Review on Predictive Models and Integration Strategies for Holistic Impact Assessment of Chemicals and Materials

Angela Serra; Marcella Torres Maia; Periklis Tsiros; Vasileios Minadakis; Rafael Riudavets-Puig; Adrien Perello-y-bestard; Fotini Nikiforou; Achilleas Karakoltzidis; Emanuele Di Lieto; Alexandra Schaffert; Zeyad Al-Abdulraheem; Ishita Virmani; Olga Dziubaniuk; Sikri Karhukorpi; Joahim Dokler; Dimitrios Zouraris; Dimitris G. Mintis; Dimitra Danai Varsou; Andreas Tsoumanis; Georgia Melagraki; Panagiotis Isigonis; Anastasios G. Papadiamantis; Marija Buljan; Anna Agalliadou; Laura-Jayne A. Ellis; Jacques Aurélien Sergent; Matheus Alves Siqueira de Assunção; Diego Stéfani Teodoro Martinez; David Winkler; Seung-Geun Park; Seung Min Ha; Zayakhuu Gerelkhuu; Tae Hyun Yoon; Spyros Karakitsios; Dimosthenis A. Sarigiannis; Antreas Afantitis; Stefano Cucurachi; Tommaso Serchi; Antonino Marvuglia; Thomas Exner; Jaakko Siltaloppi; Martin Paparella; Willie Peijnenburg; Peter Wick; Iseult Lynch; Haralambos Sarimveis; Dario Greco

doi:10.1021/acs.est.5c04489

Review on Predictive Models and Integration Strategies for Holistic Impact Assessment of Chemicals and Materials

Angela Serra^*
, Marcella Torres Maia
, Periklis Tsiros
, Vasileios Minadakis
, Rafael Riudavets-Puig
, Adrien Perello-y-bestard
, Fotini Nikiforou
, Achilleas Karakoltzidis
, Emanuele Di Lieto
, Alexandra Schaffert
, Zeyad Al-Abdulraheem
, Ishita Virmani
, Olga Dziubaniuk
, Sikri Karhukorpi
, Joahim Dokler
, Dimitrios Zouraris
, Dimitris G. Mintis
, Dimitra Danai Varsou
, Andreas Tsoumanis
, Georgia Melagraki

Panagiotis Isigonis, Anastasios G. Papadiamantis, Marija Buljan, Anna Agalliadou, Laura-Jayne A. Ellis, Jacques Aurélien Sergent, Matheus Alves Siqueira de Assunção, Diego Stéfani Teodoro Martinez, David Winkler, Seung-Geun Park, Seung Min Ha, Zayakhuu Gerelkhuu, Tae Hyun Yoon, Spyros Karakitsios, Dimosthenis A. Sarigiannis, Antreas Afantitis, Stefano Cucurachi, Tommaso Serchi, Antonino Marvuglia, Thomas Exner, Jaakko Siltaloppi, Martin Paparella, Willie Peijnenburg, Peter Wick, Iseult Lynch, Haralambos Sarimveis, Dario Greco^*

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

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Abstract

Rapid innovation in chemicals and materials calls for innovative integrated approaches that can assess their impacts across different areas. The Safe and Sustainable-by-Design (SSbD) framework, developed by the European Commission’s Joint Research Centre (JRC), offers a comprehensive approach with which to evaluate the safety and sustainability of chemicals and materials across their lifecycle. While SSbD uses various modeling approaches to assess impacts on human health, the environment, and socioeconomic factors, these are often applied independently, hindering a holistic understanding of the complex interactions between these factors and thus the simultaneous optimization of function, cost, safety and sustainability. This review describes existing predictive models and available strategies for their integration to facilitate more comprehensive and holistic chemical and material impact assessments. Specifically, we examine three model integration strategies: consensus integration that combines model predictions for the same impact categories, weighted aggregation that combines different scores in a unified one, and pipeline integration that links models sequentially to create a more unified assessment. Furthermore, we address key concepts related to the uncertainty of model predictions and the applicability domain of models, highlighting how these evolve in integrated frameworks. Insights into the applications of these integration strategies and challenges will allow a more accurate, coherent, and sustainable approach to chemical and material safety and sustainability assessments.

Original language	English
Pages (from-to)	3739-3766
Number of pages	28
Journal	Environmental Science and Technology
Volume	60
Issue number	5
Early online date	28 Jan 2026
DOIs	https://doi.org/10.1021/acs.est.5c04489
Publication status	Published - 10 Feb 2026

Bibliographical note

UN SDGs

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

SDG 3 Good Health and Well-being

Keywords

impact assessment
integrated impact assessment
predictive models
Safe and Sustainable by Design (SSbD)

ASJC Scopus subject areas

General Chemistry
Environmental Chemistry

Access to Document

10.1021/acs.est.5c04489Licence: Creative Commons: Attribution (CC BY)

SerraA2026ReviewFinal published version, 6.15 MBLicence: Creative Commons: Attribution (CC BY)

