Modernizing persistence–bioaccumulation–toxicity (PBT) assessment with high throughput animal-free methods

Beate I. Escher; Rolf Altenburger; Matthias Blüher; John K. Colbourne; Ralf Ebinghaus; Peter Fantke; Michaela Hein; Wolfgang Köck; Klaus Kümmerer; Sina Leipold; Xiaojing Li; Martin Scheringer; Stefan Scholz; Michael Schloter; Pia-Johanna Schweizer; Tamara Tal; Igor Tetko; Claudia Traidl-Hoffmann; Lukas Y. Wick; Kathrin Fenner

doi:10.1007/s00204-023-03485-5

Modernizing persistence–bioaccumulation–toxicity (PBT) assessment with high throughput animal-free methods

Beate I. Escher^*, Rolf Altenburger, Matthias Blüher, John K. Colbourne, Ralf Ebinghaus, Peter Fantke, Michaela Hein, Wolfgang Köck, Klaus Kümmerer, Sina Leipold, Xiaojing Li, Martin Scheringer, Stefan Scholz, Michael Schloter, Pia-Johanna Schweizer, Tamara Tal, Igor Tetko, Claudia Traidl-Hoffmann, Lukas Y. Wick, Kathrin Fenner

^*Corresponding author for this work

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Abstract

The assessment of persistence (P), bioaccumulation (B), and toxicity (T) of a chemical is a crucial first step at ensuring chemical safety and is a cornerstone of the European Union’s chemicals regulation REACH (Registration, Evaluation, Authorization, and Restriction of Chemicals). Existing methods for PBT assessment are overly complex and cumbersome, have produced incorrect conclusions, and rely heavily on animal-intensive testing. We explore how new-approach methodologies (NAMs) can overcome the limitations of current PBT assessment. We propose two innovative hazard indicators, termed cumulative toxicity equivalents (CTE) and persistent toxicity equivalents (PTE). Together they are intended to replace existing PBT indicators and can also accommodate the emerging concept of PMT (where M stands for mobility). The proposed “toxicity equivalents” can be measured with high throughput in vitro bioassays. CTE refers to the toxic effects measured directly in any given sample, including single chemicals, substitution products, or mixtures. PTE is the equivalent measure of cumulative toxicity equivalents measured after simulated environmental degradation of the sample. With an appropriate panel of animal-free or alternative in vitro bioassays, CTE and PTE comprise key environmental and human health hazard indicators. CTE and PTE do not require analytical identification of transformation products and mixture components but instead prompt two key questions: is the chemical or mixture toxic, and is this toxicity persistent or can it be attenuated by environmental degradation? Taken together, the proposed hazard indicators CTE and PTE have the potential to integrate P, B/M and T assessment into one high-throughput experimental workflow that sidesteps the need for analytical measurements and will support the Chemicals Strategy for Sustainability of the European Union.

Original language	English
Pages (from-to)	1267-1283
Number of pages	17
Journal	Archives of toxicology
Volume	97
Issue number	5
Early online date	23 Mar 2023
DOIs	https://doi.org/10.1007/s00204-023-03485-5
Publication status	Published - May 2023

Bibliographical note

Funding Information:
Open Access funding enabled and organized by Projekt DEAL. Some authors have received co-funding from the European Commission EU’s Horizon Europe research and innovation programme under Grant Agreement No 965406 (PrecisionTox) and 101057014 (PARC) and the German Ministry for Environment and Consumer protection. Main support was by the Helmholtz Association within the Helmholtz Research Field Earth and Environment POF IV Topic 9 “Healthy Planet- towards a non-toxic environment”. This output reflects only the authors’ views, and the European Union cannot be held responsible for any use that may be made of the information contained therein.

Publisher Copyright:
© 2023, The Author(s).

