Vortex shedding as a precursor of turbulent electrical activity in cardiac muscle.

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Vortex shedding as a precursor of turbulent electrical activity in cardiac muscle.

C Cabo, A M Pertsov, J M Davidenko, W T Baxter, R A Gray and J Jalife

Department of Pharmacology, SUNY Health Science Center at Syracuse 13210, USA.

ABSTRACT

In cardiac tissue, during partial blockade of the membrane sodiumchannels, or at high frequencies of excitation, inexcitableobstacles with sharp edges may destabilize the propagation ofelectrical excitation waves, causing the formation of self-sustainedvortices and turbulent cardiac electrical activity. The formationof such vortices, which visually resembles vortex shedding inhydrodynamic turbulent flows, was observed in sheep epicardialtissue using voltage-sensitive dyes in combination with video-imagingtechniques. Vortex shedding is a potential mechanism leadingto the spontaneous initiation of uncontrolled high-frequencyexcitation of the heart.

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				J. Cysyk and L. Tung Electric Field Perturbations of Spiral Waves Attached to Millimeter-Size Obstacles Biophys. J., February 15, 2008; 94(4): 1533 - 1541. [Abstract] [Full Text] [PDF]

				K. H.W.J. Ten Tusscher and A. V. Panfilov Influence of diffuse fibrosis on wave propagation in human ventricular tissue Europace, November 1, 2007; 9(suppl_6): vi38 - vi45. [Abstract] [Full Text] [PDF]

				T. Krogh-Madsen and D. J. Christini Action Potential Duration Dispersion and Alternans in Simulated Heterogeneous Cardiac Tissue with a Structural Barrier Biophys. J., February 15, 2007; 92(4): 1138 - 1149. [Abstract] [Full Text] [PDF]

				C. Cabo and P. A. Boyden Heterogeneous gap junction remodeling stabilizes reentrant circuits in the epicardial border zone of the healing canine infarct: a computational study Am J Physiol Heart Circ Physiol, December 1, 2006; 291(6): H2606 - H2616. [Abstract] [Full Text] [PDF]

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				G. A. Papadatos, P. M. R. Wallerstein, C. E. G. Head, R. Ratcliff, P. A. Brady, K. Benndorf, R. C. Saumarez, A. E. O. Trezise, C. L.-H. Huang, J. I. Vandenberg, et al. Slowed conduction and ventricular tachycardia after targeted disruption of the cardiac sodium channel gene Scn5a PNAS, April 18, 2002; (2002) 82121299. [Abstract] [Full Text] [PDF]

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				M. Valderrabano, Y.-H. Kim, M. Yashima, T.-J. Wu, H. S. Karagueuzian, and P.-S. Chen Obstacle-induced transition from ventricular fibrillation to tachycardia in isolated swine right ventricles: Insights into the transition dynamics and implications for the critical mass J. Am. Coll. Cardiol., November 15, 2000; 36(6): 2000 - 2008. [Abstract] [Full Text] [PDF]

				J. Chen, R. Mandapati, O. Berenfeld, A. C Skanes, R. A Gray, and J. Jalife Dynamics of wavelets and their role in atrial fibrillation in the isolated sheep heart Cardiovasc Res, November 1, 2000; 48(2): 220 - 232. [Abstract] [Full Text] [PDF]

				Y.-G. Wang, R. Kumar, M. B. Wagner, R. Wilders, D. A. Golod, W. N. Goolsby, and R. W. Joyner Electrical interactions between a real ventricular cell and an anisotropic two-dimensional sheet of model cells Am J Physiol Heart Circ Physiol, February 1, 2000; 278(2): H452 - H460. [Abstract] [Full Text] [PDF]

				J.-M. Cao, Z. Qu, Y.-H. Kim, T.-J. Wu, A. Garfinkel, J. N. Weiss, H. S. Karagueuzian, and P.-S. Chen Spatiotemporal Heterogeneity in the Induction of Ventricular Fibrillation by Rapid Pacing : Importance of Cardiac Restitution Properties Circ. Res., June 11, 1999; 84(11): 1318 - 1331. [Abstract] [Full Text] [PDF]

				O. Berenfeld and J. Jalife Purkinje-Muscle Reentry as a Mechanism of Polymorphic Ventricular Arrhythmias in a 3-Dimensional Model of the Ventricles Circ. Res., June 1, 1998; 82(10): 1063 - 1077. [Abstract] [Full Text] [PDF]

				T. Ikeda, M. Yashima, T. Uchida, D. Hough, M. C. Fishbein, W. J. Mandel, P.-S. Chen, and H. S. Karagueuzian Attachment of Meandering Reentrant Wave Fronts to Anatomic Obstacles in the Atrium : Role of the Obstacle Size Circ. Res., November 19, 1997; 81(5): 753 - 764. [Abstract] [Full Text]