Physiologically Based Pharmacokinetic/Pharmacodynamic Modeling to Evaluate the Absorption of Midazolam Rectal Gel

Publication: Eur J Pharm Sci
Software: GastroPlus®

Abstract

Objective

We aimed to 1) develop physiologically based pharmacokinetic/pharmacodynamic (PBPK/PD) models of a novel midazolam rectal gel in healthy adults, 2) assess the contribution of different physiologically relevant factors in rectal absorption, and 3) to provide supports for future clinical studies of midazolam rectal gel.

Methods

We developed the rectal PBPK model after built the intravenous and the oral PBPK model. Then, the physiological progress of rectal route was described in terms of the drug release, the rectal absorption and the particle first-pass elimination. Next, the validated PBPK model was combined with the sigmoid Emax PD model. This PBPK/PD model was used to identify the dose range and the critical parameters to ensure safety sedation.

Results

Based on the simulations, the recommended maximum dose for adults’ sedation was 15 mg. And the retention time of midazolam rectal gel should be longer than 3 h to reach over 80% pharmacokinetics and pharmacodynamics effects.

Conclusion

We successfully developed a PBPK/PD model for the midazolam rectal gel, which accurately described the PK/PD behavior in healthy adults and indicated the transit time of rectum was the most sensitive parameter for absorption. This PBPK/PD model would be expected to support the future clinical studies and pediatric application.

By Jinying Zhua, Yuqing Zhao, Lu Wang, Chen Zhou, Sufeng Zhou, Tao Chen, Juan Chen, Zeru Zhang, Ying Zhua, Sijia Ding, Feng Shao