HBM4EU E-waste study: an untargeted metabolomics approach to characterize metabolic changes during E-waste recycling

HBM4EU E-waste Study Team; Lucyna Kozlowska; Susana Viegas; Paul T.J. Scheepers; Radu C. Duca; Lode Godderis; Carla Martins; Krzesimir Ciura; Karolina Jagiello; Maria João Silva; Selma Mahiout; Inese Martinsone; Linda Matisane; An van Nieuwenhuyse; Tomasz Puzyn; Monika Sijko-Szpanska; Jelle Verdonck; Tiina Santonen; Kukka Aimonen; Lasma Akulova; Radia Bousoumah; Argelia Castaño; Adam Clarke; Adrian Covaci; Maurice van Dael; Marta Esteban López; Thomas Göeno; Martien Graumans; Ogier Hanser; Beata Janasik; Kate Jones; Laura Komarovska; Sirpa Laitinen; Henriqueta Louro; Linda Matisane; Inese Martinsone; Rodrigo Moreira; Darren Musgrove; Maria Mirela Ani; Maria Torres Toda; Ana Nogueira; Linda Paegle; Hermínia Pinhal; Tiina Rantio; Sílvia Reis Santos; Edna Ribeiro; Joanna Róg; Anita Seile; Marina Silva; Marjo Vänskä; Célia Ventura

doi:10.1016/j.envint.2025.109281

HBM4EU E-waste study: an untargeted metabolomics approach to characterize metabolic changes during E-waste recycling

HBM4EU E-waste Study Team, Lucyna Kozlowska, Susana Viegas, Paul T.J. Scheepers, Radu C. Duca, Lode Godderis, Carla Martins, Krzesimir Ciura, Karolina Jagiello, Maria João Silva, Selma Mahiout, Inese Martinsone, Linda Matisane, An van Nieuwenhuyse, Tomasz Puzyn, Monika Sijko-Szpanska, Jelle Verdonck, Tiina Santonen, Kukka Aimonen, Lasma AkulovaRadia Bousoumah, Argelia Castaño, Adam Clarke, Adrian Covaci, Maurice van Dael, Marta Esteban López, Thomas Göeno, Martien Graumans, Ogier Hanser, Beata Janasik, Kate Jones, Laura Komarovska, Sirpa Laitinen, Henriqueta Louro, Linda Matisane, Inese Martinsone, Rodrigo Moreira, Darren Musgrove, Maria Mirela Ani, Maria Torres Toda, Ana Nogueira, Linda Paegle, Hermínia Pinhal, Tiina Rantio, Sílvia Reis Santos, Edna Ribeiro, Joanna Róg, Anita Seile, Marina Silva, Marjo Vänskä, Célia Ventura

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Abstract

E-waste contains hazardous chemicals that may be a direct health risk for workers involved in recycling. We conducted an untargeted metabolomics analysis of urine samples collected from male e-waste processing workers to explore metabolic changes associated with chemical exposures in e-waste recycling in Belgium, Finland, Latvia, Luxembourg, the Netherlands, Poland, and Portugal. Questionnaire data and urine samples were obtained from workers involved in the processing of e-waste (sorting, dismantling, shredding, pre-processing, metal, and non-metal processing), as well as from controls with no known occupational exposure. Pre- and post-shift urine samples were collected and analysed using ultrahigh-performance liquid chromatography-mass spectrometry (UPLC-MS). A total of 32 endogenous urinary metabolites were annotated with a Variable Importance in Projection (VIP) above 2, indicating that e-waste recycling is mainly associated with changes in steroid hormone and neurotransmitter metabolism, energy metabolism, bile acid biosynthesis, and inflammation. The highest VIP was observed for dopamine-o-quinone, which is linked to Parkinson's disease. These and other changes in metabolism in workers employed in the processing of e-waste need further verification in targeted studies.

