Open Access

Michael Weiss, Werner Siegmund

• Abstract Modeling of metabolite kinetics after oral administration of ketamine is of special interest because of the higher concentrations of active metabolites because of the hepatic first‐pass effect. This holds especially in view of the potential analgesic and antidepressant effects of 2R,6R‐ and 2S,6S‐hydroxynorketamine at low doses of ketamine. Therefore, a 9‐compartment model was developed to analyze the pharmacokinetics of ketamine enantiomers and their metabolites after racemic ketamine administered intravenously (5 mg) and as 4 doses (10, 20, 40, and 80 mg) of a prolonged‐release formulation (PR‐ketamine). Using a population approach, the serum concentration‐time data of the enantiomers of ketamine, norketamine, dehydronorketamine, and 2,6‐hydroxynorketamine obtained in 15 healthy volunteers could be adequately fitted. The estimated model parameters were used to simulate serum concentration‐time profiles; after multiple dosing of PR‐ketamine (2 daily doses of 20 mg), the steady‐state concentrations of R‐ and S‐ketamine were 1.4 and 1.3 ng/mL, respectively. The steady‐state concentration of 2R,6R‐hydroxynorketamine exceeded those of R‐norketamine (4‐fold), R‐dehydonorketamine (8‐fold), and R‐ketamine (46‐fold), whereas that of 2S,6S‐hydroxynorketamine exceeded that of S‐ketamine by 14‐fold. The model may be useful for identifying dosing regimens aiming at optimal plasma concentrations of 2,6‐hydroxynorketamines.