Mice plasma and brain pharmacokinetics of amitriptyline and its demethylated and hydroxylated metabolites after half-life repeated administration. Comparison with acute administration.

Kinetics of amitriptyline (AMI), its demethylated metabolites nortriptyline (NOR) and demethylnortriptyline (DM-NOR), and its hydroxylated metabolites, the E and Z isomers or 10-hydroxy-amitriptyline (E- and Z-10-OH-AMI) and of 10-hydroxynortriptyline (E- and Z-10-OH-NOR) were studied in plasma and brain from Swiss CD1 mice after six successive intraperitoneal injections of amitriptyline (10 mg/kg) administered every elimination half-life time (t1/2 = 3.1 h) to obtain the steady state. In these conditions, AMI was metabolised rapidly. Compared with acute administration, hydroxylation reactions were saturated by the repeated AMI injections and demethylation became preponderant both in plasma and brain. Thus, plasma levels of demethylated metabolites, NOR and DM-NOR, increased (49% and 13% of total AUC against 22% and 7% in acute conditions, respectively), while levels of AMI and its hydroxylated metabolites, 10-OH-AMI and 10-OH-NOR, decreased (8%, 2.5% and 27.5% against 17%, 8% and 46% in acute conditions, respectively). Likewise in brain tissue, when AMI was repeatedly administered, NOR and DM-NOR increased (62% and 22% against 29% and 11%, respectively) while AMI and 10-OH-AMI decreased (11.5% and 1% against 47% and 9%, respectively). These differences may account for modified pharmacological effects seen after half-life repeated administration of AMI since demethylated metabolites exert a more marked inhibiting effect than AMI on noradrenaline reuptake.