A One Health approach to antimicrobial resistance surveillance: is there a business case for it?

Antimicrobial resistance is a global problem of complex epidemiology, suited to a broad, integrated One Health approach. Resistant organisms exist in humans, animals, food and the environment, and the main driver of this resistance is antimicrobial usage. A One Health conceptual framework for surveillance is presented to include all of these aspects. Global and European (regional and national) surveillance systems are described, highlighting shortcomings compared with the framework. Policy decisions rely on economic and scientific evidence, so the business case for a fully integrated system is presented. The costs of integrated surveillance are offset by the costs of unchecked resistance and the benefits arising from interventions and outcomes. Current estimates focus on costs and benefits of human health outcomes. A One Health assessment includes wider societal costs of lost labour, changes in health-seeking behaviour, impacts on animal health and welfare, higher costs of animal-origin food production, and reduced consumer confidence in safety and international trade of such food. Benefits of surveillance may take years to realise and are dependent on effective and accepted interventions. Benefits, including the less tangible, such as improved synergies and efficiencies in service delivery and more timely and accurate risk identification, should also be recognised. By including these less tangible benefits to society, animal welfare, ecosystem health and resilience, together with the savings and efficiencies through shared resources and social capital-building, a stronger business case for a One Health approach to surveillance can be made.

[1]  G. Andersson,et al.  Influence of initial severity of depression on effectiveness of low intensity interventions: meta-analysis of individual patient data , 2013, BMJ : British Medical Journal.

[2]  D. Pfeiffer,et al.  The Economic Value of One Health in Relation to the Mitigation of Zoonotic Disease Risks , 2012, Current topics in microbiology and immunology.

[3]  Chantal Quinten,et al.  ECDC/EFSA/EMA second joint report on the integrated analysis of the consumption of antimicrobial agents and occurrence of antimicrobial resistance in bacteria from humans and food‐producing animals , 2017, EFSA journal. European Food Safety Authority.

[4]  J. Rushton,et al.  Antimicrobial Resistance: the use of antimicrobials in the Livestock Sector , 2014 .

[5]  D. Hayes,et al.  Impact of Denmark's ban on antimicrobials for growth promotion. , 2014, Current opinion in microbiology.

[6]  D. Livermore,et al.  Surveillance of antimicrobial resistance , 1998, BMJ.

[7]  D. Grace The business case for One Health. , 2014, The Onderstepoort journal of veterinary research.

[8]  J. Karlowsky,et al.  Optimal use of antibiotic resistance surveillance systems. , 2004, Clinical microbiology and infection : the official publication of the European Society of Clinical Microbiology and Infectious Diseases.

[9]  Rene S. Hendriksen,et al.  DANMAP 2016 - Use of antimicrobial agents and occurrence of antimicrobial resistance in bacteria from food animals, food and humans in Denmark , 2017 .

[10]  J. Rushton,et al.  Economic Assessment of Zoonoses Surveillance in a ‘One Health’ Context: A Conceptual Framework , 2016, Zoonoses and public health.

[11]  A. Mateus,et al.  Qualitative study of factors associated with antimicrobial usage in seven small animal veterinary practices in the UK. , 2014, Preventive veterinary medicine.

[12]  Richard Smith,et al.  The true cost of antimicrobial resistance , 2013, BMJ.

[13]  F. Baquero,et al.  Tackling antibiotic resistance: the environmental framework , 2015, Nature Reviews Microbiology.

[14]  G. Igrejas,et al.  Potential impact of antimicrobial resistance in wildlife, environment and human health , 2014, Front. Microbiol..

[15]  Laura J Shallcross,et al.  Antibiotic overuse: a key driver of antimicrobial resistance. , 2014, The British journal of general practice : the journal of the Royal College of General Practitioners.

[16]  Marius Gilbert,et al.  Global trends in antimicrobial use in food animals , 2015, Proceedings of the National Academy of Sciences.

[17]  J. Rushton,et al.  A review of the metrics for One Health benefits. , 2014, Revue scientifique et technique.

[18]  Ramanan Laxminarayan,et al.  A framework for global surveillance of antibiotic resistance. , 2011, Drug resistance updates : reviews and commentaries in antimicrobial and anticancer chemotherapy.

[19]  R. Kock Structural One Health – are we there yet? , 2015, Veterinary Record.

[20]  J. Prescott,et al.  Antimicrobial resistance in bacteria from animals and the environment. , 2014, Veterinary microbiology.

[21]  J. Rushton,et al.  Economic benefits or drivers of a 'One Health' approach: why should anyone invest? , 2012, The Onderstepoort journal of veterinary research.

[22]  J. Prescott The resistance tsunami, antimicrobial stewardship, and the golden age of microbiology. , 2014, Veterinary microbiology.

[23]  J. Bellasio,et al.  Estimating the economic costs of antimicrobial resistance , 2014 .

[24]  Michael J. Rybak,et al.  Efficacy of Triclosan as an Antimicrobial Hand Soap and Its Potential Impact on Antimicrobial Resistance: A Focused Review , 2015, Pharmacotherapy.

[25]  I. Okeke,et al.  Antimicrobial resistance in developing countries , 1998, BMJ.

[26]  Magdalena Plebanski,et al.  Plasmodium falciparum induces Foxp3hi CD4 T cells independent of surface PfEMP1 expression via small soluble parasite components , 2014, Front. Microbiol..

[27]  M. Tanner,et al.  From “one medicine” to “one health” and systemic approaches to health and well-being , 2011, Preventive veterinary medicine.

[28]  J. Rushton Anti-microbial Use in Animals: How to Assess the Trade-offs , 2015, Zoonoses and public health.

[29]  R. Singer,et al.  Antimicrobial Resistance: Challenges and Perspectives , 2013 .

[30]  A. Aryee,et al.  Antimicrobial stewardship - can we afford to do without it? , 2015, British journal of clinical pharmacology.