Article | REF: PHA3030 V1

Anticancer drugs: potantial risks in the environment

Authors: Jordan SEIRA, Claire JOANNIS-CASSAN, Claire ALBASI

Publication date: March 10, 2014

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ABSTRACT

Pollution of the aquatic environment by anticancer drugs has been established and is a high potential risk for the environment and humans. This article describes the life cycle of anticancer drugs from their consumption by patients until their discharge into the aquatic environment, and the potential risks associated with their presence in the environment. Moreover, ways of reducing their environmental impact are proposed.

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AUTHORS

  • Jordan SEIRA: Doctorate in Process Engineering - Water Science and Technology Engineer - University of Toulouse, INP-ENSIACET, Chemical Engineering Laboratory

  • Claire JOANNIS-CASSAN: Doctorate in Process Engineering - Senior Lecturer - University of Toulouse, INP-ENSIACET, Chemical Engineering Laboratory

  • Claire ALBASI: Doctorate in Process Engineering - CNRS Research Director - University of Toulouse, INP-ENSIACET, Chemical Engineering Laboratory

 INTRODUCTION

The pollution of the aquatic environment by micropollutants (whose concentration varies from a few nanograms to a few micrograms per liter) such as drug residues is now a well-established reality. Their presence has been reported almost systematically in surface waters, and more occasionally in drinking water [RE 141] . Excreted by patients in hospital or at home, these pharmaceutical products end up in wastewater and pass through treatment plants that are not designed to eliminate them effectively. Among these pollutants, anti-cancer products are the focus of recent interest. Indeed, even if their impact at concentrations found in the environment is still difficult to quantify, their presence is a cause for concern, as most of these molecules are considered Carcinogenic, Mutagenic and toxic for Reproduction (CMR), and are also very persistent. In view of medical progress and the increasingly early detection of cancers, an increase in their use over the coming decades is to be expected, and consequently in their release into the environment. It is therefore essential to limit their release into the aquatic environment, and in so doing, play our part in reclaiming the natural environment.

With this in mind, this article describes the life cycle of anticancer products, from their use by patients to their release into the water environment, as well as the potential risks associated with their presence in the environment, and suggests ways of reducing the impact of these micropollutants. Figures are presented for four anticancer molecules in particular: cyclophosphamide, ifosfamide, 5-fluorouracil and tamoxifen.

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Cancer drugs: potential impact on the environment