Hazard identification and characterization of leachable chemicals from plastic products – a new PARC project

Hubert Dirven; Aleksandra Bogusz; Hans Bouwmeester; Mathias Busch; Guillaume Duflos; Gunnar S. Eriksen; Margarida Fardilha; Daniela Flores-Gomez; Nina Franko; Laurent Gaté; Yves Guichard; Maria João Silva; Jorke H. Kamstra; Konstantinos M. Kasiotis; Sunmi Kim; Young Jun Kim; Youngsam Kim; Elise van der Koogh; Susana Loureiro; Henriqueta Louro; Kyriaki Machera; Raymond H.H. Pieters; Anastasia Spyropoulou; Evangelia N. Tzanetou; Catarina Malheiro; Tim Ravnjak; Guillermo Repetto; Gilles Rivière; Chang Seon Ryu; Evgenia Anna Papadopoulou; Konstantinos A. Aliferis; Anita Solhaug; Marija Sollner Dolenc; Martina Štampar; Ana M. Tavares; Knut Erik Tollefsen; Célia Ventura; Radoslaw Walkowiak; Walter Zobl; Bojana Žegura; Igor Snapkow; Dorte Herzke

doi:10.3389/ftox.2025.1719035

Hazard identification and characterization of leachable chemicals from plastic products – a new PARC project

Hubert Dirven, Aleksandra Bogusz, Hans Bouwmeester, Mathias Busch, Guillaume Duflos, Gunnar S. Eriksen, Margarida Fardilha, Daniela Flores-Gomez, Nina Franko, Laurent Gaté, Yves Guichard, Maria João Silva, Jorke H. Kamstra, Konstantinos M. Kasiotis, Sunmi Kim, Young Jun Kim, Youngsam Kim, Elise van der Koogh, Susana Loureiro, Henriqueta LouroKyriaki Machera, Raymond H.H. Pieters, Anastasia Spyropoulou, Evangelia N. Tzanetou, Catarina Malheiro, Tim Ravnjak, Guillermo Repetto, Gilles Rivière, Chang Seon Ryu, Evgenia Anna Papadopoulou, Konstantinos A. Aliferis, Anita Solhaug, Marija Sollner Dolenc, Martina Štampar, Ana M. Tavares, Knut Erik Tollefsen, Célia Ventura, Radoslaw Walkowiak, Walter Zobl, Bojana Žegura, Igor Snapkow, Dorte Herzke

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

Abstract

A recent study has suggested that plastics may contain more than 16,000 chemicals, including additives, processing aids, starting substances, intermediates and Non-Intentionally Added Substances. Plastic chemicals are released throughout the plastic life cycle, from production, use, disposal and recycling. Most of these chemicals have not been studied for potential hazardous properties for humans and in the environment. To refine the risk assessment of these leachable chemicals, additional hazard data are needed. The PlasticLeach project within the EU co-funded Partnership for the Assessment of Risks from Chemicals (PARC) aims to address this data gap by screening several plastic products in daily use. Leachates will be prepared from a number of these plastic items, and these chemical mixtures will be further tested using several test guideline compliant assays and New Approach Methodologies covering both human health and environmental endpoints. The most toxic leachates will be characterized using a non-targeted analysis pipeline to identify chemicals in the leachate. When single chemicals of concern are identified, these will be further tested to determine hazardous properties and identify the respective potency factors to better understand their specific hazard profiles. A tiered approach for hazard testing will be followed. The experimental work will be complemented by in silico toxicological profiling, using publicly available toxicity databases and tools, including Artificial Intelligence tools that cover both human and environmental endpoints. A comprehensive array of endpoints, including cytotoxicity, endocrine disruption, genotoxicity, immunotoxicity, reproductive toxicity and effects related to ecotoxicity will be evaluated. In this paper, we outline the plastic products to be tested and the battery of assays that will be used to identify hazards relevant to both human health and the environment. Data generated from in silico, in vitro, and in vivo approaches will be reported using standardized formats, stored within a centralized repository, and harmonized to adhere to the FAIR data principles (Findable, Accessible, Interoperable, and Reusable). This integrated strategy will not only advance our understanding of the risks associated with plastic-derived chemicals but will also provide critical support for regulatory decision-making and facilitate the development of safer, and more ecofriendly plastic materials in the future.

