Towards a qAOP framework for predictive toxicology - Linking data to decisions

Alicia Paini; Ivana Campia; Mark T D Cronin; David Asturiol; Lidia Ceriani; Thomas E Exner; Wang Gao; Caroline Gomes; Johannes Kruisselbrink; Marvin Martens; M E Bette Meek; David Pamies; Julia Pletz; Stefan Scholz; Andreas Schüttler; Nicoleta Spînu; Daniel L Villeneuve; Clemens Wittwehr; Andrew Worth; Mirjam Luijten

doi:10.1016/j.comtox.2021.100195

Towards a qAOP framework for predictive toxicology - Linking data to decisions

Alicia Paini, Ivana Campia, Mark T D Cronin, David Asturiol, Lidia Ceriani, Thomas E Exner, Wang Gao, Caroline Gomes, Johannes Kruisselbrink, Marvin Martens, M E Bette Meek, David Pamies, Julia Pletz, Stefan Scholz, Andreas Schüttler, Nicoleta Spînu, Daniel L Villeneuve, Clemens Wittwehr, Andrew Worth^*, Mirjam Luijten

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

The adverse outcome pathway (AOP) is a conceptual construct that facilitates organisation and interpretation of mechanistic data representing multiple biological levels and deriving from a range of methodological approaches including in silico, in vitro and in vivo assays. AOPs are playing an increasingly important role in the chemical safety assessment paradigm and quantification of AOPs is an important step towards a more reliable prediction of chemically induced adverse effects. Modelling methodologies require the identification, extraction and use of reliable data and information to support the inclusion of quantitative considerations in AOP development. An extensive and growing range of digital resources are available to support the modelling of quantitative AOPs, providing a wide range of information, but also requiring guidance for their practical application. A framework for qAOP development is proposed based on feedback from a group of experts and three qAOP case studies. The proposed framework provides a harmonised approach for both regulators and scientists working in this area.

Original language	English
Article number	100195
Number of pages	14
Journal	Computational Toxicology
Volume	21
DOIs	https://doi.org/10.1016/j.comtox.2021.100195
Publication status	Published - Feb 2022

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10.1016/j.comtox.2021.100195Licence: CC BY

Cite this

Paini, A., Campia, I., Cronin, M. T. D., Asturiol, D., Ceriani, L., Exner, T. E., Gao, W., Gomes, C., Kruisselbrink, J., Martens, M., Meek, M. E. B., Pamies, D., Pletz, J., Scholz, S., Schüttler, A., Spînu, N., Villeneuve, D. L., Wittwehr, C., Worth, A., & Luijten, M. (2022). Towards a qAOP framework for predictive toxicology - Linking data to decisions. Computational Toxicology, 21, Article 100195. https://doi.org/10.1016/j.comtox.2021.100195

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title = "Towards a qAOP framework for predictive toxicology - Linking data to decisions",

abstract = "The adverse outcome pathway (AOP) is a conceptual construct that facilitates organisation and interpretation of mechanistic data representing multiple biological levels and deriving from a range of methodological approaches including in silico, in vitro and in vivo assays. AOPs are playing an increasingly important role in the chemical safety assessment paradigm and quantification of AOPs is an important step towards a more reliable prediction of chemically induced adverse effects. Modelling methodologies require the identification, extraction and use of reliable data and information to support the inclusion of quantitative considerations in AOP development. An extensive and growing range of digital resources are available to support the modelling of quantitative AOPs, providing a wide range of information, but also requiring guidance for their practical application. A framework for qAOP development is proposed based on feedback from a group of experts and three qAOP case studies. The proposed framework provides a harmonised approach for both regulators and scientists working in this area.",

author = "Alicia Paini and Ivana Campia and Cronin, {Mark T D} and David Asturiol and Lidia Ceriani and Exner, {Thomas E} and Wang Gao and Caroline Gomes and Johannes Kruisselbrink and Marvin Martens and Meek, {M E Bette} and David Pamies and Julia Pletz and Stefan Scholz and Andreas Sch{\"u}ttler and Nicoleta Sp{\^i}nu and Villeneuve, {Daniel L} and Clemens Wittwehr and Andrew Worth and Mirjam Luijten",

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doi = "10.1016/j.comtox.2021.100195",

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Paini, A, Campia, I, Cronin, MTD, Asturiol, D, Ceriani, L, Exner, TE, Gao, W, Gomes, C, Kruisselbrink, J, Martens, M, Meek, MEB, Pamies, D, Pletz, J, Scholz, S, Schüttler, A, Spînu, N, Villeneuve, DL, Wittwehr, C, Worth, A & Luijten, M 2022, 'Towards a qAOP framework for predictive toxicology - Linking data to decisions', Computational Toxicology, vol. 21, 100195. https://doi.org/10.1016/j.comtox.2021.100195

TY - JOUR

T1 - Towards a qAOP framework for predictive toxicology - Linking data to decisions

AU - Paini, Alicia

AU - Campia, Ivana

AU - Cronin, Mark T D

AU - Asturiol, David

AU - Ceriani, Lidia

AU - Exner, Thomas E

AU - Gao, Wang

AU - Gomes, Caroline

AU - Kruisselbrink, Johannes

AU - Martens, Marvin

AU - Meek, M E Bette

AU - Pamies, David

AU - Pletz, Julia

AU - Scholz, Stefan

AU - Schüttler, Andreas

AU - Spînu, Nicoleta

AU - Villeneuve, Daniel L

AU - Wittwehr, Clemens

AU - Worth, Andrew

AU - Luijten, Mirjam

PY - 2022/2

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AB - The adverse outcome pathway (AOP) is a conceptual construct that facilitates organisation and interpretation of mechanistic data representing multiple biological levels and deriving from a range of methodological approaches including in silico, in vitro and in vivo assays. AOPs are playing an increasingly important role in the chemical safety assessment paradigm and quantification of AOPs is an important step towards a more reliable prediction of chemically induced adverse effects. Modelling methodologies require the identification, extraction and use of reliable data and information to support the inclusion of quantitative considerations in AOP development. An extensive and growing range of digital resources are available to support the modelling of quantitative AOPs, providing a wide range of information, but also requiring guidance for their practical application. A framework for qAOP development is proposed based on feedback from a group of experts and three qAOP case studies. The proposed framework provides a harmonised approach for both regulators and scientists working in this area.

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