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Deriving mechanism‐based pharmacodynamic models by reducing quantitative systems pharmacology models: An application to warfarin

Undine Falkenhagen, Jane Knöchel, Charlotte Kloft, Wilhelm Huisinga

2023CPT Pharmacometrics & Systems Pharmacology11 citationsDOIOpen Access PDF

Abstract

Quantitative systems pharmacology (QSP) models integrate comprehensive qualitative and quantitative knowledge about pharmacologically relevant processes. We previously proposed a first approach to leverage the knowledge in QSP models to derive simpler, mechanism-based pharmacodynamic (PD) models. Their complexity, however, is typically still too large to be used in the population analysis of clinical data. Here, we extend the approach beyond state reduction to also include the simplification of reaction rates, elimination of reactions, and analytic solutions. We additionally ensure that the reduced model maintains a prespecified approximation quality not only for a reference individual but also for a diverse virtual population. We illustrate the extended approach for the warfarin effect on blood coagulation. Using the model-reduction approach, we derive a novel small-scale warfarin/international normalized ratio model and demonstrate its suitability for biomarker identification. Due to the systematic nature of the approach in comparison with empirical model building, the proposed model-reduction algorithm provides an improved rationale to build PD models also from QSP models in other applications.

Topics & Concepts

Computer sciencePopulationLeverage (statistics)WarfarinIdentification (biology)Systems pharmacologyReduction (mathematics)Data miningMachine learningMathematicsPharmacologyMedicineDrugGeometryBotanyEnvironmental healthBiologyAtrial fibrillationCardiologyPharmacogenetics and Drug MetabolismReceptor Mechanisms and SignalingEicosanoids and Hypertension Pharmacology
Deriving mechanism‐based pharmacodynamic models by reducing quantitative systems pharmacology models: An application to warfarin | Litcius