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• W1978839297 abstract "Pacing and Clinical ElectrophysiologyVolume 13, Issue 11 p. 1535-1540 Alignment of Myocardial Cells and Its Role in the Genesis of Cardiac Arrhythmias MADISON S. SPACH, Corresponding Author MADISON S. SPACH Division of Pediatrics, Duke University Medical Center, Durham, North CarolinaAddress for reprints: Madison S. Spach. M.D., Duke University Medical Center, 2632 McDowell Street. Durham, NC 27705.Search for more papers by this author MADISON S. SPACH, Corresponding Author MADISON S. SPACH Division of Pediatrics, Duke University Medical Center, Durham, North CarolinaAddress for reprints: Madison S. Spach. M.D., Duke University Medical Center, 2632 McDowell Street. Durham, NC 27705.Search for more papers by this author First published: November 1990 https://doi.org/10.1111/j.1540-8159.1990.tb04036.xCitations: 3AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat References 1 Weidmann S. The electrical constants of Purkinje fibers. J Physiol (London) 1952; 118: 348–360. 2 Allessie MA, Bonke FIM, Schopman GJG. Circus movement in rabbit atrial muscle as a mechanism of tachycardia. III, The “leading circle” concept: A new model of circus movement in cardiac tissue without the involvement of an anatomical obstacle. Circ Res 1977; 41: 9–18. 3 Spach MS, Miller WT III, Barr RC, et al. Influence of cardiac cell-to-cell connections on action potential shape and propagation. Circulation 1979; 60: 208. 4 Spach MS, Miller WT III, Geselowitz DB, et al. The discontinuous nature of propagation in normal canine cardiac muscle. Evidence for recurrent discontinuities of intracellular resistance that affect the membrane currents. Circ Res 1981; 48: 39–54. 5 Spach MS, Miller WT III, Dolber PC, et al. The functional role of structural complexities in the propagation of depolarization in the atrium of the dog. Cardiac conduction disturbances due to discontinuities of effective axial resistivity. Circ Res 1982; 50: 175–191. 6 Spach MS, Dolber PC, Heidlage JF. Influence of the passive anisotropic properties on directional differences in propagation following modification of the sodium conductance in human atrial muscle. A model of reentry based on anisotropic discontinuous propagation. Circ Res 1988; 62: 811–832. 7 Spach MS, Dolber PC. Relating extracellular potentials and their derivatives to anisotropic propagation at a microscopic level in human cardiac muscle: Evidence for electrical uncoupling of side-to-side fiber connections with increasing age. Circ Res 1986; 58: 356–371. 8 Wit AL, Josephson ME. Fractionated electrograms and continuous electrical activity: Fact or artifact. In DP Zipes, J Jalife (eds.: Cardiac Electrophysiology and Arrhythmias. Orlando , Grune & Stratton, 1985, pp 343–351. 9 Dillon SM, Allessie MA, Ursell PC, et al. Influences of anisotropic tissue structure on reentrant circuits in the epicardial border zone of subacute canine infarcts. Circ Res 1988; 63: 182–206. 10 de Bakker JMT, Coronel R, Tasseron RT, et al. Ventricular tachycardia in the infarcted, Langendorff-perfused human heart: Role of the arrangement of surviving cardiac fibers. J Am Coll Cardiol 1990; 15: 1594–1607. Citing Literature Volume13, Issue11November 1990Pages 1535-1540 ReferencesRelatedInformation" @default.
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• W1978839297 title "Alignment of Myocardial Cells and Its Role in the Genesis of Cardiac Arrhythmias" @default.
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