Abstract
The metabolic fate and pharmacokinetics of clarithromycin following a single 250- or 1200-mg oral dose of 14C-clarithromycin were studied in six healthy adult males. Peak plasma levels of clarithromycin averaged 0.6 microgram/ml after the low dose and 2.7 micrograms/ml after the high dose. The AUC of clarithromycin increased 13-fold, with the 4.8-fold increase in dose, while the plasma half-life increased from 4.4 hr to 11.3 hr. The major metabolite in plasma and urine was the microbiologically active 14-hydroxylated-R epimer of clarithromycin. After 5 days, a mean of 38% of the low dose (18% as clarithromycin) and 46% of the high dose (29% as clarithromycin) was recovered in the urine, with approximately one-third eliminated during the first 24 hr. The nature of the urinary and fecal metabolites revealed the involvement of three metabolic pathways, viz. 1) hydroxylation at the 14-position to form the R and S epimers, 2) N-demethylation, and 3) hydrolysis of the cladinose sugar. Secondary metabolism via these pathways was also evident. The overall recovery of metabolites, but not total radioactivity, decreased 42% after the high dose. The nonlinear pharmacokinetic behavior of clarithromycin and the decrease in metabolite production suggest that clarithromycin metabolism can be saturated at high doses.
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