Original language	English
Article number	1719035
Journal	Frontiers in Toxicology
Volume	7
DOIs	https://doi.org/10.3389/ftox.2025.1719035
Publication status	Published - 2025

UN SDGs

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

SDG 3 Good Health and Well-being

Keywords

chemicals
hazard assessment
leachables
new approach methodologies
PARC
plastics
risk assessment
toxicity

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10.3389/ftox.2025.1719035

ftox-7-1719035Final published version, 1.41 MBLicence: CC BY

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Dirven, H., Bogusz, A., Bouwmeester, H., Busch, M., Duflos, G., Eriksen, G. S., Fardilha, M., Flores-Gomez, D., Franko, N., Gaté, L., Guichard, Y., Silva, M. J., Kamstra, J. H., Kasiotis, K. M., Kim, S., Kim, Y. J., Kim, Y., van der Koogh, E., Loureiro, S., ... Herzke, D. (2025). Hazard identification and characterization of leachable chemicals from plastic products – a new PARC project. Frontiers in Toxicology, 7, Article 1719035. https://doi.org/10.3389/ftox.2025.1719035

@article{5b145c175c8849b28fd66968cda35dab,

title = "Hazard identification and characterization of leachable chemicals from plastic products – a new PARC project",

abstract = "A recent study has suggested that plastics may contain more than 16,000 chemicals, including additives, processing aids, starting substances, intermediates and Non-Intentionally Added Substances. Plastic chemicals are released throughout the plastic life cycle, from production, use, disposal and recycling. Most of these chemicals have not been studied for potential hazardous properties for humans and in the environment. To refine the risk assessment of these leachable chemicals, additional hazard data are needed. The PlasticLeach project within the EU co-funded Partnership for the Assessment of Risks from Chemicals (PARC) aims to address this data gap by screening several plastic products in daily use. Leachates will be prepared from a number of these plastic items, and these chemical mixtures will be further tested using several test guideline compliant assays and New Approach Methodologies covering both human health and environmental endpoints. The most toxic leachates will be characterized using a non-targeted analysis pipeline to identify chemicals in the leachate. When single chemicals of concern are identified, these will be further tested to determine hazardous properties and identify the respective potency factors to better understand their specific hazard profiles. A tiered approach for hazard testing will be followed. The experimental work will be complemented by in silico toxicological profiling, using publicly available toxicity databases and tools, including Artificial Intelligence tools that cover both human and environmental endpoints. A comprehensive array of endpoints, including cytotoxicity, endocrine disruption, genotoxicity, immunotoxicity, reproductive toxicity and effects related to ecotoxicity will be evaluated. In this paper, we outline the plastic products to be tested and the battery of assays that will be used to identify hazards relevant to both human health and the environment. Data generated from in silico, in vitro, and in vivo approaches will be reported using standardized formats, stored within a centralized repository, and harmonized to adhere to the FAIR data principles (Findable, Accessible, Interoperable, and Reusable). This integrated strategy will not only advance our understanding of the risks associated with plastic-derived chemicals but will also provide critical support for regulatory decision-making and facilitate the development of safer, and more ecofriendly plastic materials in the future.",

keywords = "chemicals, hazard assessment, leachables, new approach methodologies, PARC, plastics, risk assessment, toxicity",

author = "Hubert Dirven and Aleksandra Bogusz and Hans Bouwmeester and Mathias Busch and Guillaume Duflos and Eriksen, \{Gunnar S.\} and Margarida Fardilha and Daniela Flores-Gomez and Nina Franko and Laurent Gat{\'e} and Yves Guichard and Silva, \{Maria Jo{\~a}o\} and Kamstra, \{Jorke H.\} and Kasiotis, \{Konstantinos M.\} and Sunmi Kim and Kim, \{Young Jun\} and Youngsam Kim and \{van der Koogh\}, Elise and Susana Loureiro and Henriqueta Louro and Kyriaki Machera and Pieters, \{Raymond H.H.\} and Anastasia Spyropoulou and Tzanetou, \{Evangelia N.\} and Catarina Malheiro and Tim Ravnjak and Guillermo Repetto and Gilles Rivi{\`e}re and Ryu, \{Chang Seon\} and Papadopoulou, \{Evgenia Anna\} and Aliferis, \{Konstantinos A.\} and Anita Solhaug and Dolenc, \{Marija Sollner\} and Martina {\v S}tampar and Tavares, \{Ana M.\} and Tollefsen, \{Knut Erik\} and C{\'e}lia Ventura and Radoslaw Walkowiak and Walter Zobl and Bojana {\v Z}egura and Igor Snapkow and Dorte Herzke",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 Dirven, Bogusz, Bouwmeester, Busch, Duflos, Eriksen, Fardilha, Flores-Gomez, Franko, Gat{\'e}, Guichard, Silva, Kamstra, Kasiotis, Kim, Kim, Kim, van der Koogh, Loureiro, Louro, Machera, Pieters, Spyropoulou, Tzanetou, Malheiro, Ravnjak, Repetto, Rivi{\`e}re, Ryu, Papadopoulou, Aliferis, Solhaug, Dolenc, {\v S}tampar, Tavares, Tollefsen, Ventura, Walkowiak, Zobl, {\v Z}egura, Snapkow and Herzke.",

