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Explore the entry, disposal, and monitoring of pharmaceuticals in water bodies, with a focus on regulatory gaps, risks, and mitigation strategies. Learn about the environmental impact of human and veterinary pharmaceuticals and the importance of proper disposal practices.
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Pharmaceuticals in water – including legislative aspects Nicole Adler, Anette Küster, Bettina Rechenberg German Federal Environment Agency (UBA) Copenhagen 6th of December 2010
Overview • Pharmaceuticals in the environment • Entry of human/veterinary pharmaceuticals into water • Disposal of pharmaceuticals • ERA in authorisation procedures • Problem of “old” substances • “Gaps” in regulation • Ecopharmacovigilanz • Production and consumption of pharmaceuticals • Monitoring of pharmaceuticals • Conclusions
1. Pharmaceuticals in the environment – an arising problem? • 120 different pharmaceutical active substances and metabolites detected in surface waters • German rivers: single substances > 0.5 µg/l • German ground water: single substances > 0.5 µg/l • Leachate from waste dump:single substances > 100 µg/l • Environmental loads into surface waters: pharmaceuticals plant protection products Source: BLAC report 2003 Foto: Simone Lehmann
1. Pharmaceuticals in the environment – an arising problem? • EE2- hormone: effects < 1 ng/L fishes, measured environmental concentrations sometimes exceed this value • Fluoxetin – anti-depressant: delay of development in fishes and frogs in concentrations that were measured in sewage • Avermectins – parasiticides: inhibition of dung fauna organisms; highly toxic to invertebrates • Diclofenac - antiphlogistic: damages in kidneys in fishes after a long exposure =1 µg/L*, concentrations in sewage and STP effluents sometimes exceed this value *Schwaiger et al. 2004, Triebskorn et al. 2004
soil surface water 2. Entry of human pharmaceuticals into water Incorrect disposal waste/ sewage system production excretion sewage sludge groundwater drinkingwater
2. Entry of veterinary pharmaceuticals into water entry via incorporation of slurry/manure production directentry groundwater drinkingwater
2. Entry of pharmaceuticals into water What can be done for reduction by authorities? • productionsetting quality standards for sewage, monitoring • excretion after ingestion, injection or infusion • assessing potential environmental risk within • authorization procedure, risk mitigation measures, • risk triggered monitoring • disposal of unwanted or leftover pharmaceuticals • organizing safe disposal
3. Disposal of pharmaceuticals Incorrect disposal waste/ sewage system • Improper disposal of unwanted and unused medications represents a significant source of pharmaceutical discharges into the environment • Sewage system is a main route of entry of unwanted or leftover pharmaceuticals • Disposal on household waste landfills without leachate collection represents a locally significant source
3. Disposal of pharmaceuticals Incorrect disposal - Examples • UK (Bound and Voulvoulis 2005) • 63% of patients dispose pharmaceuticals via household waste • 11% of patients empty them into sink or toilet • 22% of patients return them to a pharmacy • Germany (START 2008 www.start-project.de) • 15.7% of patients dispose tablets via the toilet (1% always) • 43.7% of patients dispose liquid medicinal products via drain/toilet (10% always) • approximately 10-20% of unused HMPs enter household waste • Berlin: 100 t unused pharmaceuticals per year were collected in pharmacies (wiss. Institut AOK, 2006)
3. Disposal of pharmaceuticals Incorrect disposal - Regulation EC Directive 2004/27/EC – Article 127b requires: “Member States shall ensure that appropriate collection systems are in place for medicinal products that are unused or have expired.” Survey of the 27 EU member states and Norway in 2007 (Taylor and Poulmaire 2008, cited in Glassmeyer et al. 2009): 20 nations have established a pharmaceutical waste collection scheme 11 of which are pharmacy-based collection systems
4. ERA in authorisation procedures ERA regulated by Directives 2001/83/EC and 2001/82/EC (as amended in 2004) for human and veterinary pharmaceuticals within EU ERA carried out according to: • EU Human Guideline Phase I und II - 2006 • Veterinary Guideline VICH Phase I 2001 and Phase II 2005 and supporting document 2007
4. ERA in authorisation procedures • Assess potential risk for the environment on product level prospective risk assessment before marketing • Directives require mitigation measures in case of risk • for veterinary pharmaceuticalse.g. no access for treated animals to surface waters • if no practicable mitigation measures available – • refusal of marketing authorisation possible after risk-benefit analysis • for human pharmaceuticals e.g.disposal advices • availability of the medicine must not be reduced, environmental risks not included in risk/benefit analysis – • marketing authorisation cannot be denied
4. ERA in authorisation procedures Estimation of Exposure (Phase I) non-experimental calculation of predicted environmental concentration, identification of substances of concern Analysis of Fate (Phase II) experimental data on degradation, sorption and partitioning between octanol and water Analysis of Effects (Phase II) experimental data on effects on organisms in surface water, sediment,… (here only aquatic compartment)
4. ERA - Risk Characterisation Exposureassessment EffectAssessment PECPredicted Environmental Concentration PNECPredicted No Effect Concentration < 1No risk for environment granting of marketing authorisation Riskquotient (RQ): 1Risk for Environment granting of marketing authorisation with risk mitigation measurements or refusal of marketing authorisation (only possible vor VMPs) PEC PNEC ≥ 1?
