Disposition and metabolic fate of prasugrel in mice, rats, and dogs.

The disposition and metabolism of prasugrel, a thienopyridine prodrug and a potent inhibitor of platelet aggregation in vivo, were investigated in mice, rats, and dogs. Prasugrel was rapidly absorbed and extensively metabolized. In the mouse and dog, maximum plasma concentration of radioactivity was observed in less than 1 h after an oral [14C]prasugrel dose. Most of the administered prasugrel dose was recovered in the faeces of rats and dogs (72% and 52-73%, respectively), and in mice urine (54%). Prasugrel is hydrolysed by esterases to a thiolactone, which is subsequently metabolized to thiol-containing metabolites. The main circulating thiol-containing metabolite in the three animal species is the pharmacologically active metabolite, R-138727. The thiol-containing metabolites are further metabolized by S-methylation and conjugation with cysteine.

Metabolism, excretion, and pharmacokinetics of duloxetine in healthy human subjects.

Duloxetine is a potent and balanced dual inhibitor of serotonin and norepinephrine reuptake being investigated for the treatment of depression and urinary incontinence. The disposition of duloxetine was studied in four healthy human subjects after a single 20.2-mg (100.6 microCi) oral dose of [14C]duloxetine in an enteric-coated tablet. The mean total recovery of radioactivity (+/- S.E.M.) after 312 h was 90.5% (+/-0.4%) with 72.0% (+/-1.1%) excreted in the urine. Duloxetine was extensively metabolized to numerous metabolites primarily excreted into the urine in the conjugated form. The major biotransformation pathways for duloxetine involved oxidation of the naphthyl ring at either the 4-, 5-, or 6-positions followed by further oxidation, methylation, and/or conjugation. The major metabolites found in plasma were glucuronide conjugates of the following: 4-hydroxy duloxetine (M6), 6-hydroxy-5-methoxy duloxetine (M10), 4, 6-dihydroxy duloxetine (M9), and a sulfate conjugate of 5-hydroxy-6-methoxy duloxetine (M7). The major metabolites found in plasma were also found in the urine, but the urine contained many additional metabolites. In addition to duloxetine, 4-hydroxy duloxetine (M14) and an unidentified polar metabolite were observed in feces. Following [14C]duloxetine administration, Cmax was reached at a median of 6 h for both duloxetine and total radioactivity. Duloxetine accounted for less than 3% of the circulating radioactivity based on mean area under the curve values. The elimination half-life of total radioactivity (120 h) was substantially longer than that of duloxetine (10.3 h).