year = "2025",

doi = "10.3389/ftox.2025.1719035",

language = "English",

volume = "7",

journal = "Frontiers in Toxicology",

issn = "2673-3080",

publisher = "Frontiers Media",

}

Dirven, H, Bogusz, A, Bouwmeester, H, Busch, M, Duflos, G, Eriksen, GS, Fardilha, M, Flores-Gomez, D, Franko, N, Gaté, L, Guichard, Y, Silva, MJ, Kamstra, JH, Kasiotis, KM, Kim, S, Kim, YJ, Kim, Y, van der Koogh, E, Loureiro, S, Louro, H, Machera, K, Pieters, RHH, Spyropoulou, A, Tzanetou, EN, Malheiro, C, Ravnjak, T, Repetto, G, Rivière, G, Ryu, CS, Papadopoulou, EA, Aliferis, KA, Solhaug, A, Dolenc, MS, Štampar, M, Tavares, AM, Tollefsen, KE, Ventura, C, Walkowiak, R, Zobl, W, Žegura, B, Snapkow, I & Herzke, D 2025, 'Hazard identification and characterization of leachable chemicals from plastic products – a new PARC project', Frontiers in Toxicology, vol. 7, 1719035. https://doi.org/10.3389/ftox.2025.1719035

TY - JOUR

T1 - Hazard identification and characterization of leachable chemicals from plastic products – a new PARC project

AU - Dirven, Hubert

AU - Bogusz, Aleksandra

AU - Bouwmeester, Hans

AU - Busch, Mathias

AU - Duflos, Guillaume

AU - Eriksen, Gunnar S.

AU - Fardilha, Margarida

AU - Flores-Gomez, Daniela

AU - Franko, Nina

AU - Gaté, Laurent

AU - Guichard, Yves

AU - Silva, Maria João

AU - Kamstra, Jorke H.

AU - Kasiotis, Konstantinos M.

AU - Kim, Sunmi

AU - Kim, Young Jun

AU - Kim, Youngsam

AU - van der Koogh, Elise

AU - Loureiro, Susana

AU - Louro, Henriqueta

AU - Machera, Kyriaki

AU - Pieters, Raymond H.H.

AU - Spyropoulou, Anastasia

AU - Tzanetou, Evangelia N.

AU - Malheiro, Catarina

AU - Ravnjak, Tim

AU - Repetto, Guillermo

AU - Rivière, Gilles

AU - Ryu, Chang Seon

AU - Papadopoulou, Evgenia Anna

AU - Aliferis, Konstantinos A.

AU - Solhaug, Anita

AU - Dolenc, Marija Sollner

AU - Štampar, Martina

AU - Tavares, Ana M.

AU - Tollefsen, Knut Erik

AU - Ventura, Célia

AU - Walkowiak, Radoslaw

AU - Zobl, Walter

AU - Žegura, Bojana

AU - Snapkow, Igor

AU - Herzke, Dorte

N1 - Publisher Copyright: Copyright © 2025 Dirven, Bogusz, Bouwmeester, Busch, Duflos, Eriksen, Fardilha, Flores-Gomez, Franko, Gaté, Guichard, Silva, Kamstra, Kasiotis, Kim, Kim, Kim, van der Koogh, Loureiro, Louro, Machera, Pieters, Spyropoulou, Tzanetou, Malheiro, Ravnjak, Repetto, Rivière, Ryu, Papadopoulou, Aliferis, Solhaug, Dolenc, Štampar, Tavares, Tollefsen, Ventura, Walkowiak, Zobl, Žegura, Snapkow and Herzke.