INSIGHT: Integrated Models for the Development and Assessment of High Impact Chemicals and Materials
Lynch, I. (Principal Investigator)
UKRI Horizon Europe Underwriting Innovate UK
1/01/24 → 31/12/27
Project: Research

Cite this

Serra, A., Torres Maia, M., Tsiros, P., Minadakis, V., Riudavets-Puig, R., Perello-y-bestard, A., Nikiforou, F., Karakoltzidis, A., Di Lieto, E., Schaffert, A., Al-Abdulraheem, Z., Virmani, I., Dziubaniuk, O., Karhukorpi, S., Dokler, J., Zouraris, D., Mintis, D. G., Varsou, D. D., Tsoumanis, A., ... Greco, D. (2026). Review on Predictive Models and Integration Strategies for Holistic Impact Assessment of Chemicals and Materials. Environmental Science and Technology, 60(5), 3739-3766. https://doi.org/10.1021/acs.est.5c04489

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abstract = "Rapid innovation in chemicals and materials calls for innovative integrated approaches that can assess their impacts across different areas. The Safe and Sustainable-by-Design (SSbD) framework, developed by the European Commission{\textquoteright}s Joint Research Centre (JRC), offers a comprehensive approach with which to evaluate the safety and sustainability of chemicals and materials across their lifecycle. While SSbD uses various modeling approaches to assess impacts on human health, the environment, and socioeconomic factors, these are often applied independently, hindering a holistic understanding of the complex interactions between these factors and thus the simultaneous optimization of function, cost, safety and sustainability. This review describes existing predictive models and available strategies for their integration to facilitate more comprehensive and holistic chemical and material impact assessments. Specifically, we examine three model integration strategies: consensus integration that combines model predictions for the same impact categories, weighted aggregation that combines different scores in a unified one, and pipeline integration that links models sequentially to create a more unified assessment. Furthermore, we address key concepts related to the uncertainty of model predictions and the applicability domain of models, highlighting how these evolve in integrated frameworks. Insights into the applications of these integration strategies and challenges will allow a more accurate, coherent, and sustainable approach to chemical and material safety and sustainability assessments.",

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author = "Angela Serra and \{Torres Maia\}, Marcella and Periklis Tsiros and Vasileios Minadakis and Rafael Riudavets-Puig and Adrien Perello-y-bestard and Fotini Nikiforou and Achilleas Karakoltzidis and \{Di Lieto\}, Emanuele and Alexandra Schaffert and Zeyad Al-Abdulraheem and Ishita Virmani and Olga Dziubaniuk and Sikri Karhukorpi and Joahim Dokler and Dimitrios Zouraris and Mintis, \{Dimitris G.\} and Varsou, \{Dimitra Danai\} and Andreas Tsoumanis and Georgia Melagraki and Panagiotis Isigonis and Papadiamantis, \{Anastasios G.\} and Marija Buljan and Anna Agalliadou and Ellis, \{Laura-Jayne A.\} and Sergent, \{Jacques Aur{\'e}lien\} and \{Alves Siqueira de Assun{\c c}{\~a}o\}, Matheus and Martinez, \{Diego St{\'e}fani Teodoro\} and David Winkler and Seung-Geun Park and Ha, \{Seung Min\} and Zayakhuu Gerelkhuu and Yoon, \{Tae Hyun\} and Spyros Karakitsios and Sarigiannis, \{Dimosthenis A.\} and Antreas Afantitis and Stefano Cucurachi and Tommaso Serchi and Antonino Marvuglia and Thomas Exner and Jaakko Siltaloppi and Martin Paparella and Willie Peijnenburg and Peter Wick and Iseult Lynch and Haralambos Sarimveis and Dario Greco",

note = "Publisher Copyright: {\textcopyright} 2026 The Authors. Published by American Chemical Society",

year = "2026",

month = feb,

day = "10",

doi = "10.1021/acs.est.5c04489",

language = "English",

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pages = "3739--3766",

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Serra, A, Torres Maia, M, Tsiros, P, Minadakis, V, Riudavets-Puig, R, Perello-y-bestard, A, Nikiforou, F, Karakoltzidis, A, Di Lieto, E, Schaffert, A, Al-Abdulraheem, Z, Virmani, I, Dziubaniuk, O, Karhukorpi, S, Dokler, J, Zouraris, D, Mintis, DG, Varsou, DD, Tsoumanis, A, Melagraki, G, Isigonis, P, Papadiamantis, AG, Buljan, M, Agalliadou, A, Ellis, L-JA, Sergent, JA, Alves Siqueira de Assunção, M, Martinez, DST, Winkler, D, Park, S-G, Ha, SM, Gerelkhuu, Z, Yoon, TH, Karakitsios, S, Sarigiannis, DA, Afantitis, A, Cucurachi, S, Serchi, T, Marvuglia, A, Exner, T, Siltaloppi, J, Paparella, M, Peijnenburg, W, Wick, P, Lynch, I, Sarimveis, H & Greco, D 2026, 'Review on Predictive Models and Integration Strategies for Holistic Impact Assessment of Chemicals and Materials', Environmental Science and Technology, vol. 60, no. 5, pp. 3739-3766. https://doi.org/10.1021/acs.est.5c04489

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AU - Serra, Angela

AU - Torres Maia, Marcella

AU - Tsiros, Periklis

AU - Minadakis, Vasileios

AU - Riudavets-Puig, Rafael

AU - Perello-y-bestard, Adrien

AU - Nikiforou, Fotini

AU - Karakoltzidis, Achilleas

AU - Di Lieto, Emanuele

AU - Schaffert, Alexandra

AU - Al-Abdulraheem, Zeyad

AU - Virmani, Ishita

AU - Dziubaniuk, Olga

AU - Karhukorpi, Sikri

AU - Dokler, Joahim

AU - Zouraris, Dimitrios

AU - Mintis, Dimitris G.

