Affiliation:
1. Departments of Physiology and Pediatrics, Duke University Medical Center Durham, North Carolina 27710
Abstract
The way that contractility varies between beats--the force-frequency relationship--was determined for rabbit papillary muscles held at different lengths. When the maximum rate of rise of tension in a contraction, F
max
, was used as a measure of contractility, the way contractility changed between contractions was independent of length. That is, when the values of F
max
obtained at one length were multiplied by an appropriate scaling factor, the force-frequency relationship determined at that length was indistinguishable from the force-frequency relationship determined at another length. If, however, the peak tension in a contraction was used as a measure of contractility, the Force-frequency relationship generally was not independent of muscle length. Therefore, it is proposed that the ratio of two values of F
max
obtained by perturbing the rate of stimulation at any given length should be tried as a length independent index of the inotropic state of the muscle.
Publisher
Ovid Technologies (Wolters Kluwer Health)
Subject
Cardiology and Cardiovascular Medicine,Physiology
Reference24 articles.
1. LUNDIN G.: Mechanical properties of cardiac muscle. Acta Physiol Scand [Suppl] 20:1-84 1944.
2. A STUDY OF INOTROPIC MECHANISMS IN THE PAPILLARY MUSCLE PREPARATION
3. Implication of muscle mechanics in the heart;SONNENBLICK E.H.;Fed Proc,1962
4. Zur Dynamik des Herz muskels;FRANK O.;Z Biol,1895
5. STARLING E.H.: The Linacre Lecture on the Law of the Heart Cambridge 1915 monograph. London Longmans Green & Company Ltd. 1918.
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