Abstract
Ipazilide fumarate (Win 54,177-4) is a chemically novel antiarrhythmic agent that prolongs ventricular refractoriness and possesses antiectopic activity. Subchronic (29 days) nonclinical safety evaluation of ipazilide was conducted following oral and iv administration in Sprague-Dawley rats (20–320 mg/kg oral and 1.25–10 mg/kg iv) and 14 and 28 days in beagle dogs (3–30 mg/kg oral and 2.5–20 mg/kg iv). The pharmacokinetic parameters of ipazilide indicate that ipazilide is absorbed (tmax ≤1 hr) in fasted rats and dogs following single and repeated oral administrations. The apparent elimination half-life in the two species is approximately 1 hr (except in rats at a dosage of 320 mg/kg), suggesting rapid clearance. Increases in liver weights (rats 320 mg/kg) accompanied by the observation of centrilobular hypertrophy of hepatocytes were considered an expression of an adaptive metabolic response of the liver to ipazilide and may be associated with the induction of microsomal enzymes. Duodenal villous atrophy and epithelial hyperplasia (rats, 80 and 320 mg/kg) were interpreted to represent an irritant response to the drug. Local irritation was also observed at the injection site in rats and dogs. Dogs tolerated the oral and the iv administration of ipazilide at dosages of up to 30 and 20 mg/kg, respectively. Despite emesis (oral dogs), which was reduced in frequency following repeated treatment over several weeks, plasma levels in treated dogs (i.e., Cmax 4–5 μg/ml) were approximately twice that required to convert spontaneous arrhythmias in the con scious dog model 24 hr after myocardial infarction. Moreover, plasma levels (Cmax 6–7 μg/ml) of iv-treated dogs were approximately three times higher than the efficacious levels in the dog model and did not cause adverse effects except emesis. Electrocardiographic changes (i.e., increased P wave and QRS durations, and T wave alterations) in dogs were transient and represented an extension of the pharmacological effects of ipazilide. In summary, since ipazilide, at multiple therapeutic dosages, was well tolerated in rats and dogs, it may be considered an appropriate drug for clinical evaluation of safety and efficacy in humans as a potential antiarrhythmic agent. The safety profile of ipazilide in clinical trials is currently ongoing.
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