Four-Compartment Diffusion Model of Cortisol Disposition: Comparison with 3 Alternative Models in Current Clinical Use

Abstract

Context: Estimated rates of cortisol elimination and appearance vary according to the model used to obtain them. Generalizability of current models of cortisol disposition in healthy humans is limited. Objective: Development and validation of a realistic, mechanistic model of cortisol disposition that accounts for the major factors influencing plasma cortisol concentrations invivo (Model 4), and comparison to previously described models of cortisol disposition in current clinical use (Models 1-3). Methods: The 4 models were independently applied to cortisol concentration data obtained for the hydrocortisone bolus experiment (20mg) in 2 clinical groups: healthy volunteers (HVs, n = 6) and corticosteroid binding globulin (CBG)-deficient (n = 2). Model 4 used Fick's first law of diffusion to model free cortisol flux between vascular and extravascular compartments. Pharmacokinetic parameter solutions for Models 1-4 were optimized by numerical methods, and model-specific parameter solutions were compared by repeated measures analysis of variance. Models and respective parameter solutions were compared by mathematical and simulation analyses, and an assessment tool was used to compare performance characteristics of the four models evaluated herein. Results: Cortisol half-lives differed significantly between models (all P