Pharmacokinetic-pharmacodynamic modeling of the central nervous system effects of midazolam and its main metabolite alpha-hydroxymidazolam in healthy volunteers.

The pharmacodynamics of midazolam and its main metabolite alpha-hydroxymidazolam were characterized in individual subjects by use of saccadic eye movement and electroencephalographic (EEG) effect measurements. Eight healthy volunteers received 0.1 mg/kg midazolam intravenously in 15 minutes, 0.15 mg/kg alpha-hydroxymidazolam intravenously in 15 minutes, 7.5 mg midazolam orally and placebo in a randomized, double-blind, four-way crossover experiment. Plasma concentrations of midazolam, alpha-hydroxymidazolam and 4-hydroxymidazolam were measured by gas chromatography. The amplitudes in the 11.5 to 30 Hz (beta) frequency band were used as EEG effect measure. The concentration-effect relationships were quantified by the sigmoid maximum effect model. The median effective concentrations of midazolam and alpha-hydroxymidazolam were (mean +/- SE) 77 +/- 15 and 98 +/- 17 ng/ml, respectively, for the EEG effect measure. For peak saccadic velocity the values were 40 +/- 7 ng/ml for midazolam and 49 +/- 10 ng/ml for alpha-hydroxymidazolam. The maximum effect values were similar for both compounds. The effects observed after oral administration of midazolam could not be predicted accurately by an additive and competitive interaction model. It seems that alpha-hydroxymidazolam is highly potent with respect to the measured effects and contributes significantly to those effects of midazolam after oral administration.

RCT Entities:   Population Interventions Outcomes