Original language	English
Article number	109281
Journal	Environment International
Volume	196
DOIs	https://doi.org/10.1016/j.envint.2025.109281
Publication status	Published - Feb 2025

Keywords

Biomarkers
Mixture exposure
Occupational exposure
Recycling
Urine metabolomics

UN SDGs

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

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10.1016/j.envint.2025.109281

Kozlowska 2025 Environ Intern 196 109281Final published version, 8.35 MBLicence: CC BY

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HBM4EU E-waste Study Team, Kozlowska, L., Viegas, S., Scheepers, P. T. J., Duca, R. C., Godderis, L., Martins, C., Ciura, K., Jagiello, K., Silva, M. J., Mahiout, S., Martinsone, I., Matisane, L., van Nieuwenhuyse, A., Puzyn, T., Sijko-Szpanska, M., Verdonck, J., Santonen, T., Aimonen, K., ... Ventura, C. (2025). HBM4EU E-waste study: an untargeted metabolomics approach to characterize metabolic changes during E-waste recycling. Environment International, 196, Article 109281. https://doi.org/10.1016/j.envint.2025.109281

@article{15dfe1f274584bd594f931959f00db9d,

title = "HBM4EU E-waste study: an untargeted metabolomics approach to characterize metabolic changes during E-waste recycling",

abstract = "E-waste contains hazardous chemicals that may be a direct health risk for workers involved in recycling. We conducted an untargeted metabolomics analysis of urine samples collected from male e-waste processing workers to explore metabolic changes associated with chemical exposures in e-waste recycling in Belgium, Finland, Latvia, Luxembourg, the Netherlands, Poland, and Portugal. Questionnaire data and urine samples were obtained from workers involved in the processing of e-waste (sorting, dismantling, shredding, pre-processing, metal, and non-metal processing), as well as from controls with no known occupational exposure. Pre- and post-shift urine samples were collected and analysed using ultrahigh-performance liquid chromatography-mass spectrometry (UPLC-MS). A total of 32 endogenous urinary metabolites were annotated with a Variable Importance in Projection (VIP) above 2, indicating that e-waste recycling is mainly associated with changes in steroid hormone and neurotransmitter metabolism, energy metabolism, bile acid biosynthesis, and inflammation. The highest VIP was observed for dopamine-o-quinone, which is linked to Parkinson's disease. These and other changes in metabolism in workers employed in the processing of e-waste need further verification in targeted studies.",

keywords = "Biomarkers, Mixture exposure, Occupational exposure, Recycling, Urine metabolomics",

author = "{HBM4EU E-waste Study Team} and Lucyna Kozlowska and Susana Viegas and Scheepers, {Paul T.J.} and Duca, {Radu C.} and Lode Godderis and Carla Martins and Krzesimir Ciura and Karolina Jagiello and Silva, {Maria Jo{\~a}o} and Selma Mahiout and Inese Martinsone and Linda Matisane and {van Nieuwenhuyse}, An and Tomasz Puzyn and Monika Sijko-Szpanska and Jelle Verdonck and Tiina Santonen and Kukka Aimonen and Lasma Akulova and Radia Bousoumah and Argelia Casta{\~n}o and Adam Clarke and Adrian Covaci and {van Dael}, Maurice and L{\'o}pez, {Marta Esteban} and Thomas G{\"o}eno and Martien Graumans and Ogier Hanser and Beata Janasik and Kate Jones and Laura Komarovska and Sirpa Laitinen and Henriqueta Louro and Linda Matisane and Inese Martinsone and Rodrigo Moreira and Darren Musgrove and Ani, {Maria Mirela} and Toda, {Maria Torres} and Ana Nogueira and Linda Paegle and Herm{\'i}nia Pinhal and Tiina Rantio and Santos, {S{\'i}lvia Reis} and Edna Ribeiro and Joanna R{\'o}g and Anita Seile and Marina Silva and Marjo V{\"a}nsk{\"a} and C{\'e}lia Ventura",

note = "Funding Information: HBM4EU E-Waste Study Team: The HBM4EU e-waste study team consists of Kukka Aimonen l, Lasma Akulova m, Radia Bousoumah n, Argelia Casta\u00F1o o, Adam Clarke p, Adrian Covaci q, Maurice van Dael c, Marta Esteban L\u00F3pez o, Thomas G\u00F6eno c, Martien Graumans c, Ogier Hanser n, Beata Janasik r, Kate Jones p, Laura Komarovska m, Sirpa Laitinen l, Henriqueta Louro s, Carla Martins b, Linda Matisane m, Inese Martinsone m, Rodrigo Moreira u, Darren Musgrove p, Maria-Mirela Ani d, Maria Torres Toda f, Ana Nogueira s, Linda Paegle m, Herm\u00EDnia Pinhal s, Tiina Rantio l, S\u00EDlvia Reis Santos s, Edna Ribeiro t, Joanna R\u00F3g a, Anita Seile m, Marina Silva t, S\u00EDlvia Reis Santos s, Marjo V\u00E4nsk\u00E4 l, Riitta Velin l, C\u00E9lia Ventura j,u and Wojciech Wasowicz r., Affiliations of these authors can be found in Supplementary material S3. Funding Information: This work has received external funding from the European Union\u2019s Horizon 2020 research and innovation program under grant agreement No. 733032 and received co-funding from the author\u2019s organizations and/or Ministries. In addition, the Finnish Work Environment fund provided funding (grant no. 200345). The publication was financed by the Science Development Fund of the Warsaw University of Life Sciences \u2013 SGGW. Publisher Copyright: {\textcopyright} 2025 The Author(s)",

