Heloise Martins de Souza, Regina Fonsêca de Almeida, Amanda Pontes Lopes, Rachel Ann Hauser-Davis
Comparative biochemistry and physiology. Toxicology & pharmacology : CBP 2024 AprEcotoxicological assessments encompass a broad spectrum of biochemical endpoints and ecological factors, allowing for comprehensive assessments concerning pollutant exposure levels and their effects on both fish populations and surrounding ecosystems. While these evaluations offer invaluable insights into the overall health and dynamics of aquatic environments, they often provide an integrated perspective, making it challenging to pinpoint the precise sources and individual-level responses to environmental contaminants. In contrast, biliary pollutant excretion assessments represent a focused approach aimed at understanding how fish at the individual level respond to environmental stressors. In this sense, the analysis of pollutant profiles in fish bile not only serves as a valuable exposure indicator, but also provides critical information concerning the uptake, metabolism, and elimination of specific contaminants. Therefore, by investigating unique and dynamic fish responses to various pollutants, biliary assessments can contribute significantly to the refinement of ecotoxicological studies. This review aims to discuss the multifaceted utility of bile as a potent biomarker for various environmental pollutants in fish in targeted monitoring strategies, such as polycyclic aromatic hydrocarbons, metals, pesticides, pharmaceuticals, estrogenic compounds, resin acids, hepatotoxins and per- and polyfluorinated substances. The main caveats of this type of assessment are also discussed, as well as future directions of fish bile studies. Copyright © 2024 Elsevier Inc. All rights reserved.
Heloise Martins de Souza, Regina Fonsêca de Almeida, Amanda Pontes Lopes, Rachel Ann Hauser-Davis. Review: Fish bile, a highly versatile biomarker for different environmental pollutants. Comparative biochemistry and physiology. Toxicology & pharmacology : CBP. 2024 Apr;278:109845
PMID: 38280442
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