| Literature DB >> 2125833 |
Abstract
The metabolism of encainide occurs in the liver and is polymorphically distributed according to the same genetic factor that determines the 4-hydroxylation of debrisoquine. Over 90% of patients are extensive metabolizers (EM) in whom the oral bioavailability of encainide is only 30% because of extensive first-pass metabolism. In EMs, elimination t1/2 is about 2.5 hours, with a systemic clearance of 1.8 l/min. The plasma concentrations of the major metabolites O-desmethyl-encainide (ODE) and 3-methoxy-O-desmethyl-encainide (3-MODE) are higher than those of encainide and have antiarrhythmic activity. The remaining patients (less than 10%) are poor metabolizers (PM), in whom the oral bioavailability is near 88% with an elimination t1/2 of 8-11 hours and a systemic clearance of 0.2 l/min. Encainide plasma concentrations are 10- to 20-fold higher than in EMs, but considerably less ODE and no 3-MODE is formed by the PMs. The conversion to the N-desmethyl-encainide (NDE) metabolite seems to be similar in both metabolizer groups, and plasma protein binding of encainide of 70-78% is also similar. During long-term treatment, the antiarrhythmic metabolites of encainide accumulate in the plasma, so that the relationships between the effect and plasma concentration on encainide, ODE, and 3-MODE are not always obvious. Minimally effective plasma concentrations appear to be approximately 300 ng/ml of encainide, 35 ng/ml of ODE, and 100 ng/ml of 3-MODE. Dose adjustment is necessary in patients with decreased kidney function, but not in patients with cirrhosis, in whom the plasma levels of metabolites appear to be comparable to those in normal subjects.Entities:
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Year: 1990 PMID: 2125833 DOI: 10.1007/bf00357031
Source DB: PubMed Journal: Cardiovasc Drugs Ther ISSN: 0920-3206 Impact factor: 3.727