Comparative aquatic toxicity of propranolol and its photodegraded mixtures: Algae and rotifer screening

Comparative aquatic toxicity of propranolol and its photodegraded mixtures: Algae and rotifer screening

Transformation products of pharmaceuticals formed by human metabolism within sewage treatment plant or receiving waters are predicted, in most cases, to be less toxic than the parent compound to common aquatic species. However, there is little available data to demonstrate whether this is generally...

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Bibliographic Details
Published in:Environmental toxicology and chemistry Vol. 28; no. 12; pp. 2622 - 2631
Main Authors: Liu, Qin-Tao, Williams, Tim D., Cumming, Rob I., Holm, Gisela, Hetheridge, Malcolm J., Murray-Smith, Richard
Format: Journal Article
Language:English
Published: Hoboken Wiley Periodicals, Inc 01-12-2009
Blackwell Publishing Ltd
Subjects:
Algae
Animals
Aquatic ecology
Chemical analysis
Ecotoxicity
Environmental assessment
Environmental depletion
Environmental impact
Environmental risk
Eukaryota - drug effects
Female
Mixtures
Pharmaceuticals
Photolysis
Propranolol - chemistry
Propranolol - toxicity
Receiving waters
Risk assessment
Rivers
Rotifera - drug effects
Sewage treatment
Sewage treatment plants
Solar simulators
Surface water
Toxicity
Transformation products
Wastewater treatment plants
Water Pollutants, Chemical - toxicity
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Summary:Transformation products of pharmaceuticals formed by human metabolism within sewage treatment plant or receiving waters are predicted, in most cases, to be less toxic than the parent compound to common aquatic species. However, there is little available data to demonstrate whether this is generally the case. In the present study, a framework was developed to guide testing of transformation products using phototransformation of the β‐blocker propranolol to test the hypothesis for this particular transformation route. Phototransformation is an important depletion mechanism of some pharmaceuticals in surface waters with fast reaction rate constants at environmentally relevant conditions. Samples of propranolol in deionized water (DIW) and river water (RW) were exposed to a solar simulator (λ: 295–800 nm) and comparative toxicity of propranolol and its degraded mixtures measured using algal (Pseudokirchneriella subcapitata) and rotifer (Brachionus calyciflorus) screening tests. Results suggested a reduction of toxicity in photodegraded mixtures compared to the parent active pharmaceutical ingredient in all samples tested. Chemical analysis of effect test solutions supported the hypothesis that propranolol was transformed into compounds that appear to be less toxic to the organisms tested under the study conditions. Although the reactions were much faster in RW than in DIW, profiles of transformation products were similar in both matrices at two starting concentrations (1 and 10 mg/L). Results for propranolol implied that the reduction of toxicity using algal and rotifer screening tests was probably due to the production of more hydrophilic and more polar transformation products. Such results will provide useful insights into the environmental risk assessment of pharmaceuticals by taking into account their transformation products.
Bibliography:ArticleID:ETC5620281217
Published on the Web 7/29/2009.
istex:441B696B6FC3315D58695169B5F8A38BD892CBDF
Supplementary Materials
ark:/67375/WNG-P85MR4X0-R
ISSN:0730-7268
1552-8618
DOI:10.1897/09-071.1