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1 Laboratory for Physiology, Institute for Cardiovascular Research, Vrije Universiteit, 1081 BT Amsterdam; and 2 Experimental Cardiology, Thoraxcentre, Erasmus University, 3015GD Rotterdam, The Netherlands
Coronary arterial inflow is impeded and venous outflow is increased as a result of the decrease in coronary vascular volume due to cardiac contraction. We evaluated whether cardiac contraction is influenced by interfering with the changes of the coronary vascular volume over the heart cycle. Length-tension relationships were determined in Tyrode-perfused rat papillary muscle and when coronary vascular volume changes were partly inhibited by filling it with congealed gelatin or perfusing it with a high viscosity dextran buffer. Also, myocyte thickening during contraction was reduced by placing a silicon tube around the muscle. Increasing perfusion pressure from 8 to 80 cmH2O, increased developed tension by ~40%. When compared with the low perfusion state, developed tension of the gelatin-filled vasculature was reduced to 43 ± 6% at the muscle length where the muscle generates the largest developed tension (n = 5, means ± SE). Dextran reduced developed tension to 73 ± 6% (n = 6). The silicon tube, in low perfusion state, reduced the developed tension to 83 ± 7% (n = 4) of control. Time-control and oxygen-lowering experiments show that the findings are based on mechanical effects. Thus interventions to prevent myocyte thickening reduce developed tension. We hypothesize that when myocyte thickening is prevented, intracellular pressure increases and counteracts the force produced by the contractile apparatus. We conclude that emptying of the coronary vasculature serves a physiological purpose by facilitating cardiomyocyte thickening thereby augmenting force development.
cardiac mechanics; cardiomyocytes; rat; shortening; intracellular pressure
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