year = "2025",

month = feb,

doi = "10.1016/j.envint.2025.109281",

language = "English",

volume = "196",

journal = "Environment International",

issn = "0160-4120",

publisher = "Elsevier",

}

HBM4EU E-waste Study Team, Kozlowska, L, Viegas, S, Scheepers, PTJ, Duca, RC, Godderis, L, Martins, C, Ciura, K, Jagiello, K, Silva, MJ, Mahiout, S, Martinsone, I, Matisane, L, van Nieuwenhuyse, A, Puzyn, T, Sijko-Szpanska, M, Verdonck, J, Santonen, T, Aimonen, K, Akulova, L, Bousoumah, R, Castaño, A, Clarke, A, Covaci, A, van Dael, M, López, ME, Göeno, T, Graumans, M, Hanser, O, Janasik, B, Jones, K, Komarovska, L, Laitinen, S, Louro, H, Matisane, L, Martinsone, I, Moreira, R, Musgrove, D, Ani, MM, Toda, MT, Nogueira, A, Paegle, L, Pinhal, H, Rantio, T, Santos, SR, Ribeiro, E, Róg, J, Seile, A, Silva, M, Vänskä, M & Ventura, C 2025, 'HBM4EU E-waste study: an untargeted metabolomics approach to characterize metabolic changes during E-waste recycling', Environment International, vol. 196, 109281. https://doi.org/10.1016/j.envint.2025.109281

TY - JOUR

T1 - HBM4EU E-waste study

T2 - an untargeted metabolomics approach to characterize metabolic changes during E-waste recycling

AU - HBM4EU E-waste Study Team

AU - Kozlowska, Lucyna

AU - Viegas, Susana

AU - Scheepers, Paul T.J.

AU - Duca, Radu C.

