Wesseling S

Title : Acetylcholinesterase Inhibition in Rats and Humans Following Acute Fenitrothion Exposure Predicted by Physiologically Based Kinetic Modeling-Facilitated Quantitative In Vitro to In Vivo Extrapolation - Chen_2023_Environ.Sci.Technol__

Author(s) : Chen J , Zhao S , Wesseling S , Kramer NI , Rietjens I , Bouwmeester H

Ref : Environ Sci Technol , : , 2023

Abstract : Chen_2023_Environ.Sci.Technol__

ESTHER : Chen_2023_Environ.Sci.Technol__

PubMedSearch : Chen_2023_Environ.Sci.Technol__

PubMedID: 38008925

Title : Inter-individual variation in chlorpyrifos toxicokinetics characterized by physiologically based kinetic (PBK) and Monte Carlo simulation comparing human liver microsome and Supersome() cytochromes P450 (CYP)-specific kinetic data as model input - Zhao_2022_Arch.Toxicol__

Author(s) : Zhao S , Wesseling S , Rietjens I , Strikwold M

Ref : Archives of Toxicology , : , 2022

Abstract : Zhao_2022_Arch.Toxicol__

ESTHER : Zhao_2022_Arch.Toxicol__

PubMedSearch : Zhao_2022_Arch.Toxicol__

PubMedID: 35294598

Title : Physiologically based kinetic modelling based prediction of in vivo rat and human acetylcholinesterase (AChE) inhibition upon exposure to diazinon - Zhao_2021_Arch.Toxicol__

Author(s) : Zhao S , Wesseling S , Spenkelink B , Rietjens I

Ref : Archives of Toxicology , : , 2021

Abstract : Zhao_2021_Arch.Toxicol__

ESTHER : Zhao_2021_Arch.Toxicol__

PubMedSearch : Zhao_2021_Arch.Toxicol__

PubMedID: 33715020

Title : Physiologically based kinetic modelling-facilitated reverse dosimetry to predict in vivo red blood cell acetylcholinesterase inhibition following exposure to chlorpyrifos in the Caucasian and Chinese population - Zhao_2019_Toxicol.Sci_171_69

Author(s) : Zhao S , Kamelia L , Boonpawa R , Wesseling S , Spenkelink B , Rietjens I

Ref : Toxicol Sci , 171 :69 , 2019

Abstract : Zhao_2019_Toxicol.Sci_171_69

ESTHER : Zhao_2019_Toxicol.Sci_171_69

PubMedSearch : Zhao_2019_Toxicol.Sci_171_69

PubMedID: 31214721

Wesseling S

References (4)

1. Acetylcholinesterase Inhibition in Rats and Humans Following Acute Fenitrothion Exposure Predicted by Physiologically Based Kinetic Modeling-Facilitated Quantitative In Vitro to In Vivo Extrapolation

2. Inter-individual variation in chlorpyrifos toxicokinetics characterized by physiologically based kinetic (PBK) and Monte Carlo simulation comparing human liver microsome and Supersome() cytochromes P450 (CYP)-specific kinetic data as model input

3. Physiologically based kinetic modelling based prediction of in vivo rat and human acetylcholinesterase (AChE) inhibition upon exposure to diazinon

4. Physiologically based kinetic modelling-facilitated reverse dosimetry to predict in vivo red blood cell acetylcholinesterase inhibition following exposure to chlorpyrifos in the Caucasian and Chinese population