| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 6352065 | Environmental Research | 2015 | 17 Pages |
Abstract
The methodology followed in the present case study can be taken as a novel approach to classify and categorize pharmaceuticals on the basis of their occurrence in hospital effluents, their derived environmental risks, and their associated environmental hazard. This classification becomes important because it can be used as a model or orientation for hospitals in the process of developing environmentally sustainable policies and as an argument to justify the adoption of advanced, specific treatments for hospital effluents before being discharged into the public sewage system.
Keywords
n.d.CASPDEPDTPVISPEAEMPSABIEC50n.a.MRMAPINOECMECOECDEMEAPECBBLPNECMDLWWTPMQLICMAAFLipid regulatorECOSARDDDUS EPADIUMS/MSEmerging pollutantAntibioticUnited States Environmental Protection AgencyEuropean Medicines agencyEuropean UnionEnvironmental risk assessmentinternal standardSolid phase extractionβ-blockerQSARLIRnot detectedChemical Abstracts ServiceEnvironmental riskPharmaceuticalsNot availableDefined daily doseDiureticQuantitative structure-activity relationshipRetention timeWorld Health OrganizationOrganisation for Economic Co-operation and DevelopmentHazard quotientMass spectrometryTandem mass spectrometryAssessment factorERANo observed effect concentrationPredicted No Effect ConcentrationPredicted environmental concentrationmeasured environmental concentrationPhosphodiesterasePersistencemedian effective concentrationMethod Detection LimitActive Pharmaceutical IngredientIodinated contrast mediamultiple reaction monitoringToxic unitPETHospital effluentPolyethylene terephthalatehigh performance liquid chromatographyHPLCWHOPositive ionNegative ion
Related Topics
Life Sciences
Environmental Science
Health, Toxicology and Mutagenesis
Authors
A. Mendoza, J. Aceña, S. Pérez, M. López de Alda, D. Barceló, A. Gil, Y. Valcárcel,