4. ERA - Risk Characterisation Pharmaceuticals (HMPs) with identified Environmental Risk UBA results 2008-2009 Same situation for VMPs Assessment of the medicinal product
5. Problem of “old” substances Top 10 HMP - measured surface water concentrations in Germany 2001 BLAC-Report 2003 Not a single ERA available! Same situation for VMPs
5. Problem of “old” substances • UBA proposes • a program for substances that are already on the market • for years but have no environmental risk assessment: • Prioritization of substances of concern • Monographic system for „old“ HMPs and VMPs • Data Sharing (COM; EMA; EEA and Member States)
Example VMP - Toltrazuril 6. “Gaps” in regulation Coccidiostatic Infection of protozoa (Coccidiosis) Environmental Risk Assessment Broiler: PECgw = 1.33 µg/l (Focus) Toltrazuril-sulfone = Metabolite = organohalogen compound Risk for groundwater ! becauseofthepersistency (dt50 = 472d) andthemobilityofToltrazuril-sulfone
6. “Gaps” in regulation DIRECTIVE2006/118/EC on the protection of groundwater against pollution and deterioration Article 6 1. (a) all measures necessary to prevent inputs into groundwater of any hazardous substances… In identifying such substances, Member States shall in particular take account of hazardous substances belonging to the families or groups of pollutants referred to in points 1 to 6 of Annex VIII to Directive 2000/ 60/EC… DIRECTIVE 2000/60/EC establishing a framework for Community action in the field of water policy ANNEX VIII INDICATIVE LIST OF THE MAIN POLLUTANTS 1. Organohalogen compounds and substances which may form such compounds in the aquatic environment. 2. Organophosphorous compounds. 3. Organotin compounds…
6. “Gaps” in regulation “no input into groundwater” can be interpreted as input < 0.1 µg/l DIRECTIVE2006/118/EC on the protection of groundwater against pollution and deterioration ANNEX I GROUNDWATER QUALITY STANDARDS Pollutant Quality standards Nitrates 50 mg/l Active substances in pesticides, including their relevant 0.1 µg/l metabolites, degradation and reaction products (1) 0.5 µg/l (total) (2) (1) ‘Pesticides’ means plant protection products and biocidal products as defined in Article 2 of Directive 91/414/EEC and in Article 2 of Directive 98/8/EC, respectively. (2) ‘Total’ means the sum of all individual pesticides detected and quantified in the monitoring procedure, including their relevant metabolites, degradation and reaction products. Pharmaceuticals should be clearly mentioned
6. “Gaps” in regulation Example VMP - Toltrazuril • UBA proposal: • Monitoring of groundwater • New Environmental Risk Assessment after 5 years Decision of CVMP (EMEA): Authorization without special measures (CVMP used ADI for ground water risk assessment ) 0.1 µg/l limit from veterinary ERA guideline not applied
6. “Gaps” in regulation • Potential risk for human health through environmental pathway? • PHARMAS: detailed assessment of risks for ground and drinking water to be included in the ERA guidelines for HMPs and VMPs EU Project PHARMAS starts in January 2011 “Ecological and human health risk assessments of antibiotics and anticancer drugs found in the environment”
7. Ecopharmacovigilanz Definition Ecopharmacovigilance: Collection of unexpected side effects in environment after authorisation and monitoring of concentration in environment VMPs: implemented in the legislation but not used in practice HMPs: not implemented in the current legislation
7. Ecopharmacovigilanz ResultsofthePharmaceuticalPackage • Revision of EU Directive and Regulation for human pharmaceuticals • - Released by the Commission in November 2008 • Recital 2 a (new) • 2a) The pollution of waters and soils with pharmaceutical residues is an emerging environmental problem and an emerging public health concern. Measures should be taken to monitor and evaluate adverse environmental effects of medicinal products, including those which impact on public health. • The Commission should, based on data received from the Agency, the Environment Agency, and Member States, produce a report on the scale of the problem, along with an assessment on whether amendments to EU legislation on medicinal products or other relevant EU legislation are required. EU Commission has to collect and evaluate monitoring data and write a report on the results
8. Production and consumption of pharmaceuticals • Production data: • Unknown for HMPs and VMPs (production is not regulated) • Consumption data: • Data for HMP are comercially available (IMS) • Nearly no data for VMP are exisiting for Europe (IFAH EU) • German government will start programm in 2011 to collect data for the use of Antibiotics in animal production Entry of pharmaceuticals through production is not regulated
9. Monitoring of pharmaceuticals • Monitoring of surface waters: • Data from production, consumption and incorrect disposal: • Problem: • No standardized monitoring programs for pharmaceuticals in the EU Member States • Very few quality standards in WFD for pharmaceuticals • EU: Ibuprofen, Diclofenac, 17 alpha-Ethinylestradiol, 17 beta-Estradiol under discussion for list of priority substances • Germany: Carbamazepine, Diclofenac, Sulfamethoxazole under discussion for national quality standards
9. Monitoring of pharmaceuticals • UBA proposes: • Report of production data from industry • Report of detailed sales/consumption data • Monitoring of pharmaceuticals in surface waters – • setting quality standards for pharmaceuticals in WFD
10. Conclusions For the sustainable use of pharmaceuticalsauthorities should: • assess the potential environmental risk of existing (old) substances e.g. by Monographic systems, identify critical substances • find a harmonized approach for the assessment of hazardous pharmaceuticals entering ground and drinking water • establish systematic monitoring programs for pharmaceuticals and set quality standards for wastewater, surface water, drinking water, etc. • establish safe collection systems for unused pharmaceuticals • make “all” existent data available and evaluate it in order to • protect environmental and human health • development of a life-cycle-assessment for pharmaceuticals (production + consumption)
Any Questions? nicole.adler@uba.de