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Characterization and toxicity of hospital wastewaters in Turkey.

Characterization and toxicity of hospital wastewaters in Turkey.
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Yilmaz G, Kaya Y, Vergili I, Beril Gönder Z, Özhan G, Ozbek Celik B, Altinkum SM, Bagdatli Y, Boergers A, Tuerk J,


Yilmaz G, Kaya Y, Vergili I, Beril Gönder Z, Özhan G, Ozbek Celik B, Altinkum SM, Bagdatli Y, Boergers A, Tuerk J, (click to view)

Yilmaz G, Kaya Y, Vergili I, Beril Gönder Z, Özhan G, Ozbek Celik B, Altinkum SM, Bagdatli Y, Boergers A, Tuerk J,

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Environmental monitoring and assessment 2017 01 12189(2) 55 doi 10.1007/s10661-016-5732-2
Abstract

The aim of the study was to present first preliminary characterization of Turkish hospital wastewaters, their environmental risk, and a method for toxicity assessment. The hospital wastewater samples were collected from two of the largest medical faculty hospitals and a training and research hospital in Istanbul, Turkey. The samples from the selected hospitals were taken as grab samples on March 2014. Overall, 55 substances including pharmaceuticals and their metabolites, pesticides, and corrosion inhibitors were analyzed in all hospital wastewaters. Analysis of toxicity and the antibiotic resistance bacteria were investigated in addition to the chemical analysis in the wastewater of one hospital. Hazard quotients (HQs) and toxic units (TUs) were calculated as basis of the environmental risk assessment. Fourteen pharmaceuticals in hospital wastewater (HWW) were classified as "high risk" with HQ > 10. HQHWW values higher than 100 were determined for five antibiotics and one analgesic, namely, ofloxacin, clarithromycin, ciprofloxacin, sulfapyridine, trimethoprim, and diclofenac. Ofloxacin with an HQHWW of 9090 was observed to be the most hazardous compound. HQ and TU values of the wastewater treatment plant (WWTP) effluent dropped significantly due to dilution in the sewer. Further elimination by biological degradation or adsorption was observed only in some cases. However, the decreased HQWWTPeffluent values do not the change environmental load significantly. Therefore, advanced treatment processes should be applied to remove the persistent compounds. In combination with the results on antibiotic resistance, we would prefer on-site treatment of hospital wastewater. Toxicological assessment was performed using cytotoxic and mutagenic screening tests. The results of the Ames assay showed that the native hospital wastewaters had strongly mutagenic activity with a ≤10-fold increase relative to negative controls. The mutagenic potentials of the samples were generally concentration and metabolic activation dependent. Multiple antibiotic resistances were demonstrated with the tested isolates to ciprofloxacin, trimethoprim, and ceftazidime. This study demonstrates that the hospital wastewaters in Istanbul exhibit strong environmental and toxicological risks, as well as high multiple drug resistance to commonly used antibiotics.

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