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A hybrid modeling approach for assessing mechanistic models of small molecule partitioning in vivo using a machine learning-integrated modeling platform

Victor Antontsev, Aditya Jagarapu, Yogesh Bundey, Hypatia Hou, Maksim Khotimchenko, Jason Walsh, Jyotika Varshney

2021Scientific Reports34 citationsDOIOpen Access PDF

Abstract

Prediction of the first-in-human dosing regimens is a critical step in drug development and requires accurate quantitation of drug distribution. Traditional in vivo studies used to characterize clinical candidate's volume of distribution are error-prone, time- and cost-intensive and lack reproducibility in clinical settings. The paper demonstrates how a computational platform integrating machine learning optimization with mechanistic modeling can be used to simulate compound plasma concentration profile and predict tissue-plasma partition coefficients with high accuracy by varying the lipophilicity descriptor logP. The approach applied to chemically diverse small molecules resulted in comparable geometric mean fold-errors of 1.50 and 1.63 in pharmacokinetic outputs for direct tissue:plasma partition and hybrid logP optimization, with the latter enabling prediction of tissue permeation that can be used to guide toxicity and efficacy dosing in human subjects. The optimization simulations required to achieve these results were parallelized on the AWS cloud and generated outputs in under 5 h. Accuracy, speed, and scalability of the framework indicate that it can be used to assess the relevance of other mechanistic relationships implicated in pharmacokinetic-pharmacodynamic phenomena with a lower risk of overfitting datasets and generate large database of physiologically-relevant drug disposition for further integration with machine learning models.

Topics & Concepts

Computer scienceOverfittingMachine learningPartition (number theory)Physiologically based pharmacokinetic modellingDrug discoveryArtificial intelligenceScalabilityPharmacokineticsBiological systemBioinformaticsMathematicsDatabaseBiologyArtificial neural networkCombinatoricsPharmacogenetics and Drug MetabolismComputational Drug Discovery MethodsStatistical Methods in Clinical Trials
A hybrid modeling approach for assessing mechanistic models of small molecule partitioning in vivo using a machine learning-integrated modeling platform | Litcius