Incorporating renal excretion via the OCT2 transporter in physiologically based kinetic modelling to predict in vivo kinetics of mepiquat in rat-Reference-Cited by-同舟云学术

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Incorporating renal excretion via the OCT2 transporter in physiologically based kinetic modelling to predict in vivo kinetics of mepiquat in rat

Published:2021-06 Issue: Volume:343 Page:34-43
ISSN:0378-4274
Container-title:Toxicology Letters
language:en
Short-container-title:Toxicology Letters

Author:

Noorlander Annelies^ORCID,Wesseling Sebastiaan,Rietjens Ivonne M.C.M.,van Ravenzwaay Bennard

Funder

BASF SE

Publisher

Elsevier BV

Subject

Toxicology,General Medicine

Reference45 articles.

1. Predicting points of departure for risk assessment based on in vitro cytotoxicity data and physiologically based kinetic (PBK) modeling: the case of kidney toxicity induced by aristolochic acid I;Abdullah;Food Chem. Toxicol.,2016

2. Reregistration eligibility decision(RED) mepiquat chloride;Agency;Washington, D.C.,1997

3. Kidney cortical transporter expression across species using quantitative proteomics;Basit;Drug Metab. Dispos.,2019

4. EURL ECVAM strategy for achieving 3Rs impact in the assessment of toxicokinetics and systemic toxicity;Bessems;Publ. Off. Europe. Union.,2015

5. Physiological parameter values for physiologically based pharmacokinetic models;Brown;Toxicol. Ind. Health,1997

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1. Identification of Novel and Early Biomarkers for Cisplatin-induced Nephrotoxicity and the Nephroprotective Role of Cimetidine using a Pharmacometabolomic-based Approach Coupled with In Vitro Toxicodynamic Modeling and Simulation;Journal of Pharmaceutical Sciences;2024-01

2. Predicting acute paraquat toxicity using physiologically based kinetic modelling incorporating in vitro active renal excretion via the OCT2 transporter;Toxicology Letters;2023-10

3. Physiologically‐Based Kinetic Modeling Predicts Similar In Vivo Relative Potency of Senecionine N‐Oxide for Rat and Human at Realistic Low Exposure Levels;Molecular Nutrition & Food Research;2023-01-24

4. Application of the Adverse Outcome Pathway Concept to In Vitro Nephrotoxicity Assessment: Kidney Injury due to Receptor-Mediated Endocytosis and Lysosomal Overload as a Case Study;Frontiers in Toxicology;2022-04-19

5. Use of Physiologically Based Kinetic Modeling-Facilitated Reverse Dosimetry to PredictIn VivoAcute Toxicity of Tetrodotoxin in Rodents;Toxicological Sciences;2022-02-26

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