The T-Type Ca2+ Channel Blocker Mibefradil Prevents the Development of a Substrate for Atrial Fibrillation by Tachycardia-Induced Atrial Remodeling in Dogs

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Circulation. 1999;100:2191-2197

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(Circulation. 1999;100:2191.)
© 1999 American Heart Association, Inc.

Basic Science Reports

The T-Type Ca²⁺ Channel Blocker Mibefradil Prevents the Development of a Substrate for Atrial Fibrillation by Tachycardia-Induced Atrial Remodeling in Dogs

Samir Fareh, MD; Agnès Bénardeau, PhD; Bernard Thibault, MD; Stanley Nattel, MD

From the Department of Medicine and Research Center, Montreal Heart Institute and University of Montreal, Montreal, Quebec (S.F., A.B., B.T., S.N.), and the Department of Pharmacology and Therapeutics (S.N.), McGill University, Montreal, Quebec, Canada, and Hoffman–La Roche Pharmaceuticals (A.B.), Basel, Switzerland.

Correspondence to Dr Stanley Nattel, Research Center, Montreal Heart Institute, 5000 Belanger St E, Montreal, Quebec H1T 1C8, Canada. E-mail nattel{at}icm.umontreal.ca

Background—Ca²⁺ overload is believed to play a role intachycardia-induced atrial electrophysiological remodeling. L-typeCa²⁺ channel blockers attenuate effective refractory period(ERP) changes caused by 24 hours of atrial tachycardia but maynot substantially alter atrial fibrillation (AF) inducibility.This study assessed the effects of the T-type Ca²⁺ channel blockermibefradil on tachycardia-induced atrial remodeling.

Methods and Results—Dogs subjected to rapid atrial pacing(400 bpm) for 7 days were treated with mibefradil (100 mg/d,n=8) or matching placebo (n=10) in blinded fashion. Radiofrequencyablation of atrioventricular conduction and ventricular pacingwere used to control ventricular rate. Placebo dogs showed significantdecreases in atrial ERP (76±5 ms at a cycle length of300 ms) and increases in ERP heterogeneity (27.7±2.4%),AF duration (414±232 seconds), and AF inducibility by singleextrastimuli (41±10% of sites) compared with 10 unpaced controldogs (ERP 114±3 ms, ERP heterogeneity 13.8±0.9%,AF duration 7±3 seconds, AF inducibility 1.9±1.0%of sites). The changes caused by atrial tachycardia were stronglyattenuated in mibefradil dogs, with ERPs averaging 102±7ms, ERP heterogeneity 18.8±1.4%, AF duration 3±1 seconds,and AF inducibility 9.6±4.0% of sites. Among mibefradil-treateddogs, ERP, AF duration, and inducibility correlated with plasmadrug concentration. Acute mibefradil administration did not alterERP or AF.

Conclusions—Mibefradil, a drug with strong T-type Ca²⁺channel blocking properties, prevents AF-promoting electrophysiologicalremodeling by atrial tachycardia. These findings have importantpotential implications for the mechanisms of tachycardia-induced atrialremodeling and demonstrate the feasibility of preventing electricalremodeling caused by several days of atrial tachycardia.

Key Words: arrhythmia • antiarrhythmia agents • electrophysiology • calcium channels

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				S. Nattel Therapeutic implications of atrial fibrillation mechanisms: can mechanistic insights be used to improve AF management? Cardiovasc Res, May 1, 2002; 54(2): 347 - 360. [Abstract] [Full Text] [PDF]

				K. Shinagawa, H. Mitamura, S. Ogawa, and S. Nattel Effects of inhibiting Na+/H+-exchange or angiotensin converting enzyme on atrial tachycardia-induced remodeling Cardiovasc Res, May 1, 2002; 54(2): 438 - 446. [Abstract] [Full Text] [PDF]

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