Wisdom of Crowds for Supporting the Safety Evaluation of Nanomaterials.

Journal: Environmental science & technology
Published Date: Jul 17, 2025

Abstract

The development of new approach methodologies (NAMs) to replace current testing for the safety assessment of engineered nanomaterials (ENMs) is hindered by the scarcity of validated experimental data for many ENMs. We introduce a framework to address this challenge by harnessing the collective expertise of professionals from multiple complementary and related fields ("wisdom of crowds" or WoC). By integrating expert insights, we aim to fill data gaps and generate consensus concern scores for diverse ENMs, thereby enhancing the predictive power of nanosafety computational models. Our investigation reveals an alignment between expert opinion and experimental data, providing robust estimations of concern levels. Building upon these findings, we employ predictive machine learning models trained on the newly defined concern scores, ENM descriptors, and gene expression profiles, to quantify potential harm across various toxicity end points. These models further reveal key genes potentially involved in underlying toxicity mechanisms. Notably, genes associated with metal ion homeostasis, inflammation, and oxidative stress emerge as predictors of ENM toxicity across diverse end points. This study showcases the value of integrating expert knowledge and computational modeling to support more efficient, mechanism-informed, and scalable safety assessment of nanomaterials in the rapidly evolving landscape of nanotechnology.

Authors

  • Laura Aliisa Saarimäki
    Faculty of Medicine and Life Sciences, University of Tampere, Arvo Ylpön katu 34 - Arvo building, Tampere, FI-33014, Finland.
  • Michele Fratello
    Faculty of Medicine and Health Technology, Tampere University, 33520 Tampere, Finland.
  • Giusy Del Giudice
    Finnish Hub for Development and Validation of Integrated Approaches (FHAIVE), Faculty of Medicine and Health Technology, Tampere University, Tampere 33520, Finland.
  • Emanuele Di Lieto
    Finnish Hub for Development and Validation of Integrated Approaches (FHAIVE), Faculty of Medicine and Health Technology, Tampere University, Tampere 33520, Finland.
  • Antreas Afantitis
    NovaMechanics Ltd. Nicosia, Cyprus.
  • Harri Alenius
    Institute of Environmental Medicine, Karolinska Institutet, SE-171 77 Stockholm, Sweden.
  • Eliodoro Chiavazzo
    Department of Energy, Politecnico di Torino, C.so Duca degli Abruzzi 24, Torino 10129, Italy.
  • Mary Gulumian
    National Institute for Occupational Health, National Health Laboratory Services, Johannesburg 2001, South Africa.
  • Piia Karisola
    Human Microbiome (HUMI) Research Program, Medical Faculty, University of Helsinki, Helsinki 00290, Finland.
  • Iseult Lynch
    School of Geography, Earth and Environmental Sciences, University of Birmingham, Birmingham, B15 2TT, UK.
  • Giulia Mancardi
    Politecnico di Torino, Corso Duca degli Abruzzi 24, Torino 10129, Italy.
  • Georgia Melagraki
    Nanoinformatics Department, NovaMechanics Ltd., Nicosia, 1065, Cyprus.
  • Paolo Netti
    Interdisciplinary Research Centre on Biomaterials-CRIB, University of Napoli Federico II, P.le Tecchio 80, Napoli 80125, Italy.
  • Anastasios G Papadiamantis
    Department of ChemoInformatics, NovaMechanics Ltd., Nicosia 1046, Cyprus.
  • Willie Peijnenburg
    Institute of Environmental Sciences, Leiden University, Leiden 2300 RA, The Netherlands.
  • Hélder A Santos
    Department of Biomaterials and Biomedical Technology, The Personalized Medicine Research Institute (PRECISION), University Medical Center Groningen (UMCG), University of Groningen, Groningen 9700 RB, The Netherlands.
  • Tommaso Serchi
    Luxembourg Institute of Science and Technology, 5 Avenue des Hauts Fourneaux, Esch-sur-Alzette 4362, Luxembourg.
  • Mohammad-Ali Shahbazi
    Department of Biomaterials and Biomedical Technology, The Personalized Medicine Research Institute (PRECISION), University Medical Center Groningen (UMCG), University of Groningen, Groningen 9700 RB, The Netherlands.
  • Tobias Stoeger
    Pneumology Center, Institute of Lung Health and Immunity, Helmholtz Center Munich, German and Research Center for Environmental Health, Neuherberg, German Center for Lung Research (DZL), Munich 85764, Germany.
  • Eugenia Valsami-Jones
    School of Geography, Earth, and Environmental Sciences, University of Birmingham, Birmingham B15 2TT, U.K.
  • Paola Vivo
    Solar Cells, Faculty of Engineering and Natural Sciences, Tampere University, P.O. Box 541, Tampere 33014, Finland.
  • Ivana Vinković Vrček
    Institute for Medical Research and Occupational Health, Zagreb HR-10001, Croatia.
  • Ulla Vogel
    National Research Centre for the Working Environment, Copenhagen, Denmark.
  • Peter Wick
    Laboratory for Particles-Biology Interactions Swiss Federal Laboratories for Materials Science and Technology (Empa), Lerchenfeldstrasse 5, St. Gallen 9014, Switzerland.
  • David A Winkler
    The Department of Biochemistry and Chemistry La Trobe Institute for Molecular Science La Trobe University Bundoora Victoria Australia.
  • Angela Serra
    Faculty of Medicine and Life Sciences, University of Tampere, Arvo Ylpön katu 34 - Arvo building, Tampere, FI-33014, Finland.
  • Dario Greco
    Faculty of Medicine and Life Sciences, University of Tampere, Arvo Ylpön katu 34 - Arvo building, Tampere, FI-33014, Finland.

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