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Literature DB >> 27939949

From the exposome to mechanistic understanding of chemical-induced adverse effects.

Beate I Escher¹, Jörg Hackermüller², Tobias Polte², Stefan Scholz², Achim Aigner³, Rolf Altenburger², Alexander Böhme², Stephanie K Bopp⁴, Werner Brack², Wibke Busch², Marc Chadeau-Hyam⁵, Adrian Covaci⁶, Adolf Eisenträger⁷, James J Galligan⁸, Natalia Garcia-Reyero⁹, Thomas Hartung¹⁰, Michaela Hein², Gunda Herberth², Annika Jahnke², Jos Kleinjans¹¹, Nils Klüver², Martin Krauss², Marja Lamoree¹², Irina Lehmann², Till Luckenbach², Gary W Miller¹³, Andrea Müller², David H Phillips¹⁴, Thorsten Reemtsma², Ulrike Rolle-Kampczyk², Gerrit Schüürmann¹⁵, Benno Schwikowski¹⁶, Yu-Mei Tan¹⁷, Saskia Trump², Susanne Walter-Rohde⁷, John F Wambaugh¹⁸.

Abstract

The exposome encompasses an individual's exposure to exogenous chemicals, as well as endogenous chemicals that are produced or altered in response to external stressors. While the exposome concept has been established for human health, its principles can be extended to include broader ecological issues. The assessment of exposure is tightly interlinked with hazard assessment. Here, we explore if mechanistic understanding of the causal links between exposure and adverse effects on human health and the environment can be improved by integrating the exposome approach with the adverse outcome pathway (AOP) concept that structures and organizes the sequence of biological events from an initial molecular interaction of a chemical with a biological target to an adverse outcome. Complementing exposome research with the AOP concept may facilitate a mechanistic understanding of stress-induced adverse effects, examine the relative contributions from various components of the exposome, determine the primary risk drivers in complex mixtures, and promote an integrative assessment of chemical risks for both human and environmental health.

Entities: Species

Keywords: AOP; Exposome; Risk assessment; Systems biology; Systems chemistry; Systems toxicology

Mesh：

Substances：
Environmental Pollutants

Year: 2016 PMID： 27939949 PMCID： PMC6116522 DOI： 10.1016/j.envint.2016.11.029

Source DB: PubMed Journal: Environ Int ISSN： 0160-4120 Impact factor: 9.621

90 in total

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