PY - 2025

Y1 - 2025

N2 - A recent study has suggested that plastics may contain more than 16,000 chemicals, including additives, processing aids, starting substances, intermediates and Non-Intentionally Added Substances. Plastic chemicals are released throughout the plastic life cycle, from production, use, disposal and recycling. Most of these chemicals have not been studied for potential hazardous properties for humans and in the environment. To refine the risk assessment of these leachable chemicals, additional hazard data are needed. The PlasticLeach project within the EU co-funded Partnership for the Assessment of Risks from Chemicals (PARC) aims to address this data gap by screening several plastic products in daily use. Leachates will be prepared from a number of these plastic items, and these chemical mixtures will be further tested using several test guideline compliant assays and New Approach Methodologies covering both human health and environmental endpoints. The most toxic leachates will be characterized using a non-targeted analysis pipeline to identify chemicals in the leachate. When single chemicals of concern are identified, these will be further tested to determine hazardous properties and identify the respective potency factors to better understand their specific hazard profiles. A tiered approach for hazard testing will be followed. The experimental work will be complemented by in silico toxicological profiling, using publicly available toxicity databases and tools, including Artificial Intelligence tools that cover both human and environmental endpoints. A comprehensive array of endpoints, including cytotoxicity, endocrine disruption, genotoxicity, immunotoxicity, reproductive toxicity and effects related to ecotoxicity will be evaluated. In this paper, we outline the plastic products to be tested and the battery of assays that will be used to identify hazards relevant to both human health and the environment. Data generated from in silico, in vitro, and in vivo approaches will be reported using standardized formats, stored within a centralized repository, and harmonized to adhere to the FAIR data principles (Findable, Accessible, Interoperable, and Reusable). This integrated strategy will not only advance our understanding of the risks associated with plastic-derived chemicals but will also provide critical support for regulatory decision-making and facilitate the development of safer, and more ecofriendly plastic materials in the future.

AB - A recent study has suggested that plastics may contain more than 16,000 chemicals, including additives, processing aids, starting substances, intermediates and Non-Intentionally Added Substances. Plastic chemicals are released throughout the plastic life cycle, from production, use, disposal and recycling. Most of these chemicals have not been studied for potential hazardous properties for humans and in the environment. To refine the risk assessment of these leachable chemicals, additional hazard data are needed. The PlasticLeach project within the EU co-funded Partnership for the Assessment of Risks from Chemicals (PARC) aims to address this data gap by screening several plastic products in daily use. Leachates will be prepared from a number of these plastic items, and these chemical mixtures will be further tested using several test guideline compliant assays and New Approach Methodologies covering both human health and environmental endpoints. The most toxic leachates will be characterized using a non-targeted analysis pipeline to identify chemicals in the leachate. When single chemicals of concern are identified, these will be further tested to determine hazardous properties and identify the respective potency factors to better understand their specific hazard profiles. A tiered approach for hazard testing will be followed. The experimental work will be complemented by in silico toxicological profiling, using publicly available toxicity databases and tools, including Artificial Intelligence tools that cover both human and environmental endpoints. A comprehensive array of endpoints, including cytotoxicity, endocrine disruption, genotoxicity, immunotoxicity, reproductive toxicity and effects related to ecotoxicity will be evaluated. In this paper, we outline the plastic products to be tested and the battery of assays that will be used to identify hazards relevant to both human health and the environment. Data generated from in silico, in vitro, and in vivo approaches will be reported using standardized formats, stored within a centralized repository, and harmonized to adhere to the FAIR data principles (Findable, Accessible, Interoperable, and Reusable). This integrated strategy will not only advance our understanding of the risks associated with plastic-derived chemicals but will also provide critical support for regulatory decision-making and facilitate the development of safer, and more ecofriendly plastic materials in the future.

KW - chemicals

KW - hazard assessment

KW - leachables

KW - new approach methodologies

KW - PARC

KW - plastics

KW - risk assessment

KW - toxicity

UR - https://www.scopus.com/pages/publications/105024580981

U2 - 10.3389/ftox.2025.1719035

DO - 10.3389/ftox.2025.1719035

M3 - Article

C2 - 41393343

AN - SCOPUS:105024580981

SN - 2673-3080

VL - 7

JO - Frontiers in Toxicology

JF - Frontiers in Toxicology

M1 - 1719035

ER -

Hazard identification and characterization of leachable chemicals from plastic products – a new PARC project

Abstract

UN SDGs

Keywords

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