Ionic mechanism of electrical alternans

doi:10.1152/ajpheart.00612.2001

Ionic mechanism of electrical alternans

Jeffrey J. Fox¹^,², Jennifer L. McHarg¹, and Robert F. Gilmour Jr¹

¹ Department of Biomedical Sciences and ² Department of Physics, Cornell University, Ithaca, New York 14853-6401

Although alternans of action potential duration (APD) is a robust feature of the rapidly paced canine ventricle, currentlyavailable ionic models of cardiac myocytes do not recreate thisphenomenon. To address this problem, we developed a new ionicmodel using formulations of currents based on previous modelsand recent experimental data. Compared with existing models, theinward rectifier K⁺ current (I_K1) was decreased at depolarized potentials, the maximumconductance and rectification of the rapid component of the delayedrectifier K⁺ current (I_Kr) were increased, and I_Kr activation kinetics wereslowed. The slow component of the delayed rectifier K⁺ current (I_Ks) was increased in magnitude and activation shiftedto less positive voltages, and the L-type Ca²⁺ current (I_Ca) was modified to produce a smaller, more rapidlyinactivating current. Finally, a simplified form of intracellularcalcium dynamics was adopted. In this model, APD alternans occurredat cycle lengths = 150-210 ms, with a maximum alternans amplitudeof 39 ms. APD alternans was suppressed by decreasing I_Ca magnitudeor calcium-induced inactivation and by increasing the magnitudeof I_K1, I_Kr, or I_Ks. These results establish an ionic basis forAPD alternans, which should facilitate the development of pharmacologicalapproaches to eliminatingalternans.

action potential duration restitution; calcium current; potassium currents

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				E. Picht, J. DeSantiago, L. A. Blatter, and D. M. Bers Cardiac Alternans Do Not Rely on Diastolic Sarcoplasmic Reticulum Calcium Content Fluctuations Circ. Res., September 29, 2006; 99(7): 740 - 748. [Abstract] [Full Text] [PDF]

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				D. Sato, Y. Shiferaw, A. Garfinkel, J. N. Weiss, Z. Qu, and A. Karma Spatially Discordant Alternans in Cardiac Tissue: Role of Calcium Cycling Circ. Res., September 1, 2006; 99(5): 520 - 527. [Abstract] [Full Text] [PDF]

				K. H. W. J. ten Tusscher and A. V. Panfilov Alternans and spiral breakup in a human ventricular tissue model Am J Physiol Heart Circ Physiol, September 1, 2006; 291(3): H1088 - H1100. [Abstract] [Full Text] [PDF]

				H. Bien, L. Yin, and E. Entcheva Calcium Instabilities in Mammalian Cardiomyocyte Networks Biophys. J., April 1, 2006; 90(7): 2628 - 2640. [Abstract] [Full Text] [PDF]

				J. L. Greenstein, R. Hinch, and R. L. Winslow Mechanisms of Excitation-Contraction Coupling in an Integrative Model of the Cardiac Ventricular Myocyte Biophys. J., January 1, 2006; 90(1): 77 - 91. [Abstract] [Full Text] [PDF]

				S. G. Priori, S. V. Pandit, I. Rivolta, O. Berenfeld, E. Ronchetti, A. Dhamoon, C. Napolitano, J. Anumonwo, M. R. di Barletta, S. Gudapakkam, et al. A Novel Form of Short QT Syndrome (SQT3) Is Caused by a Mutation in the KCNJ2 Gene Circ. Res., April 15, 2005; 96(7): 800 - 807. [Abstract] [Full Text] [PDF]

				T. J. Hund and Y. Rudy Rate Dependence and Regulation of Action Potential and Calcium Transient in a Canine Cardiac Ventricular Cell Model Circulation, November 16, 2004; 110(20): 3168 - 3174. [Abstract] [Full Text] [PDF]

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