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Advances in Therapy

Erschienen in:

16.07.2023 | Original Research

Physiologically Based Pharmacokinetic Modeling to Simulate CYP3A4-Mediated Drug-Drug Interactions for Pyrotinib

verfasst von: Liang Ni, Liang Zheng, Yueyue Liu, Wenwen Xu, Yingjie Zhao, Ling Wang, Qian Zhang, Wei Hu, Xijing Chen

Erschienen in: Advances in Therapy | Ausgabe 10/2023

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Abstract

Introduction

Pyrotinib is a newly developed tyrosine kinase inhibitor whose in vivo clearance relies heavily on cytochrome P450 3A4 (CYP3A4) activity. Clinical trials are ongoing to explore the effects of coadministration with CYP3A4 perpetrators on pyrotinib exposure. The present study aims to utilize physiologically based pharmacokinetic (PBPK) modeling to predict CYP3A4-based drug interactions of pyrotinib.

Methods

Pyrotinib PBPK model was developed in the PK-Sim^® multicompartmental physiology structure. Physiochemical parameters were obtained from the literature, and clearance-related parameters were optimized by fitting clinical single-dose pharmacokinetic data. Pharmacokinetic parameters from the model output were compared with the observed data to validate the model predictive performance. Using validated CYP3A4 perpetrator models, we conducted PBPK simulations for drug interactions in a virtual population to explore the impacts of comedication with these perpetrators.

Results

The PBPK model accurately describes pyrotinib single- and multi-dose pharmacokinetics. The model also predicts dramatic exposure change of pyrotinib in the presence of itraconazole and rifampicin, though the impact of rifampicin is somewhat underestimated. According to model predictions, coadministration with typical potent or moderate CYP3A4 perpetrators increases pyrotinib concentration by over sixfold, extinguishing the possibility of dose adjustment for pyrotinib. A weak CYP3A4 inhibitor has minimal influence on pyrotinib pharmacokinetics.

Conclusion

PBPK modeling provides valuable information to avoid irrational medication when receiving pyrotinib chemotherapy.

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Titel: Physiologically Based Pharmacokinetic Modeling to Simulate CYP3A4-Mediated Drug-Drug Interactions for Pyrotinib
verfasst von: Liang Ni
Liang Zheng
Yueyue Liu
Wenwen Xu
Yingjie Zhao
Ling Wang
Qian Zhang
Wei Hu
Xijing Chen
Publikationsdatum: 16.07.2023
Verlag: Springer Healthcare
Erschienen in: Advances in Therapy / Ausgabe 10/2023
Print ISSN: 0741-238X
Elektronische ISSN: 1865-8652
DOI: https://doi.org/10.1007/s12325-023-02602-1

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