Intracardiac electrophysiological study of disopyramide in intact and chemically sympathectomized dogs

Comparison of the electrophysiological effects of Org 7797, disopyramide, mexiletine and propafenone in anaesthetized dogs with myocardial infarcts

1. The electrophysiological effects of intravenously administered Org 7797 were compared with those of disopyramide (class Ia), mexiletine (Ib) and propafenone (Ic) in anaesthetized dogs with 5-6 day-old left ventricular myocardial infarcts. 2. Org 7797 (0.5 mg kg-1) slowed conduction at all levels of the myocardium as shown by increases in St-A, AH, HV and QRS intervals, very modestly prolonged atrial and ventricular refractory periods and slightly shortened ventricular repolarization. Sinus node recovery time was increased whilst the RR interval was unchanged. A higher dose (2 mg kg-1) prolonged RR and rendered 5 out of 8 dogs unable to follow an atrial pacing stimulus of mean cycle length 322 ms. 3. Electrophysiological changes induced by propafenone (2 mg kg-1) were qualitatively similar to those of Org 7797 (0.5 mg kg-1). 4. Electrophysiological changes induced by mexiletine (2 mg kg-1) were small or insignificant. The most noticeable effect was a modest increase in the St-A interval and a slight shortening of ventricular repolarization. A higher dose (8 mg kg-1) additionally slowed conduction in the His-Purkinje system and in the ventricular myocardium. 5. Disopyramide (2 and 5 mg kg-1) prolonged all cardiac intervals including JTc, QTc and QT during pacing and prolonged cardiac refractory periods. 6. It was concluded that the electrophysiological profile of Org 7797 is more like that of the Ic agent propafenone than that of the class Ia and Ib drugs, disopyramide and mexiletine.

Mechanisms of termination of reentrant atrial arrhythmias by class I and class III antiarrhythmic agents

We studied atrial flutter due to circus movement in chronically instrumented conscious dogs to identify the mechanism by which class I and class III antiarrhythmic drugs terminate reentrant excitation. We used a crossover experimental design administering five class I agents and one class III agent, by intravenous bolus followed by intravenous infusion. The class I agents other than lidocaine were almost uniformly effective in terminating the arrhythmia (disopyramide in six of seven dogs, propafenone in six of six, flecainide in seven of seven, and SC-40230 in seven of seven). Termination was preceded by a marked increase in cycle length (ranging from +78% with propafenone to +55% with disopyramide), but with the exception of disopyramide, class I agents did not significantly shorten the excitable gap. With disopyramide the gap decreased from 49 +/- 3% to 28 +/- 3% of the cycle length. With no class I agent did the wavelength of effective refractoriness increase to approach the cycle length of the arrhythmia. Lidocaine, used as a negative control, terminated the reentry in one dog with modest prolongation of the cycle length. Terminations with class I agents correlated with depression of conduction rather than prolongation of refractoriness. In contrast with class I agents, D-sotalol prolonged the cycle length minimally (+10%) and terminated the arrhythmia in six of seven dogs. It decreased the excitable gap from 42 +/- 4% to 26 +/- 6% of the cycle, but it still did not cause the wavelength of effective refractoriness to equal the cycle length. Terminations by D-sotalol seemed to result from either failure of the lateral boundaries of the circus path or reflection within the path.

Actions of disopyramide on potential reentrant pathways and ventricular tachyarrhythmias in conscious dogs during the late post-myocardial infarction phase

The effect of intravenous disopyramide (plasma level 3.7 +/- 1.6 micrograms/ml, mean +/- standard deviation) on reentrant ventricular tachyarrhythmias was studied by programmed ventricular stimulation in 11 conscious dogs 3 to 8 days after experimental myocardial infarction. Sustained ventricular tachycardia (VT) was induced in 4 dogs (mean cycle length 173 +/- 14 ms) and nonsustained VT in 7 (8 +/- 4 beats, mean cycle length 136 +/- 18 ms). Disopyramide prevented induction of VT in 1 of 4 dogs with sustained VT and 3 of 7 with nonsustained VT, and increased VT cycle length by more than 30% in 2 dogs with sustained VT and 2 of 7 with nonsustained VT. Disopyramide prolonged refractoriness in the infarct zone, measured by analysis of electrograms from an implanted "composite" electrode, by 38 to 53%, depending on the mode of pacing. These values were significantly greater than the increase produced by disopyramide in ventricular effective refractory period (13 +/- 12%), QRS duration and QT interval. Disopyramide has a selective effect on potential reentry circuits in ischemic myocardium, and prolongs refractoriness in abnormal myocardium to a greater extent than its effect on the normal ventricle.