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Ocular pharmacokinetics of a novel tetrahydroquinoline analog in rabbit: compartmental analysis and PK-PD evaluation
Authors:Pamulapati Chandrasena R  Schoenwald Ronald D
Affiliation:Department of Drug Metabolism and Pharmacokinetics, Hoffmann-La Roche Inc, Nutley, New Jersey 07110, USA. chandrasena.pamulapati@roche.com
Abstract:The elimination kinetics of the pharmacologically active compound 1-ethyl-6-fluoro-1,2,3,4-tetrahydroquinoline (MC4) were characterized along with pharmacodynamic (PD) measurements. Four compartmental models based on ocular anatomy, physiology, and possible absorption and disposition pathways were proposed to model the pharmacokinetic (PK) data in WinNonlin and the best model was chosen based on statistical and goodness-of-fit criteria. A three-compartment physiologic-based PK model with a bidirectional transfer between cornea and aqueous humor and a unidirectional transfer between aqueous humor and iris-ciliary body best described the data. The ocular PD parameters, maximum effect attributed to drug (E(max)) and drug concentration which produces 50% of maximum effect (EC(50)), were estimated with change in intraocular pressure (ΔIOP) as the effect (PD response) in the effect compartment model (PK-PD link model) using aqueous humor concentration-time and ΔIOP-time profiles. The link model better described the effect compartment concentrations than a simple E(max) model that used iris-ciliary body concentration-time data, indicating that there is an apparent temporal displacement between aqueous humor concentration (plasma/central compartment equivalent) and pharmacological effect. A physiologically plausible value of 0.0159 min(-1) was obtained for the drug elimination rate constant (k(eo)) from the effect site to account for equilibration time in the biophase. Hysteresis was observed for the iris-ciliary body, aqueous humor drug concentrations, and effect data, further confirming the utility of the link model to describe the PD of MC4.
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