Mechanism of Spontaneous Termination of Functional Reentry in Isolated Canine Right Atrium: Evidence for the Presence of an Excitable but Nonexcited Core

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Circulation. 1996;94:1962-1973

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(Circulation. 1996;94:1962-1973.)
© 1996 American Heart Association, Inc.

Articles

Mechanism of Spontaneous Termination of Functional Reentry in Isolated Canine Right Atrium

Evidence for the Presence of an Excitable but Nonexcited Core

Takanori Ikeda, MD; Takumi Uchida, MD; Dustan Hough, BS; John J. Lee, MD; Michael C. Fishbein, MD; William J. Mandel, MD; Peng-Sheng Chen, MD; Hrayr S. Karagueuzian, PhD

the Division of Cardiology, Department of Medicine, and Department of Pathology (M.C.F.), Cedars-Sinai Medical Center, and UCLA School of Medicine, Los Angeles, Calif.

Correspondence to Hrayr S. Karagueuzian, PhD, Division of Cardiology, Cedars-Sinai Research Institute, 8700 Beverly Blvd, Room D-6066, Los Angeles, CA 90048.

Background According to the spiral wave hypothesis of reentry,the core of functional reentry remains excitable but not excited.We sought to determine whether the core remains excitable andwhether excitation of the core by an outside wave front leadsto termination of the reentry in the atrium.

Methods and Results In nine isolated canine right endocardialatrial tissues (3.8 by 3.2 cm wide), reentry was induced bya premature point stimulus (S₂). The isochronal activation mapsand dynamics of the activation patterns were visualized withthe use of 509 bipolar electrodes (1.6-mm resolution). The S₂applied after 8 regular beats induced reentry with a mean cyclelength of 162±20 ms (15 episodes). Reentry had a largeexcitable gap (93±26 ms) as determined by early capturewith twice the level of threshold stimuli. The central area(core) around which the wave fronts rotated had a mean surfacearea of 12±3 mm². The electrograms located in the coreof the reentry registered no or very low amplitude potentials.In 13 of 15 episodes, reentry terminated when an outside newwave front merged with the original wave front and excited thecore. Core excitation caused disruption of the original wavefront, and the newly formed wave front(s) vanished at the tissueborder within 77±18 ms. In 2 episodes, reentry terminatedabruptly when an outside new wave front propagating in a directionopposite to the reentrant wave front collided with the leadingedge of the reentrant wave front.

Conclusions Functional reentry in the atrium is compatible witha spiral wave of excitation with an excitable but nonexcitedcore and a large excitable gap. Reentry may be terminated eitherby direct excitation of the core that displaces the wave frontto the tissue border or by collision with an outside new wavefront.

Key Words: excitation • reentry • mapping • atrium • waves

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				L. Boersma, Z. Zetelaki, J. Brugada, and M. Allessie Polymorphic Reentrant Ventricular Tachycardia in the Isolated Rabbit Heart Studied by High-Density Mapping Circulation, June 25, 2002; 105(25): 3053 - 3061. [Abstract] [Full Text] [PDF]

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				C. A. Athill, T. Ikeda, Y.-H. Kim, T.-J. Wu, M. C. Fishbein, H. S. Karagueuzian, and P.-S. Chen Transmembrane Potential Properties at the Core of Functional Reentrant Wave Fronts in Isolated Canine Right Atria Circulation, October 13, 1998; 98(15): 1556 - 1567. [Abstract] [Full Text] [PDF]

				A. C. Skanes, R. Mandapati, O. Berenfeld, J. M. Davidenko, and J. Jalife Spatiotemporal Periodicity During Atrial Fibrillation in the Isolated Sheep Heart Circulation, September 22, 1998; 98(12): 1236 - 1248. [Abstract] [Full Text] [PDF]

				T.-J. Wu, M. Yashima, F. Xie, C. A. Athill, Y.-H. Kim, M. C. Fishbein, Z. Qu, A. Garfinkel, J. N. Weiss, H. S. Karagueuzian, et al. Role of Pectinate Muscle Bundles in the Generation and Maintenance of Intra-atrial Reentry : Potential Implications for the Mechanism of Conversion Between Atrial Fibrillation and Atrial Flutter Circ. Res., August 24, 1998; 83(4): 448 - 462. [Abstract] [Full Text] [PDF]

				A. C. Skanes, R. A. Gray, C. L. Zuur, and J. Jalife Effects of Postshock Atrial Pacing on Atrial Defibrillation Outcome in the Isolated Sheep Heart Circulation, July 7, 1998; 98(1): 64 - 72. [Abstract] [Full Text] [PDF]

				T.-J. Wu, J. J. C. Ong, C. Hwang, J. J. Lee, M. C. Fishbein, L. Czer, A. Trento, C. Blanche, R. M. Kass, W. J. Mandel, et al. Characteristics of wave fronts during ventricular fibrillation in human hearts with dilated cardiomyopathy: role of increased fibrosis in the generation of reentry J. Am. Coll. Cardiol., July 1, 1998; 32(1): 187 - 196. [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]

				T. Ikeda, L. Czer, A. Trento, C. Hwang, J. J. C. Ong, D. Hough, M. C. Fishbein, W. J. Mandel, H. S. Karagueuzian, and P.-S. Chen \E Induction of Meandering Functional Reentrant Wave Front in Isolated Human Atrial Tissues Circulation, November 4, 1997; 96(9): 3013 - 3020. [Abstract] [Full Text]

				K. Kamjoo, T. Uchida, T. Ikeda, M. C. Fishbein, A. Garfinkel, J. N. Weiss, H. S. Karagueuzian, and P.-S. Chen Importance of Location and Timing of Electrical Stimuli in Terminating Sustained Functional Reentry in Isolated Swine Ventricular Tissues : Evidence in Support of a Small Reentrant Circuit Circulation, September 16, 1997; 96(6): 2048 - 2060. [Abstract] [Full Text]

				M. Gotoh, T. Uchida, W. J. Mandel, M. C. Fishbein, P.-S. Chen, and H. S. Karagueuzian Cellular Graded Responses and Ventricular Vulnerability to Reentry by a Premature Stimulus in Isolated Canine Ventricle Circulation, April 15, 1997; 95(8): 2141 - 2154. [Abstract] [Full Text]