Neuroactive drugs and other pharmaceuticals found in blood plasma of wild European fish

[Display omitted] •Concentration of 94 pharmaceuticals investigated in fish plasma at 9 locations in EU.•“Read-Across Hypothesis” used to assess the risk of pharmacological effects in fish.•Risperidone and flupentixol in fish plasma > human therapeutic plasma concentrations.•No target pharmaceuti...

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Veröffentlicht in:Environment international 2021-01, Vol.146, p.106188, Article 106188
Hauptverfasser: Cerveny, Daniel, Grabic, Roman, Grabicová, Kateřina, Randák, Tomáš, Larsson, D.G. Joakim, Johnson, Andrew C., Jürgens, Monika D., Tysklind, Mats, Lindberg, Richard H., Fick, Jerker
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Sprache:eng
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Zusammenfassung:[Display omitted] •Concentration of 94 pharmaceuticals investigated in fish plasma at 9 locations in EU.•“Read-Across Hypothesis” used to assess the risk of pharmacological effects in fish.•Risperidone and flupentixol in fish plasma > human therapeutic plasma concentrations.•No target pharmaceuticals were found in fish plasma at 7 of 9 investigated sites. To gain a better understanding of which pharmaceuticals could pose a risk to fish, 94 pharmaceuticals representing 23 classes were analyzed in blood plasma from wild bream, chub, and roach captured at 18 sites in Germany, the Czech Republic and the UK, respectively. Based on read across from humans, we evaluated the risks of pharmacological effects occurring in the fish for each measured pharmaceutical. Twenty-three compounds were found in fish plasma, with the highest levels measured in chub from the Czech Republic. None of the German bream had detectable levels of pharmaceuticals, whereas roach from the Thames had mostly low concentrations. For two pharmaceuticals, four individual Czech fish had plasma concentrations higher than the concentrations reached in the blood of human patients taking the corresponding medication. For nine additional compounds, determined concentrations exceeded 10% of the corresponding human therapeutic plasma concentration in 12 fish. The majority of the pharmaceuticals where a clear risk for pharmacological effects was identified targets the central nervous system. These include e.g. flupentixol, haloperidol, and risperidone, all of which have the potential to affect fish behavior. In addition to identifying pharmaceuticals of environmental concern, the results emphasize the value of environmental monitoring of internal drug levels in aquatic wildlife, as well as the need for more research to establish concentration-response relationships.
ISSN:0160-4120
1873-6750
1873-6750
DOI:10.1016/j.envint.2020.106188