Purpose: To investigate the pharmacokinetic differences between the common nasal delivery models.
Methods: In three different rat models [long-term anesthetized (with nasal surgery), short-term anesthetized (without nasal surgery) and conscious models], tacrine and loxapine were administered via nasal, intravenous and oral routes, and the plasma pharmacokinetics were compared among different models.
Results: Systemic exposures of both drugs and their metabolites were consistently higher in long-term anesthetized model after all routes of administration in comparison to that of conscious model. Nasal bioavailabilities in long-term anesthetized model (tacrine 83%, loxapine 97%) were much higher than that in conscious model (tacrine 10%, loxapine 46%). Further studies on tacrine and its metabolites demonstrated no significant difference in t1/2 between short-term anesthetized and conscious models after all routes of administration; however, long-term anesthetized model showed significantly longer t1/2. Regarding the pharmacokinetic parameters (Cmax, Tmax, AUC, bioavailability) of tacrine and its metabolites, short-term anesthetized model resembled closer to conscious model than long-term anesthetized model.
Conclusions: Plasma clearances of tacrine, loxapine, and their metabolites were much slower in the long-term anesthetized model of nasal delivery probably due to suppressed hepatic and renal clearances, while the short-term anesthetized model imposed less impact on tacrine pharmacokinetics and metabolism.