4.3 Article

A generic framework for the physiologically-based pharmacokinetic platform qualification of PK-Sim and its application to predicting cytochrome P450 3A4-mediated drug-drug interactions

期刊

CPT-PHARMACOMETRICS & SYSTEMS PHARMACOLOGY
卷 10, 期 6, 页码 633-644

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WILEY
DOI: 10.1002/psp4.12636

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  1. German Federal Ministry of Education and Research [FKZ 031L0241]

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The success of physiologically-based pharmacokinetic (PBPK) modeling in drug development has led regulatory agencies to demand rigorous demonstration of the predictive capability of specific PBPK platforms. Utilizing an agile and sustainable technical framework for automatic PBPK platform qualification, PK-Sim(R) has shown effectiveness in predicting CYP3A4-mediated drug-drug interactions (DDIs).
The success of applications of physiologically-based pharmacokinetic (PBPK) modeling in drug development and drug labeling has triggered regulatory agencies to demand rigorous demonstration of the predictive capability of the specific PBPK platform for a particular intended application purpose. The effort needed to comply with such qualification requirements exceeds the costs for any individual PBPK application. Because changes or updates of a PBPK platform would require (re-)qualification, a reliable and efficient generic qualification framework is needed. We describe the development and implementation of an agile and sustainable technical framework for automatic PBPK platform (re-)qualification of PK-Sim(R) embedded in the open source and open science GitHub landscape of Open Systems Pharmacology. The qualification approach enables the efficient assessment of all aspects relevant to the qualification of a particular purpose and provides transparency and traceability for all stakeholders. As a showcase example for the power and versatility of the qualification framework, we present the qualification of PK-Sim(R) for the intended purpose of predicting cytochrome P450 3A4 (CYP3A4)-mediated drug-drug interactions (DDIs). Several perpetrator PBPK models featuring various degrees of CYP3A4 modulation and different types of mechanisms (competitive inhibition, mechanism-based inactivation, and induction) were coupled with a set of PBPK models of sensitive CYP3A4 victim drugs. Simulations were compared to a comprehensive data set of 135 observations from published clinical DDI studies. The platform's overall predictive performance showed reasonable accuracy and precision (geometric mean fold error of 1.4 for both area under the plasma concentration-time curve ratios and peak plasma concentration ratios with/without perpetrator) and suggests that PK-Sim(R) can be applied to quantitatively assess CYP3A4-mediated DDI in clinically untested scenarios.

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