AU - Varsou, Dimitra Danai

AU - Tsoumanis, Andreas

AU - Melagraki, Georgia

AU - Isigonis, Panagiotis

AU - Papadiamantis, Anastasios G.

AU - Buljan, Marija

AU - Agalliadou, Anna

AU - Ellis, Laura-Jayne A.

AU - Sergent, Jacques Aurélien

AU - Alves Siqueira de Assunção, Matheus

AU - Martinez, Diego Stéfani Teodoro

AU - Winkler, David

AU - Park, Seung-Geun

AU - Ha, Seung Min

AU - Gerelkhuu, Zayakhuu

AU - Yoon, Tae Hyun

AU - Karakitsios, Spyros

AU - Sarigiannis, Dimosthenis A.

AU - Afantitis, Antreas

AU - Cucurachi, Stefano

AU - Serchi, Tommaso

AU - Marvuglia, Antonino

AU - Exner, Thomas

AU - Siltaloppi, Jaakko

AU - Paparella, Martin

AU - Peijnenburg, Willie

AU - Wick, Peter

AU - Lynch, Iseult

AU - Sarimveis, Haralambos

AU - Greco, Dario

PY - 2026/2/10

Y1 - 2026/2/10

N2 - Rapid innovation in chemicals and materials calls for innovative integrated approaches that can assess their impacts across different areas. The Safe and Sustainable-by-Design (SSbD) framework, developed by the European Commission’s Joint Research Centre (JRC), offers a comprehensive approach with which to evaluate the safety and sustainability of chemicals and materials across their lifecycle. While SSbD uses various modeling approaches to assess impacts on human health, the environment, and socioeconomic factors, these are often applied independently, hindering a holistic understanding of the complex interactions between these factors and thus the simultaneous optimization of function, cost, safety and sustainability. This review describes existing predictive models and available strategies for their integration to facilitate more comprehensive and holistic chemical and material impact assessments. Specifically, we examine three model integration strategies: consensus integration that combines model predictions for the same impact categories, weighted aggregation that combines different scores in a unified one, and pipeline integration that links models sequentially to create a more unified assessment. Furthermore, we address key concepts related to the uncertainty of model predictions and the applicability domain of models, highlighting how these evolve in integrated frameworks. Insights into the applications of these integration strategies and challenges will allow a more accurate, coherent, and sustainable approach to chemical and material safety and sustainability assessments.

AB - Rapid innovation in chemicals and materials calls for innovative integrated approaches that can assess their impacts across different areas. The Safe and Sustainable-by-Design (SSbD) framework, developed by the European Commission’s Joint Research Centre (JRC), offers a comprehensive approach with which to evaluate the safety and sustainability of chemicals and materials across their lifecycle. While SSbD uses various modeling approaches to assess impacts on human health, the environment, and socioeconomic factors, these are often applied independently, hindering a holistic understanding of the complex interactions between these factors and thus the simultaneous optimization of function, cost, safety and sustainability. This review describes existing predictive models and available strategies for their integration to facilitate more comprehensive and holistic chemical and material impact assessments. Specifically, we examine three model integration strategies: consensus integration that combines model predictions for the same impact categories, weighted aggregation that combines different scores in a unified one, and pipeline integration that links models sequentially to create a more unified assessment. Furthermore, we address key concepts related to the uncertainty of model predictions and the applicability domain of models, highlighting how these evolve in integrated frameworks. Insights into the applications of these integration strategies and challenges will allow a more accurate, coherent, and sustainable approach to chemical and material safety and sustainability assessments.

KW - impact assessment

KW - integrated impact assessment

KW - predictive models

KW - Safe and Sustainable by Design (SSbD)

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DO - 10.1021/acs.est.5c04489

M3 - Review article

C2 - 41603589

AN - SCOPUS:105029933484

SN - 0013-936X

VL - 60

SP - 3739

EP - 3766

JO - Environmental Science and Technology

JF - Environmental Science and Technology

IS - 5

ER -

Review on Predictive Models and Integration Strategies for Holistic Impact Assessment of Chemicals and Materials

Abstract

Bibliographical note

UN SDGs

Keywords

ASJC Scopus subject areas

Access to Document

Fingerprint

Projects

INSIGHT: Integrated Models for the Development and Assessment of High Impact Chemicals and Materials

Cite this