Keywords

Regulatory Toxicology
Hazard assessment
New approach methodologies (NAMs)
Persistence
Mobility
Biodegradation
In vitro bioassay
Toxicity

ASJC Scopus subject areas

Toxicology
Health, Toxicology and Mutagenesis

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Cite this

Escher, B. I., Altenburger, R., Blüher, M., Colbourne, J. K., Ebinghaus, R., Fantke, P., Hein, M., Köck, W., Kümmerer, K., Leipold, S., Li, X., Scheringer, M., Scholz, S., Schloter, M., Schweizer, P.-J., Tal, T., Tetko, I., Traidl-Hoffmann, C., Wick, L. Y., & Fenner, K. (2023). Modernizing persistence–bioaccumulation–toxicity (PBT) assessment with high throughput animal-free methods. Archives of toxicology, 97(5), 1267-1283. https://doi.org/10.1007/s00204-023-03485-5

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abstract = "The assessment of persistence (P), bioaccumulation (B), and toxicity (T) of a chemical is a crucial first step at ensuring chemical safety and is a cornerstone of the European Union{\textquoteright}s chemicals regulation REACH (Registration, Evaluation, Authorization, and Restriction of Chemicals). Existing methods for PBT assessment are overly complex and cumbersome, have produced incorrect conclusions, and rely heavily on animal-intensive testing. We explore how new-approach methodologies (NAMs) can overcome the limitations of current PBT assessment. We propose two innovative hazard indicators, termed cumulative toxicity equivalents (CTE) and persistent toxicity equivalents (PTE). Together they are intended to replace existing PBT indicators and can also accommodate the emerging concept of PMT (where M stands for mobility). The proposed “toxicity equivalents” can be measured with high throughput in vitro bioassays. CTE refers to the toxic effects measured directly in any given sample, including single chemicals, substitution products, or mixtures. PTE is the equivalent measure of cumulative toxicity equivalents measured after simulated environmental degradation of the sample. With an appropriate panel of animal-free or alternative in vitro bioassays, CTE and PTE comprise key environmental and human health hazard indicators. CTE and PTE do not require analytical identification of transformation products and mixture components but instead prompt two key questions: is the chemical or mixture toxic, and is this toxicity persistent or can it be attenuated by environmental degradation? Taken together, the proposed hazard indicators CTE and PTE have the potential to integrate P, B/M and T assessment into one high-throughput experimental workflow that sidesteps the need for analytical measurements and will support the Chemicals Strategy for Sustainability of the European Union.",

keywords = "Regulatory Toxicology, Hazard assessment, New approach methodologies (NAMs), Persistence, Mobility, Biodegradation, In vitro bioassay, Toxicity",

author = "Escher, {Beate I.} and Rolf Altenburger and Matthias Bl{\"u}her and Colbourne, {John K.} and Ralf Ebinghaus and Peter Fantke and Michaela Hein and Wolfgang K{\"o}ck and Klaus K{\"u}mmerer and Sina Leipold and Xiaojing Li and Martin Scheringer and Stefan Scholz and Michael Schloter and Pia-Johanna Schweizer and Tamara Tal and Igor Tetko and Claudia Traidl-Hoffmann and Wick, {Lukas Y.} and Kathrin Fenner",

note = "Funding Information: Open Access funding enabled and organized by Projekt DEAL. Some authors have received co-funding from the European Commission EU{\textquoteright}s Horizon Europe research and innovation programme under Grant Agreement No 965406 (PrecisionTox) and 101057014 (PARC) and the German Ministry for Environment and Consumer protection. Main support was by the Helmholtz Association within the Helmholtz Research Field Earth and Environment POF IV Topic 9 “Healthy Planet- towards a non-toxic environment”. This output reflects only the authors{\textquoteright} views, and the European Union cannot be held responsible for any use that may be made of the information contained therein. Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = may,

doi = "10.1007/s00204-023-03485-5",

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Escher, BI, Altenburger, R, Blüher, M, Colbourne, JK, Ebinghaus, R, Fantke, P, Hein, M, Köck, W, Kümmerer, K, Leipold, S, Li, X, Scheringer, M, Scholz, S, Schloter, M, Schweizer, P-J, Tal, T, Tetko, I, Traidl-Hoffmann, C, Wick, LY & Fenner, K 2023, 'Modernizing persistence–bioaccumulation–toxicity (PBT) assessment with high throughput animal-free methods', Archives of toxicology, vol. 97, no. 5, pp. 1267-1283. https://doi.org/10.1007/s00204-023-03485-5

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AU - Escher, Beate I.

AU - Altenburger, Rolf

AU - Blüher, Matthias

AU - Colbourne, John K.

AU - Ebinghaus, Ralf

AU - Fantke, Peter

AU - Hein, Michaela

AU - Köck, Wolfgang

AU - Kümmerer, Klaus

AU - Leipold, Sina

AU - Li, Xiaojing

AU - Scheringer, Martin

AU - Scholz, Stefan

AU - Schloter, Michael

AU - Schweizer, Pia-Johanna

AU - Tal, Tamara

AU - Tetko, Igor

AU - Traidl-Hoffmann, Claudia

AU - Wick, Lukas Y.

