Electrophysiologic effects of acute myocardial ischemia: a theoretical study of altered cell excitability and action potential duration

doi:10.1016/S0008-6363(97)00093-X

Cardiovascular Research 1997 35(2):256-272; doi:10.1016/S0008-6363(97)00093-X
© 1997 by European Society of Cardiology

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Electrophysiologic effects of acute myocardial ischemia: a theoretical study of altered cell excitability and action potential duration¹

Robin M. Shaw and Yoram Rudy^*

Cardiac Bioelectricity Research and Training Center, Department of Biomedical Engineering, Case Western Reserve University, Cleveland, OH 44106-7207, USA

^* Corresponding author. Tel. +1 216 368-4051; Fax +1 216 368-4969.

Objective: To study the ionic mechanisms of electrophysiologicchanges in cell excitability and action potential duration duringthe acute phase of myocardial ischemia. Methods: Using an ionic-basedtheoretical model of the cardiac ventricular cell, the dynamicLRd model, we have simulated the three major component conditionsof acute ischemia (elevated [K]_o, acidosis and anoxia) at thelevel of individual ionic currents and ionic concentrations.The conditions were applied individually and in combinationto identify ionic mechanisms responsible for reduced excitabilityat rest potentials, delayed recovery of excitability, and shortenedaction potential duration. Results: Increased extracellularpotassium ([K]_o) had the major effect on cell excitability bydepolarizing resting membrane potential (V_rest), causing reductionin sodium channel availability. Acidosis caused a [K]_o-independentreduction in maximum upstroke velocity, (dV_m/dt)_max. A transitionfrom sodium-current dominated to calcium-current dominated upstrokeoccurred, and calcium current alone was able to sustain theupstroke, but only after sodium channels were almost completely(97%) inactivated. Acidic conditions prevented the transitionto calcium dominated upstroke by acidic reduction of both sodiumand calcium currents. Anoxia, simulated by lowering [ATP]_i andactivating the ATP-dependent potassium current, I_K(ATP), wasthe only process that could decrease action potential durationby more than 50% and reproduce AP shape changes that are observedexperimentally. Acidic or anoxic depression of the L-type calciumcurrent could not reproduce the observed action potential shapechanges and APD shortening. Delayed recovery of excitability,known as ‘post-repolarization refractoriness’, wasdetermined by the voltage-dependent kinetics of sodium channelrecovery; V_rest depolarization caused by elevated [K]_o increasedthe time constant of (dV_m/dt)_max recovery from ${tau}$ = 10.3 ms at[K]_o=4.5 mM to ${tau}$ = 81.4 ms at [K]_o=12 mM, reflecting major slowingof sodium-channel recovery. Anoxia and acidosis had little affecton ${tau}$ . Conclusions: The major conditions of acute ischemia, namelyelevated [K]_o, acidosis and anoxia, applied at the ionic channellevel are sufficient to simulate the major electrical changesassociated with ischemia. Depression of membrane excitabilityand delayed recovery of excitability in the single, unloadedcell are caused by elevated [K]_o with additional excitabilitydepression by acidosis. Major changes in action potential durationand shape can only be accounted for by anoxia-dependent openingof I_K(ATP).

KEYWORDS Myocardial ischemia; Hyperkalemia; Acidosis; Anoxia; Membrane excitability; Action potential duration; Potassium channel; ATP sensitive; Computer model

¹ Previously published in abstract form (Biophysical Journal 1997;72:A47).

