AI Article Synopsis
- Previous research has shown that the pharmacokinetics of tricyclic antidepressants (TCAs) differ between rodents and humans, prompting this study on metapramine (META) in mice to establish pharmacokinetic parameters.
- The plasma half-life of META in mice was found to be significantly shorter (87 minutes) compared to humans (7 hours), and META was quickly absorbed into the brain with a rapid elimination rate (40 minutes).
- The study confirmed a strong correlation between the administered doses of META and the plasma and brain levels of both META and its metabolites, highlighting the compounds' high affinity for brain regions after repeated injections.
Article Abstract
Previous studies on pharmacokinetic parameters of tricyclic antidepressants (TCAs) in rodents have shown different results from those obtained for the same drugs in man. The kinetics of metapramine (META) and its major demethylated metabolites (METs) were studied in the SWISS CD 1 mouse after acute administration in order to establish the pharmacokinetic parameters in plasma and brain. The plasma half-life (T1/2) was very short (87 min) compared with the half-life (7 h) in man. The metabolism of META was intensive as was the transfer of META and its metabolites into the brain. The kinetic profiles of the substances were quite similar both in plasma and in brain, namely a bicompartment open model. META was rapidly absorbed (Tmax = 10 min) into and quickly eliminated (T 1/2 = 40 min) from the brain. These parameters were used to schedule sampling (blood and brain) at the appropriate time after acute administration of increased doses. The administered doses were significantly correlated to firstly the plasma or brain levels of META, secondly the plasma levels of the main monodemethylated metabolite (MET I), and thirdly the plasma or brain levels of META + METs. Finally, the evolution of plasma and brain levels of the substances was studied after repeated injections (i.e. every 40 min) and confirmed the high affinity of META and its metabolites for the brain regions.
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| http://dx.doi.org/10.1111/j.1472-8206.1989.tb00686.x | DOI Listing |
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