Efficacy of the Class III Antiarrhythmic Agent Azimilide in Rodent Models of Ventricular Arrhythmia

Abstract: Azimilide exhibited antiarrhythmic activity in several rodent models of ventricular arrhythmias. In the mouse chloroform model, azimilide provided limited efficacy by the i.p. route (50% at 100 mg/kg versus 20% by vehicle), and no efficacy by the oral route (300 mg/kg). In a rat model in which arrhythmias are induced by ligation and reperfusion of the left descending coronary artery (CALR model), azimilide provided dose-dependent (1-18 mg/kg) efficacy by the intravenous route. The estimated dose that suppresse… Show more

“…In contrast, hearts treated with clofilium, d,I-sotalol, dofetilide, d-sotalol, E-403 1, or sematilide had a higher incidence of VT than control hearts (8).…”

“…administered azimilide, 100 mgkg, significantly protected 50% of 20 mice but was less effective orally, providing only 20% to 25% protection at 300 mgkg p.0. (8). In anesthetized guinea pigs infused with ouabain, azimilide, 10 and 30 mgkg i.v., significantly raised the threshold dose for the onset of ventricular arrhythmias (8).…”

Pharmacology of Azimilide Dihydrochloride (NE‐10064), A Class III Antiarrhythmic Agent

“…In contrast, hearts treated with clofilium, d,I-sotalol, dofetilide, d-sotalol, E-403 1, or sematilide had a higher incidence of VT than control hearts (8).…”

“…administered azimilide, 100 mgkg, significantly protected 50% of 20 mice but was less effective orally, providing only 20% to 25% protection at 300 mgkg p.0. (8). In anesthetized guinea pigs infused with ouabain, azimilide, 10 and 30 mgkg i.v., significantly raised the threshold dose for the onset of ventricular arrhythmias (8).…”

Pharmacology of Azimilide Dihydrochloride (NE‐10064), A Class III Antiarrhythmic Agent

“…The IC50 values for azimilide-induced block of the human Na + channel was smaller than that of canine ventricular myocytes, 12 but larger than its plasma concentration in the clinical setting. 4 These results indicate that azimilide produces a greater tonic block in WT currents at more depolarized membrane potentials. The voltage-dependent properties of azimilide block indicated higher affinity of this agent for the inactivated state of the WT currents than for the resting state.…”

“…4 The higher affinity of azimilide for the inactivated state channel could cause a strong blocking action on the Na + channels in the diseased heart with depolarized membrane potentials. Because the activated state blocker generally blocks cardiac conduction independent of the action potential duration, azimilide can similarly block the conduction of the atrial action potential with a short effective refractory period as pilsicainide.…”

“…[1][2][3] These in vitro electrophysiologic properties of azimilide could account for its antiarrhythmic and antifibrillatory actions in a number of animal models, which could be classified as class III antiarrhythmic actions. [4][5][6][7][8][9][10] It has been reported that azimilide interacts with other cardiac ion channels, blocking the L-type Ca 2+ channel, the inward rectifier K + channel, and the Na + channel, 11-13 but so far there have not been any systematic studies of the effects of azimilide on the cardiac Na + channels and little is known about the statedependent azimilide block of the Na + channels, although a few reports indicated that azimilide blocked cardiac peak Circulation Journal Vol. 68, July 2004 and late Na + currents.…”

State-Dependent Blocking Actions of Azimilide Dihydrochlo-ride (NE-10064) on Human Cardiac Na+ Channels

Validation of a guinea pig Langendorff heart model for assessing potential cardiovascular liability of drug candidates