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				A. Edwards and T. L. Pallone Mechanisms underlying angiotensin II-induced calcium oscillations Am J Physiol Renal Physiol, August 1, 2008; 295(2): F568 - F584. [Abstract] [Full Text] [PDF]

				J. W. Lin, L. Garber, Y. R. Qi, M. G. Chang, J. Cysyk, and L. Tung Region of slowed conduction acts as core for spiral wave reentry in cardiac cell monolayers Am J Physiol Heart Circ Physiol, January 1, 2008; 294(1): H58 - H65. [Abstract] [Full Text] [PDF]

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				J. R. Terkildsen, E. J. Crampin, and N. P. Smith The balance between inactivation and activation of the Na+-K+ pump underlies the triphasic accumulation of extracellular K+ during myocardial ischemia Am J Physiol Heart Circ Physiol, November 1, 2007; 293(5): H3036 - H3045. [Abstract] [Full Text] [PDF]

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				A. Arutunyan, L. M. Swift, and N. Sarvazyan Initiation and propagation of ectopic waves: insights from an in vitro model of ischemia-reperfusion injury Am J Physiol Heart Circ Physiol, August 1, 2002; 283(2): H741 - H749. [Abstract] [Full Text] [PDF]

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Cardiovascular Research

Electrophysiologic effects of acute myocardial ischemia: a theoretical study of altered cell excitability and action potential duration1

Electrophysiologic effects of acute myocardial ischemia: a theoretical study of altered cell excitability and action potential duration¹

				K. Gima and Y. Rudy Ionic Current Basis of Electrocardiographic Waveforms: A Model Study Circ. Res., May 3, 2002; 90(8): 889 - 896. [Abstract] [Full Text] [PDF]

				D. Noble Unraveling the genetics and mechanisms of cardiac arrhythmia PNAS, April 30, 2002; 99(9): 5755 - 5756. [Full Text] [PDF]

				T. Kawara, R. Derksen, J. R. de Groot, R. Coronel, S. Tasseron, A. C. Linnenbank, R. N.W. Hauer, H. Kirkels, M. J. Janse, and J. M.T. de Bakker Activation Delay After Premature Stimulation in Chronically Diseased Human Myocardium Relates to the Architecture of Interstitial Fibrosis Circulation, December 18, 2001; 104(25): 3069 - 3075. [Abstract] [Full Text] [PDF]

				J. M. Nerbonne, C. G. Nichols, T. L. Schwarz, and D. Escande Genetic Manipulation of Cardiac K+ Channel Function in Mice: What Have We Learned, and Where Do We Go From Here? Circ. Res., November 23, 2001; 89(11): 944 - 956. [Abstract] [Full Text] [PDF]

				C. G. Nichols and C. A. Cukras KATP Channel Regulators : Balanced Diets Include Carbohydrates, Proteins, and Fats Circ. Res., May 11, 2001; 88(9): 849 - 851. [Full Text] [PDF]

				F. Xie, Z. Qu, A. Garfinkel, and J. N. Weiss Effects of simulated ischemia on spiral wave stability Am J Physiol Heart Circ Physiol, April 1, 2001; 280(4): H1667 - H1673. [Abstract] [Full Text] [PDF]

				B. J. J. M. Brundel, I. C. Van Gelder, R. H. Henning, A. E. Tuinenburg, M. Wietses, J. G. Grandjean, A. A. M. Wilde, W. H. Van Gilst, and H. J. G. M. Crijns Alterations in potassium channel gene expression in atria of patients with persistent and paroxysmal atrial fibrillation: differential regulation of protein and mRNA levels for K+ channels J. Am. Coll. Cardiol., March 1, 2001; 37(3): 926 - 932. [Abstract] [Full Text] [PDF]

				T. J. Hund, N. F. Otani, and Y. Rudy Dynamics of action potential head-tail interaction during reentry in cardiac tissue: ionic mechanisms Am J Physiol Heart Circ Physiol, October 1, 2000; 279(4): H1869 - H1879. [Abstract] [Full Text] [PDF]

				Y. Wang and Y. Rudy Action potential propagation in inhomogeneous cardiac tissue: safety factor considerations and ionic mechanism Am J Physiol Heart Circ Physiol, April 1, 2000; 278(4): H1019 - H1029. [Abstract] [Full Text] [PDF]

				A. G Kleber ST-segment elevation in the electrocardiogram: a sign of myocardial ischemia Cardiovasc Res, January 1, 2000; 45(1): 111 - 118. [Abstract] [Full Text] [PDF]