Electrical constants of arterially perfused rabbit papillary muscle.

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Electrical constants of arterially perfused rabbit papillary muscle.

A G Kléber and C B Riegger

Department of Physiology, University of Berne, Switzerland.

1. Right ventricular rabbit papillary muscles were arteriallyperfused with a mixture of Tyrode solution, bovine erythrocytes,dextran and albumin. In the recording chamber, they were surroundedby a H2O-saturated atmosphere of O2 and CO2 which served asan electrical insulator. 2. Conduction velocity and passiveelectrical properties were determined from intra- and extracellularpotentials measured during excitation and during flow of subthresholdcurrent. 3. The propagation of the action potential was linearalong the muscle at a velocity of 55.6 cm/s. The extracellularwave-front voltage was 51.5 mV. 4. The following values forpassive cable properties were obtained: (i) a ratio of extra-to intracellular longitudinal resistance of 1.2; (ii) an extracellularspecific resistance (Ro) of 63 omega cm; (iii) an intracellularspecific resistance (Ri) of 166 omega cm; (iv) a space constantlambda of 0.357 mm; (v) a membrane time constant tau of 2.57ms. The space constant lambda* recalculated for zero extracellularresistance was 0.528 mm. 5. Arresting perfusion with drop ofperfusion pressure was associated with an immediate increaseof the extracellular longitudinal resistance by 35% and a decreaseof conduction velocity by 13%. 6. The present results demonstratethe important contribution of the extracellular resistance toelectrotonic interaction and propagation in densely packed myocardialtissue. Moreover, changes in perfusion pressure are associatedwith changes in extracellular resistance, probably as a consequenceof changes in intravascular volume.

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				A. G. KLEBER and Y. RUDY Basic Mechanisms of Cardiac Impulse Propagation and Associated Arrhythmias Physiol Rev, April 1, 2004; 84(2): 431 - 488. [Abstract] [Full Text] [PDF]

				J. V. Tranquillo, M. R. Franz, B. C. Knollmann, A. P. Henriquez, D. A. Taylor, and C. S. Henriquez Genesis of the monophasic action potential: role of interstitial resistance and boundary gradients Am J Physiol Heart Circ Physiol, April 1, 2004; 286(4): H1370 - H1381. [Abstract] [Full Text] [PDF]

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				V. G. Fast, S. Rohr, and R. E. Ideker Nonlinear changes of transmembrane potential caused by defibrillation shocks in strands of cultured myocytes Am J Physiol Heart Circ Physiol, March 1, 2000; 278(3): H688 - H697. [Abstract] [Full Text] [PDF]

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				L. R.C. Dekker, J. W.T. Fiolet, E. VanBavel, R. Coronel, T. Opthof, J. A.E. Spaan, and M. J. Janse Intracellular Ca2+, Intercellular Electrical Coupling, and Mechanical Activity in Ischemic Rabbit Papillary Muscle: Effects of Preconditioning and Metabolic Blockade Circ. Res., August 1, 1996; 79(2): 237 - 246. [Abstract] [Full Text]

				J. Fleischhauer, L. Lehmann, and A. G. Kleber Electrical Resistances of Interstitial and Microvascular Space as Determinants of the Extracellular Electrical Field and Velocity of Propagation in Ventricular Myocardium Circulation, August 1, 1995; 92(3): 587 - 594. [Abstract] [Full Text]

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