Shortening versus isometric contractions in isolated human failing and non-failing left ventricular myocardium: dependency of external work and force on muscle length, heart rate and inotropic stimulation

doi:10.1016/S0008-6363(97)00215-0

Cardiovascular Research 1998 37(1):46-57; doi:10.1016/S0008-6363(97)00215-0
© 1998 by European Society of Cardiology

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Shortening versus isometric contractions in isolated human failing and non-failing left ventricular myocardium: dependency of external work and force on muscle length, heart rate and inotropic stimulation

Ch Holubarsch^a^,*, J Lüdemann^a, S Wiessner^a, Th Ruf^a, H Schulte-Baukloh^a, S Schmidt-Schweda^a, B Pieske^a, H Posival^b and H Just^a

^aUniversity of Freiburg, Internal Medicine, Dept. of Cardiology and Angiology, Hugstetter Strasse 55, Freiburg, 79106, Germany
^bDept. of Cardiovascular Surgery and Heart Transplantation, 32545 Bad Oeynhausen, Germany

^* Corresponding author. Tel.: +49-761-270-3618; Fax: +49-761-270-3611.

Background: For reasons of simplicity, studies on isolated humanmyocardium have been conducted using exclusively isometric contractions,although positive inotropic interventions may differently influenceforce development, extent of shortening and myocardial workperformance. We investigated human left ventricular failingand non-failing preparations comparing isometric versus isotonic,i.e., shortening contractions. Results: (1) When muscle lengthis increased from 90% to 100% l_max, peak developed force increasesby 36% and 43% (p<0.05) in non-failing and failing humanleft ventricular myocardium, respectively. Maximum performedwork increases similarly in non-failing but decreases in failingmyocardium. It can be shown that this discrepancy is due tosignificantly higher resting tension and does not present aninsufficient intrinsic shortening capacity in failing myocardium.(2) When stimulation rate is increased from 0.5 to 2.0 Hz, isometricforce increases significantly by 59% in non-failing and decreasesby 27% in failing myocardium, whereas maximum performed workincreases by 98% and decreases by 46%, respectively. (3) Pharmacologicalpositive inotropic interventions by 7.2 mM calcium (n = 9),3x10^–8 M isoproterenol (n = 7), 3x10^–8 M ouabain(n = 5), and 10^–5 M EMD 57033 (n = 3) equally increasedforce development and extent of shortening: When the fractionaleffect on shortening (y) was correlated to the fractional effecton force (x), the following linear regression equation was obtained:y = 0.91x+0.26 (r = 0.86; p<0.001). Conclusions: The datapresented are of clinical and pharmacological importance: (1)The Frank-Starling mechanism is demonstrated to be existentin the failing human myocardium regarding both isometric forcedeveloped and maximum work performed. (2) Both force-frequencyrelations and – to a greater extent – work-frequencyrelations are reversed in failing human myocardium. (3) Independentof the pharmacological mode of action, positive inotropic compoundsincrease developed isometric force to the same extent as isotonicshortening and therefore potentiate maximum performed work.

KEYWORDS Frank-Starling mechanism; Force-frequency relation; Positive inotropism; Shortening contraction; Working contraction

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