AU - Godderis, Lode

AU - Martins, Carla

AU - Ciura, Krzesimir

AU - Jagiello, Karolina

AU - Silva, Maria João

AU - Mahiout, Selma

AU - Martinsone, Inese

AU - Matisane, Linda

AU - van Nieuwenhuyse, An

AU - Puzyn, Tomasz

AU - Sijko-Szpanska, Monika

AU - Verdonck, Jelle

AU - Santonen, Tiina

AU - Aimonen, Kukka

AU - Akulova, Lasma

AU - Bousoumah, Radia

AU - Castaño, Argelia

AU - Clarke, Adam

AU - Covaci, Adrian

AU - van Dael, Maurice

AU - López, Marta Esteban

AU - Göeno, Thomas

AU - Graumans, Martien

AU - Hanser, Ogier

AU - Janasik, Beata

AU - Jones, Kate

AU - Komarovska, Laura

AU - Laitinen, Sirpa

AU - Louro, Henriqueta

AU - Matisane, Linda

AU - Martinsone, Inese

AU - Moreira, Rodrigo

AU - Musgrove, Darren

AU - Ani, Maria Mirela

AU - Toda, Maria Torres

AU - Nogueira, Ana

AU - Paegle, Linda

AU - Pinhal, Hermínia

AU - Rantio, Tiina

AU - Santos, Sílvia Reis

AU - Ribeiro, Edna

AU - Róg, Joanna

AU - Seile, Anita

AU - Silva, Marina

AU - Vänskä, Marjo

AU - Ventura, Célia

N1 - Funding Information: HBM4EU E-Waste Study Team: The HBM4EU e-waste study team consists of Kukka Aimonen l, Lasma Akulova m, Radia Bousoumah n, Argelia Casta\u00F1o o, Adam Clarke p, Adrian Covaci q, Maurice van Dael c, Marta Esteban L\u00F3pez o, Thomas G\u00F6eno c, Martien Graumans c, Ogier Hanser n, Beata Janasik r, Kate Jones p, Laura Komarovska m, Sirpa Laitinen l, Henriqueta Louro s, Carla Martins b, Linda Matisane m, Inese Martinsone m, Rodrigo Moreira u, Darren Musgrove p, Maria-Mirela Ani d, Maria Torres Toda f, Ana Nogueira s, Linda Paegle m, Herm\u00EDnia Pinhal s, Tiina Rantio l, S\u00EDlvia Reis Santos s, Edna Ribeiro t, Joanna R\u00F3g a, Anita Seile m, Marina Silva t, S\u00EDlvia Reis Santos s, Marjo V\u00E4nsk\u00E4 l, Riitta Velin l, C\u00E9lia Ventura j,u and Wojciech Wasowicz r., Affiliations of these authors can be found in Supplementary material S3. Funding Information: This work has received external funding from the European Union\u2019s Horizon 2020 research and innovation program under grant agreement No. 733032 and received co-funding from the author\u2019s organizations and/or Ministries. In addition, the Finnish Work Environment fund provided funding (grant no. 200345). The publication was financed by the Science Development Fund of the Warsaw University of Life Sciences \u2013 SGGW. Publisher Copyright: © 2025 The Author(s)

PY - 2025/2

Y1 - 2025/2

N2 - E-waste contains hazardous chemicals that may be a direct health risk for workers involved in recycling. We conducted an untargeted metabolomics analysis of urine samples collected from male e-waste processing workers to explore metabolic changes associated with chemical exposures in e-waste recycling in Belgium, Finland, Latvia, Luxembourg, the Netherlands, Poland, and Portugal. Questionnaire data and urine samples were obtained from workers involved in the processing of e-waste (sorting, dismantling, shredding, pre-processing, metal, and non-metal processing), as well as from controls with no known occupational exposure. Pre- and post-shift urine samples were collected and analysed using ultrahigh-performance liquid chromatography-mass spectrometry (UPLC-MS). A total of 32 endogenous urinary metabolites were annotated with a Variable Importance in Projection (VIP) above 2, indicating that e-waste recycling is mainly associated with changes in steroid hormone and neurotransmitter metabolism, energy metabolism, bile acid biosynthesis, and inflammation. The highest VIP was observed for dopamine-o-quinone, which is linked to Parkinson's disease. These and other changes in metabolism in workers employed in the processing of e-waste need further verification in targeted studies.

AB - E-waste contains hazardous chemicals that may be a direct health risk for workers involved in recycling. We conducted an untargeted metabolomics analysis of urine samples collected from male e-waste processing workers to explore metabolic changes associated with chemical exposures in e-waste recycling in Belgium, Finland, Latvia, Luxembourg, the Netherlands, Poland, and Portugal. Questionnaire data and urine samples were obtained from workers involved in the processing of e-waste (sorting, dismantling, shredding, pre-processing, metal, and non-metal processing), as well as from controls with no known occupational exposure. Pre- and post-shift urine samples were collected and analysed using ultrahigh-performance liquid chromatography-mass spectrometry (UPLC-MS). A total of 32 endogenous urinary metabolites were annotated with a Variable Importance in Projection (VIP) above 2, indicating that e-waste recycling is mainly associated with changes in steroid hormone and neurotransmitter metabolism, energy metabolism, bile acid biosynthesis, and inflammation. The highest VIP was observed for dopamine-o-quinone, which is linked to Parkinson's disease. These and other changes in metabolism in workers employed in the processing of e-waste need further verification in targeted studies.

KW - Biomarkers

KW - Mixture exposure

KW - Occupational exposure

KW - Recycling

KW - Urine metabolomics

UR - http://www.scopus.com/inward/record.url?scp=85215410622&partnerID=8YFLogxK

U2 - 10.1016/j.envint.2025.109281

DO - 10.1016/j.envint.2025.109281

M3 - Article

C2 - 39842165

AN - SCOPUS:85215410622

SN - 0160-4120

VL - 196

JO - Environment International

JF - Environment International

M1 - 109281

ER -

HBM4EU E-waste study: an untargeted metabolomics approach to characterize metabolic changes during E-waste recycling

Abstract

Keywords

UN SDGs

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