AU - Fenner, Kathrin

N1 - Funding Information: Open Access funding enabled and organized by Projekt DEAL. Some authors have received co-funding from the European Commission EU’s Horizon Europe research and innovation programme under Grant Agreement No 965406 (PrecisionTox) and 101057014 (PARC) and the German Ministry for Environment and Consumer protection. Main support was by the Helmholtz Association within the Helmholtz Research Field Earth and Environment POF IV Topic 9 “Healthy Planet- towards a non-toxic environment”. This output reflects only the authors’ views, and the European Union cannot be held responsible for any use that may be made of the information contained therein. Publisher Copyright: © 2023, The Author(s).

PY - 2023/5

Y1 - 2023/5

N2 - The assessment of persistence (P), bioaccumulation (B), and toxicity (T) of a chemical is a crucial first step at ensuring chemical safety and is a cornerstone of the European Union’s chemicals regulation REACH (Registration, Evaluation, Authorization, and Restriction of Chemicals). Existing methods for PBT assessment are overly complex and cumbersome, have produced incorrect conclusions, and rely heavily on animal-intensive testing. We explore how new-approach methodologies (NAMs) can overcome the limitations of current PBT assessment. We propose two innovative hazard indicators, termed cumulative toxicity equivalents (CTE) and persistent toxicity equivalents (PTE). Together they are intended to replace existing PBT indicators and can also accommodate the emerging concept of PMT (where M stands for mobility). The proposed “toxicity equivalents” can be measured with high throughput in vitro bioassays. CTE refers to the toxic effects measured directly in any given sample, including single chemicals, substitution products, or mixtures. PTE is the equivalent measure of cumulative toxicity equivalents measured after simulated environmental degradation of the sample. With an appropriate panel of animal-free or alternative in vitro bioassays, CTE and PTE comprise key environmental and human health hazard indicators. CTE and PTE do not require analytical identification of transformation products and mixture components but instead prompt two key questions: is the chemical or mixture toxic, and is this toxicity persistent or can it be attenuated by environmental degradation? Taken together, the proposed hazard indicators CTE and PTE have the potential to integrate P, B/M and T assessment into one high-throughput experimental workflow that sidesteps the need for analytical measurements and will support the Chemicals Strategy for Sustainability of the European Union.

AB - The assessment of persistence (P), bioaccumulation (B), and toxicity (T) of a chemical is a crucial first step at ensuring chemical safety and is a cornerstone of the European Union’s chemicals regulation REACH (Registration, Evaluation, Authorization, and Restriction of Chemicals). Existing methods for PBT assessment are overly complex and cumbersome, have produced incorrect conclusions, and rely heavily on animal-intensive testing. We explore how new-approach methodologies (NAMs) can overcome the limitations of current PBT assessment. We propose two innovative hazard indicators, termed cumulative toxicity equivalents (CTE) and persistent toxicity equivalents (PTE). Together they are intended to replace existing PBT indicators and can also accommodate the emerging concept of PMT (where M stands for mobility). The proposed “toxicity equivalents” can be measured with high throughput in vitro bioassays. CTE refers to the toxic effects measured directly in any given sample, including single chemicals, substitution products, or mixtures. PTE is the equivalent measure of cumulative toxicity equivalents measured after simulated environmental degradation of the sample. With an appropriate panel of animal-free or alternative in vitro bioassays, CTE and PTE comprise key environmental and human health hazard indicators. CTE and PTE do not require analytical identification of transformation products and mixture components but instead prompt two key questions: is the chemical or mixture toxic, and is this toxicity persistent or can it be attenuated by environmental degradation? Taken together, the proposed hazard indicators CTE and PTE have the potential to integrate P, B/M and T assessment into one high-throughput experimental workflow that sidesteps the need for analytical measurements and will support the Chemicals Strategy for Sustainability of the European Union.

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KW - Hazard assessment

KW - New approach methodologies (NAMs)

KW - Persistence

KW - Mobility

KW - Biodegradation

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KW - Toxicity

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Modernizing persistence–bioaccumulation–toxicity (PBT) assessment with high throughput animal-free methods

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

Access to Document

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Cite this