Effects of Coronary Blood Flow and Perfusion Pressure on Left Ventricular Contractility in Dogs

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Circulation Research. 1970;27:961-971

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(Circulation Research. 1970;27:961.)
© 1970 American Heart Association, Inc.

Effects of Coronary Blood Flow and Perfusion Pressure on Left Ventricular Contractility in Dogs

RONALD M. ABEL M.D.¹ ROBERT L. REIS M.D.¹

¹ Clinic of Surgery, National Heart and Lung Institute Bethesda, Maryland 20014

The effects of changes in coronary blood flow and coronary arterypressure on left ventricular (LV) contractility were determinedin 18 animals. Dogs on cardiopulmonary bypass provided isovolumetricLV contractions during controlled perfusion of the coronarycirculation. Coronary venous efflux, myocardial oxygen consumption,peak LV pressure, LV dp/dt, and the force-velocity relationsof the LV were determined at normal and at "supernormal" levelsof flow and pressure. Coronary vasodilatation was obtained withnitroglycerine, permitting independent variation of flow andpressure. Augmenting flow by increasing pressure increased LVcontractility, as reflected by increases in peak LV pressure,dp/dt max, peak wall tension, and maximal measured contractileelement velocity. Increased contractility appeared to be primarilydue to increased flow, rather than to pressure, as an increasein flow without an increase in pressure produced similar changes,and decreases in pressure at constant flow did not change maximalmeasured contractile element velocity or dp/dt max, althoughsome decrease in peak LV pressure and wall tension did occur.These data suggest that coronary flow is an independent determinantof the contractile state of myocardium, and that an increasein flow in excess of that required to supply metabolic demandsaugments myocardial contractility.

Key Words: myocardial contractility • nitroglycerine • coronary vascular resistance • myocardial oxygen consumption • contractile element velocity • force-velocity relations • inotropic state • ventricular compliance

Submitted on April 2, 1970
Accepted on October 19, 1970

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