Reproducible induction of early afterdepolarizations and torsade de pointes arrhythmias by d-sotalol and pacing in dogs with chronic atrioventricular block.

It has been well established that antiarrhythmic drugs can also have proarrhythmic effects such as torsade de pointes (TdP) arrhythmias. It was the purpose of this study to create an animal model with a high incidence of reproducible TdP that occurs under clinically relevant circumstances. Experiments were performed in anesthetized dogs that had been in chronic atrioventricular block for 9 +/- 6 weeks. TdP inducibility was attempted using different pacing modes before and after the administration of 2 mg/kg d-sotalol. In some experiments, endocardial monophasic action potentials were recorded. d-Sotalol increased the cycle length of the idioventricular rhythm (1475 +/- 460 to 1730 +/- 570 ms, P < .01) and the QT time (390 +/- 65 to 480 +/- 85 ms, P < .01). In 10% of the experiments, spontaneous TdP occurred after d-sotalol. The incidence of pacing-dependent TdP was 52% (P < .01). In the inducible group, the cycle length of idioventricular rhythm and QT time were significantly longer despite equal percentage increases in these parameters after d-sotalol in both groups. The pacing modes consisting of more than one frequency change had a higher TdP induction rate (P < .05). Reproducibility of TdP induction (three times or more using the same pacing train) remained present for approximately 60 minutes after d-sotalol and was greater than 90% within the same animal over weeks. TdP induction was related to the presence of early afterdepolarizations on the monophasic action potential recordings: five of six in the inducible group versus two of six in the nonresponders. Inducibility could be further increased to 89% when a second bolus of d-sotalol was administered to noninducible dogs. On the other hand, decreasing QT time by faster basic pacing or administration of isoproterenol, or MgSO4 prevented TdP induction. This effect of MgSO4 coincided with the disappearance of early afterdepolarizations. Our animal model shows a high incidence of reproducible acquired TdP arrhythmias, allowing study of the mechanism and treatment of TdP. TdP induction was related to the combination of a slow ventricular rate, the prolongation of QT time, a sudden induced rate change that often required two or more cycle length changes, and the presence of early afterdepolarizations.

[1]  H. Wellens,et al.  Mechanism‐Specific Antiarrhythmic Effects of the Potassium Channel Activator Levcromakalim Against Repolarization‐Dependent Tachycardias , 1994, Journal of cardiovascular electrophysiology.

[2]  J. K. Gibson,et al.  Comparative Assessment of Ibutilide, D‐Sotalol, Clofilium, E‐4031, and UK‐68, 798 in a Rabbit Model of Proarrhythmia , 1993, Journal of cardiovascular pharmacology.

[3]  L. Carlsson,et al.  Electrophysiologic and Hemodynamic Effects of H 234/09 (Almokalant), Quinidine, and (+)-Sotalol in the Anesthetized Dog , 1992, Journal of cardiovascular pharmacology.

[4]  L. Carlsson,et al.  Antiarrhythmic Effects of Potassium Channel Openers in Rhythm Abnormalities Related to Delayed Repolarization , 1992, Circulation.

[5]  H. Refsum,et al.  Class III Antiarrhythmic Action and Inotropy: Effects of Dofetilide in Acute Ischemic Heart Failure in Dogs , 1992, Journal of cardiovascular pharmacology.

[6]  J. Davy,et al.  Methods and limitations of an experimental model of long QT syndrome. , 1991, Journal of pharmacological methods.

[7]  M R Franz,et al.  A new single catheter technique for simultaneous measurement of action potential duration and refractory period in vivo. , 1990, Journal of the American College of Cardiology.

[8]  D. Roden,et al.  Suppression of repolarization-related arrhythmias in vitro and in vivo by low-dose potassium channel activators. , 1990, Circulation.

[9]  R Lazzara,et al.  Early and Delayed Afterdepolarizations Associated with Cesium Chloride‐Induced Arrhythmias in the Dog , 1990, Journal of cardiovascular pharmacology.

[10]  D. Snyders,et al.  Class III antiarrhythmic agents have a lot of potential but a long way to go. Reduced effectiveness and dangers of reverse use dependence. , 1990, Circulation.

[11]  S. Nattel,et al.  Cardiovascular and metabolic effects of caesium chloride injection in dogs--limitations as a model for the long QT syndrome. , 1989, Cardiovascular research.

[12]  M. Rosen,et al.  A Canine Model of Torsades de Pointes , 1988, Pacing and clinical electrophysiology : PACE.

[13]  D P Zipes,et al.  Differential response to right and left ansae subclaviae stimulation of early afterdepolarizations and ventricular tachycardia induced by cesium in dogs. , 1988, Circulation.

[14]  M. Antonaccio,et al.  Sotalol—Pharmacological and Antiarrhythmic Effects , 1988 .

[15]  E. Aliot,et al.  The long QT syndromes: a critical review, new clinical observations and a unifying hypothesis. , 1988, Progress in cardiovascular diseases.

[16]  W Craelius,et al.  QTU Prolongation and Polymorphic Ventricular Tachyarrhythmias Due to Bradycardia‐Dependent Early: Afterdepolarizations Afterdepolarizations and Ventricular Arrhythmias , 1988, Circulation research.

[17]  D. Zipes,et al.  Magnesium suppression of early afterdepolarizations and ventricular tachyarrhythmias induced by cesium in dogs. , 1988, Circulation.

[18]  D. Attwell,et al.  A CELLULAR BASIS FOR THE PRIMARY LONG Q-T SYNDROMES , 1988, The Lancet.

[19]  J. Spear,et al.  Autonomic modulation of ventricular arrhythmia in cesium chloride-induced long QT syndrome. , 1988, Circulation.

[20]  G. Kay,et al.  Torsade de pointes: the long-short initiating sequence and other clinical features: observations in 32 patients. , 1983, Journal of the American College of Cardiology.

[21]  R Lazzara,et al.  Bradycardia-dependent triggered activity: relevance to drug-induced multiform ventricular tachycardia. , 1983, Circulation.

[22]  W. M. Smith,et al.  A Mechanism of Torsades de Pointes in a Canine Model , 1983, Circulation.

[23]  L. Horowitz,et al.  Torsades de Pointes: Electrophysiologic Studies in Patients Without Transient Pharmacologic or Metabolic Abnormalities , 1981, Circulation.

[24]  Meyer Rd Letter: Gentamicin-resistant Pseudomonas aeruginosa. , 1976 .

[25]  D. Fitchett,et al.  "Torsade de pointes" initiated by electrical ventricular stimulation. , 1976, Journal of electrocardiology.

[26]  J. Bigger,et al.  Electrophysiological and Beta‐Receptor Blocking Effects of MJ 1999 on Dog and Rabbit Cardiac Tissue , 1970, Circulation research.

[27]  A. Kovalik,et al.  A simple technique for production of chronic complete heart block in dogs. , 1968, Journal of applied physiology.

[28]  H. Bazett,et al.  AN ANALYSIS OF THE TIME‐RELATIONS OF ELECTROCARDIOGRAMS. , 1997 .