Characterization of the Frequency-Force Relationship in the Dog Atrium In Situ

Author:

GRAHAM T. P.1,POWELL W. J.1,CLANCY R. L.1,GILMORE J. P.1

Affiliation:

1. Laboratory of Cardiovascular Physiology, National Heart Institute, National Institutes of Health Bethesda, Maryland

Abstract

Isometric developed tension and rate of development of tension in the in situ atrium of the anesthetized dog have been shown to increase consistently with increasing heart rate over a wide range. This study thus definitely demonstrates that both the ascending and descending staircase effects occur in the dog atrium in situ. At high cardiac rates the velocity of force development may increase without a change in the extent of force development. These changes were independent of variations in aortic pressure, intactness of betaadrenergic receptors, level of cardiac catecholamine stores, cardiac innervation, or changes in coronary flow. The character of the frequency-force relationship was found to be markedly influenced by isolation of the heart with its concomitant depression of contractility.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Cardiology and Cardiovascular Medicine,Physiology

Reference15 articles.

1. BOWDITCH H. P.: Uber die Eigenthiimlichkeiten der Reizbarkeit weiche die Muskelfasem des Herzens Zeigen. In Arbeiten aus der physiologischon Anstalt Zu Leipzig 6: 139 1871.

2. Maximal contraction, "staircase" contraction, refractory period, and compensatory pause of the heart Am;WOODWORTH R. S.;J. Physiol.,1902

3. Action of electrolytes on the contractile mechanism of the cardiac muscle cell. In Handbook of Physiology, sec. 2, vol. 1, Circulation, edited by W. F. Hamilton and P. Dow. Washington, D. C;LEONAHD E.;American Physiological Society,1962

4. The influence of the interval between the beats on myocardial contractility;KOCH-WESER J.;Pharmacol. Rev.,1963

5. Determinants of atrial contractile force in the intact heart;WILLIAMS J. F.;Am. J. Physiol.,1965

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