-chest dogs, left ventricular (LV) pressure, LV volume, coronary blood flow and coronary venous oxygen saturation were measured simultaneously. The LV end-systolic pressure volume relations (ESPVR) and the relation between myocardial oxygen consumption (V̇O2)-pressure volume area (PVA) were obtained during a transient occlusion of the inferior vena cava before and after sympathetic stimulation (9V, 6 Hz, 40 sec) both with and without 50 mg/kg of 2,3- butanedione monoxime (BDM). Without BDM, sympathetic stimulation increased the slope of ESPVR by 62% (p <0.05) and the y-axis intercept of the V̇O2-PVA by 65% (p<0.05). With BDM, the increase in the slope of the V̇O2-PVA line became insignificant although other responses were similarly preserved. These data imply that cardiac sympathetic stimulation decreases cardiac contractile efficiency through mechanisms by which norepinephrine-induced β-adrenergic activation enhances myosin ATPase-operating ATP hydrolysis in crossbridge formation.