A model study of the effects of the discrete cellular structure on electrical propagation in cardiac tissue

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Circulation Research. 1987;61:815-823

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A model study of the effects of the discrete cellular structure on electrical propagation in cardiac tissue

Y Rudy and WL Quan
Department of Biomedical Engineering, Case Western Reserve University, Cleveland, Ohio 44106.

The effects of the discrete cellular structure on propagation of electrical excitation in cardiac muscle were studied in a one- dimensional fiber model containing a periodic intercalated disk structure. Globally, the macroscopic velocity of propagation follows the behavior associated with propagation in a continuous tissue (except for high values of disk resistance). In addition, the computed spatial extracellular potential along the fiber is a smooth biphasic waveform and does not reflect the underlying discrete cellular structure of the tissue. Other results of the simulations demonstrate the discontinuous nature of propagation and the importance of the structure in arrhythmogenesis. Vmax displays a biphasic behavior as a function of increasing intercalated disk resistance. An initial "paradoxical" increase in Vmax (with a simultaneous decrease in conduction velocity) is followed by a decrease that leads to decremental propagation and conduction block. The time constant of the foot of the action potential (tau foot) increases monotonically with increasing intercalated disk resistance. An increase in the leakage current to extracellular space brings about a significant decrease in the action potential duration and a loss of the plateau. This major effect is accompanied by a relatively smaller decrease in conduction velocity. Collision of two activation wavefronts results in a significant (100%) increase in Vmax and a very small (0.6%) decrease in tau foot.

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				B. C Eloff, D. L Lerner, K. A Yamada, R. B Schuessler, J. E Saffitz, and D. S Rosenbaum High resolution optical mapping reveals conduction slowing in connexin43 deficient mice Cardiovasc Res, September 1, 2001; 51(4): 681 - 690. [Abstract] [Full Text] [PDF]

				S. P. Thomas, L. Bircher-Lehmann, S. A. Thomas, J. Zhuang, J. E. Saffitz, and A. G. Kleber Synthetic Strands of Neonatal Mouse Cardiac Myocytes : Structural and Electrophysiological Properties Circ. Res., September 15, 2000; 87(6): 467 - 473. [Abstract] [Full Text] [PDF]

				J. Zhuang, K. A. Yamada, J. E. Saffitz, and A. G. Kleber Pulsatile Stretch Remodels Cell-to-Cell Communication in Cultured Myocytes Circ. Res., August 18, 2000; 87(4): 316 - 322. [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]

				M. S. Spach and R. C. Barr Effects of Cardiac Microstructure on Propagating Electrical Waveforms Circ. Res., February 4, 2000; 86 (2): e23 - e28. [Abstract] [Full Text] [PDF]

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				M. Cooklin, W. R. J. Wallis, D. J. Sheridan, and C. H. Fry Changes in Cell-to-Cell Electrical Coupling Associated With Left Ventricular Hypertrophy Circ. Res., June 19, 1997; 80(6): 765 - 771. [Abstract] [Full Text]

				R. M. Shaw and Y. Rudy Electrophysiologic Effects of Acute Myocardial Ischemia: A Mechanistic Investigation of Action Potential Conduction and Conduction Failure Circ. Res., January 1, 1997; 80(1): 124 - 138. [Abstract] [Full Text]