Cardiac dynamics of the Langendorff perfused heart.

Abstract

The Langendorff perfused heart is studied in a closed system with (i) automatic regulations to maintain constancy of the perfusion column (Krebs-Henseleit + 0.5% albumin or 25-30% washed erythrocyte suspension), (ii) continuous recording of rate, coronary flow, and supravalvular aortic pressure. A microcomputer with software interface is used for storage treatment and on-line analysis of the recorded variables. In 38 preparations perfused with Krebs-Henseleit, minimal diastolic (61.2 +/- 2.8 mm Hg) is significantly below and peak systolic (98.7 +/- 3.6 mm Hg) significantly above perfusion pressure (80 mm Hg). Pressure difference between minimal diastolic and peak systolic (delta P) is 37.5 +/- 1.8 mm Hg. Increases in perfusion pressure will be associated with increases of coronary flow and delta P, which is also increased by isoprenaline administration. Oxygen consumption decreased by 76% when perfusion pressure was lowered from 80 to 60 mm Hg in hearts perfused with a 30% erythrocyte suspension. All of these experimental results were interpreted as indicating that delta P measured in this system resulted from an ejected volume (x acceleration) from the heart. The ejected volume corresponds to a valvular leak caused by the rigid nature of the system which is devoid of aortic compliance. delta P may be considered an index of left ventricular performance, an indication that the Langendorff preparation studied under the present conditions is a working heart. A 100-microliter volume constant infusion syringe for time administration of cardioactive drugs may be inserted at the base of the perfusion column to obtain dose-response effects.