80% cut in antibiotics entering Thames is needed to avoid surge in superbugs

September 04, 2019

The amount of antibiotics entering the River Thames would need to be cut by as much as 80 per cent to avoid the development and spread of antibiotic-resistant 'superbugs', a new study has shown.

Scientists from the Centre for Ecology & Hydrology (CEH) modelled the effects of antibiotic prescriptions on the development of antibiotic-resistant bacteria in a river. It found that across three-quarters of the River Thames catchment, the antibiotics present, due to effluent discharge, were likely to be at levels high enough for antibiotic-resistant bacteria to develop.

The study comes after England's chief medical officer Professor Dame Sally Davies warned last week that bugs resistant to antibiotics could pose a more immediate risk to humanity than climate change, and may kill at least 10 million people a year across the world.

Dr Andrew Singer of the Centre for Ecology & Hydrology, who led the study, says: "Rivers are a 'reservoir' for antibiotic-resistant bacteria which can quickly spread to people via water, soil, air, food and animals. Our beaches offer a similar risk. It has been shown that surfers are four times more likely to carry drug-resistant bacteria than non-surfers."

How antibiotics get into our rivers

Up to 90% of prescribed antibiotics taken by people pass through the body and into the sewerage system, where about half end up in rivers when effluent is discharged.

Dr Singer explains: "The release of drugs and bugs into our rivers increases the likelihood of antibiotic-resistant genes being shared, either through mutation or 'bacterial sex'. This is the first step towards the development of superbugs as the drugs used to fight them will no longer work.

"Environmental pollution from drugs and bugs is a serious problem that we need to find solutions to."

The CEH-led research was based on prescription data from clinical commissioning groups for two classes of antibiotics - macrolides, such as erythromycin and azithromycin, and fluoroquinolones such as ciprofloxacin, levofloxacin and moxifloxacin.

Macrolides treat a range of respiratory and sexually transmitted infections such as pneumonia, whooping cough and chlamydia, while fluoroquinolones treat respiratory and urinary tract infections. These were chosen for the study because they biodegrade slowly while other antibiotics such as penicillin biodegrade before they get to the river.

Possible solutions

There are a number of different ways we could reduce the amount of antibiotics entering rivers, including:The Government and health officials recognise that reducing antibiotic prescribing is key to tackling antibiotic resistance, and there was a 6.1 per cent reduction in total antibiotic consumption in primary and secondary care in England between 2014 and 2018 (2).

However, antibiotics prescriptions per person in the UK per person is still higher than several European countries and double that of the Netherlands, where their controls on prescribing antibiotics and effective hygiene measures in the healthcare system have resulted in relatively low rates of antibiotic resistance. Thames Water recognises that antibiotic resistance in water is an emerging risk and that more work needs to be done on how best to manage it (3).

The study - Translating antibiotic prescribing into antibiotic resistance in the environment: a hazard characterisation case study - which also involved Royal Holloway, University of London, and received funding from UKRI, has been published in the journal PLOS ONE.
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NOTES TO EDITORS

Paper information


Andrew C. Singer, Qiuying Xu, Virginie D.J. Keller. 2019. Translating antibiotic prescribing into antibiotic resistance in the environment: a hazard characterisation case study. PLOS ONE. DOI: 10.1371/journal.pone.0221568

References

1. A 2018 paper led by Public Health England estimated up to 23 per cent of prescriptions in primary care were 'inappropriate' either because the drugs will have marginal or no effect on the infection or the prescribed course of treatment is longer than the recommended guidelines. Smieszek et al. 2018. Potential for reducing inappropriate antibiotic prescribing in English primary care. Journal of Antimicrobial Chemotherapy. DOI: 10.1093/jac/dkx500

2. PHE report, p31: https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/759975/ESPAUR_2018_report.pdf

3 BBC Video https://www.bbc.co.uk/news/av/uk-england-london-49435120/antibiotic-resistant-bacteria-found-in-river-thames

Contact information

For interviews and further information, please contact Simon Williams, Media Relations Officer at CEH, via simwil@ceh.ac.uk or 07920 295384.

Methodology

The study used NHS prescription data for the two classes of antibiotics, macrolides and fluoroquinolones, in the year 2015. The study focused on the clinical commissioning groups of Oxfordshire, Gloucestershire, Swindon and Wiltshire. The model estimated the concentration of antibiotics that would accumulate in the stretches of river found within the River Thames catchment (the river and its tributaries west of Teddington) as a result of the known NHS prescription data. These environmental concentrations were compared to model estimates of the minimum level of antibiotic that can drive antibiotic resistance. Stretches within the River Thames catchment where there was an elevated risk of driving antibiotic resistance were quantified for the purpose of hazard characterisation in order to know how much of the catchment supported antibiotic resistance development. By reducing prescribing of the study antibiotics and re-running the above methodology, we were able to determine the maximum level of antibiotic prescribing that would not support antibiotic resistance development

Funding

The study received funding from the UKRI-funded Cross Research Council AMR in the Real World Grant NE/N019687/1

About the Centre for Ecology & Hydrology

The Centre for Ecology & Hydrology (CEH) is the UK's centre for excellence in environmental science across air, land and water. CEH is a Natural Environment Research Council (NERC) research institute, part of UK Research and Innovation (UKRI). Our research extends from molecular biology to global climate modelling, and our fieldwork is carried out across the world, from the peatlands of Scotland to the semi-arid West African Sahel. For over 50 years, our experts have monitored and modelled environmental change, generating evidence-driven solutions to complex environmental challenges. We are home to over 350 environmental scientists, based across four sites in Edinburgh, Lancaster, Bangor and Wallingford.

http://www.ceh.ac.uk @CEHScienceNews

Centre for Ecology & Hydrology

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