Pulmonary Veins and Ligament of Marshall as Sources of Rapid Activations in a Canine Model of Sustained Atrial Fibrillation

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Circulation. 2001;103:1157-1163

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(Circulation. 2001;103:1157.)
© 2001 American Heart Association, Inc.

Basic Science Reports

Pulmonary Veins and Ligament of Marshall as Sources of Rapid Activations in a Canine Model of Sustained Atrial Fibrillation

Tsu-Juey Wu, MD; James J. C. Ong, MD; Che-Ming Chang, MD; Rahul N. Doshi, MD; Masaaki Yashima, MD; Hsun-Lun A. Huang, BS; Michael C. Fishbein, MD; Chih-Tai Ting, MD, PhD; Hrayr S. Karagueuzian, PhD; Peng-Sheng Chen, MD

From the Division of Cardiology (T.-J.W., C.-T.T.), Department of Medicine, Taichung Veterans General Hospital and Institute of Clinical Medicine, National Yang-Ming University School of Medicine, Taipei, Taiwan; and the Division of Cardiology (J.J.C.O., C.-M.C., R.N.D., M.Y., H.-L.A.H., H.S.K., P.-S.C.), Department of Medicine, Cedars-Sinai Medical Center and the Department of Pathology and Laboratory Medicine (M.C.F.), UCLA School of Medicine, Los Angeles, Calif.

Background—In dogs, chronic rapid pacing may result insustained atrial fibrillation (AF). However, activation patternsin pacing-induced sustained AF are unclear.

Methods and Results—We induced sustained AF (>48 hours)in 6 dogs by rapid pacing for 139±84 days. We then performedcomputerized atrial epicardial mappings and recorded the activationsin the ligament of Marshall (LOM) and the pulmonary veins (PVs).During AF, mean activation cycle length in the right atrialfree wall (126±17 ms) was significantly longer than that inthe left atrial free wall (96±5 ms, P=0.006). In addition,mean activation cycle length in the left atrial free wall wassignificantly longer than that in the LOM (84±5 ms, P<0.001),the left inferior PV (81±4 ms, P=0.001), and the leftsuperior PV (85±7 ms, P=0.003). Similarly, the dominantfrequency was highest in the LOM and the PVs (range 11.2 to 13.3Hz), followed by the left and right atria (P<0.001). In alldogs studied, rapid and complicated electrograms were consistentlyobserved at the LOM and the PVs. During AF, both wandering waveletsand organized reentry were present. There were more wave frontsin the left atrium than in the right atrium (P<0.001).

Conclusions—In chronic pacing-induced sustained AF, theLOM and the PVs are the sources of rapid activations. The mechanismby which the left atrium activates faster and has more wavefronts than the right atrium may relate to the fact that theleft atrium is closer to the sources of rapid activations.

Key Words: arrhythmia • fibrillation • mapping • pacing • pathology

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				T.-J. Cha, J. R. Ehrlich, L. Zhang, D. Chartier, T. K. Leung, and S. Nattel Atrial Tachycardia Remodeling of Pulmonary Vein Cardiomyocytes: Comparison With Left Atrium and Potential Relation to Arrhythmogenesis Circulation, February 15, 2005; 111(6): 728 - 735. [Abstract] [Full Text] [PDF]

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				M. Haissaguerre, P. Sanders, M. Hocini, P. Jais, and J. Clementy Pulmonary veins in the substrate for atrial fibrillation: The "venous wave" hypothesis J. Am. Coll. Cardiol., June 16, 2004; 43(12): 2290 - 2292. [Full Text] [PDF]

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				J. R. Ehrlich, T.-J. Cha, L. Zhang, D. Chartier, L. Villeneuve, T. E. Hebert, and S. Nattel Characterization of a hyperpolarization-activated time-dependent potassium current in canine cardiomyocytes from pulmonary vein myocardial sleeves and left atrium J. Physiol., June 1, 2004; 557(2): 583 - 597. [Abstract] [Full Text] [PDF]

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				D. M. Todd, A. C. Skanes, G. Guiraudon, C. Guiraudon, A. D. Krahn, R. Yee, and G. J. Klein Role of the Posterior Left Atrium and Pulmonary Veins in Human Lone Atrial Fibrillation: Electrophysiological and Pathological Data From Patients Undergoing Atrial Fibrillation Surgery Circulation, December 23, 2003; 108(25): 3108 - 3114. [Abstract] [Full Text] [PDF]

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				Y. Miyauchi, S. Zhou, Y. Okuyama, M. Miyauchi, H. Hayashi, A. Hamabe, M. C. Fishbein, W. J. Mandel, L. S. Chen, P.-S. Chen, et al. Altered Atrial Electrical Restitution and Heterogeneous Sympathetic Hyperinnervation in Hearts With Chronic Left Ventricular Myocardial Infarction: Implications for Atrial Fibrillation Circulation, July 22, 2003; 108(3): 360 - 366. [Abstract] [Full Text] [PDF]

				Y. Okuyama, Y. Miyauchi, A. M. Park, A. Hamabe, S. Zhou, H. Hayashi, M. Miyauchi, C. Omichi, H.-N. Pak, L. A. Brodsky, et al. High resolution mapping of the pulmonary vein and the vein of marshall during induced atrial fibrillation and atrial tachycardia in a canine model of pacing-induced congestive heart failure J. Am. Coll. Cardiol., July 16, 2003; 42(2): 348 - 360. [Abstract] [Full Text] [PDF]

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				S. Nattel Atrial Electrophysiology and Mechanisms of Atrial Fibrillation Journal of Cardiovascular Pharmacology and Therapeutics, March 1, 2003; 8(1_suppl): S5 - S11. [Abstract] [PDF]

				H. Oral, B. P. Knight, M. Ozaydin, A. Chugh, S. W.K. Lai, C. Scharf, S. Hassan, R. Greenstein, J. D. Han, F. Pelosi Jr, et al. Segmental Ostial Ablation to Isolate the Pulmonary Veins During Atrial Fibrillation: Feasibility and Mechanistic Insights Circulation, September 3, 2002; 106(10): 1256 - 1262. [Abstract] [Full Text] [PDF]

				S. Zhou, C.-M. Chang, T.-J. Wu, Y. Miyauchi, Y. Okuyama, A. M. Park, A. Hamabe, C. Omichi, H. Hayashi, L. A. Brodsky, et al. Nonreentrant focal activations in pulmonary veins in canine model of sustained atrial fibrillation Am J Physiol Heart Circ Physiol, September 1, 2002; 283(3): H1244 - H1252. [Abstract] [Full Text] [PDF]

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				O. Berenfeld, A. V. Zaitsev, S. F. Mironov, A. M. Pertsov, and J. Jalife Frequency-Dependent Breakdown of Wave Propagation Into Fibrillatory Conduction Across the Pectinate Muscle Network in the Isolated Sheep Right Atrium Circ. Res., June 14, 2002; 90(11): 1173 - 1180. [Abstract] [Full Text] [PDF]