The Global Health Security Agenda programme develops national capacity to prevent zoonotic and non-zoonotic diseases while quickly and effectively detecting and controlling diseases when they do emerge. The Emerging Pandemic Threats programme improves national capacity to pre-empt the emergence and ...re-emergence of infectious zoonotic disease and to prevent the next pandemic.
Action against emerging pandemic threats is taken through projects on: Avian influenza, Middle East respiratory syndrome, Africa Sustainable Livestock 2050 and Emergency equipment stockpile. With high-impact diseases that jump from animals to humans on the rise, these programmes are reducing the risk to lives and livelihoods from national, regional and global disease spread.
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These guidelines present evidence-based recommendations and best practice statements on use of medically important antimicrobials in food-producing animals, based on the WHO list of critically important antimicrobials for human medicine (WHO CIA List). These guidelines aim primarily to help preserve... the effectiveness of medically important antimicrobials, particularly those antimicrobials judged to be critically important to human medicine and also help preserve the effectiveness of antimicrobials for veterinary medicine, in direct support of the WHO global action plan on antimicrobial resistance
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Lancet Planet Health 2017 Published Online November 6, 2017 http://dx.doi.org/10.1016/S2542-5196(17)30141-9
Antimicrobials play a critical role in treatment of terrestrial and aquatic food producing animals and plants, helping to assure food safety and quality, animal health and welfare and farmer livelihoods.
When an infection strikes, and medicines like antibiotics (and other antimicrobials) do not work, you can lose your entire stock of animals to disease. This also puts the health of you and your family at risk when the infection can spread between animals and people. Save lives and livelihoods by fol...lowing the advice below starting today!
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This document provides additional guidance for the responsible and prudent use of antimicrobials in food-producing animals, and should be read in conjunction with the Recommended International Code of Practice for Control of the Use of Veterinary Drugs CAC/RCP 38-1993. Its objectives are to minimize... the potential adverse impact on public health resulting from the use of antimicrobial agents in food-producing animals, in particular the development of antimicrobial resistance.
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Antimicrobials are widely used in food animal production, and use is rapidly increasing.
In an era of growing demand for animal products, there is an increasing trend towards the industrial production of food animals, especially in lower- and middle-income countries (LMICs). One hallmark of this me...thod of animal production is the
use of antimicrobial drugs, which in the majority of cases are administered to healthy animals for purposes other than
treating or controlling disease (termed “therapeutic uses”)
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This guideline provides advice in regards to applications for Marketing Authorisations for antimicrobial veterinary medicinal products (VMPs) on the data required and the methodology to be used for performing an assessment of the risk to public health from antimicrobial resistance (AMR) due to use o...f the product. The scope of the guidance extends to VMPs intended for food producing species and to the transmission of AMR by the foodborne route or through direct contact with treated animals.
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The second ECDC/EFSA/EMA joint report on the integrated analysis of antimicrobial consumption (AMC) and antimicrobial resistance (AMR) in bacteria from humans and food-producing animals addressed data obtained by the Agencies’ EU-wide surveillance networks for 2013–2015. AMC in both sectors, exp...ressed in mg/kg of estimated biomass, were compared at country and European level. Substantial variations between countries were observed in both sectors. Estimated data on AMC for pigs and poultry were used for the first time. Univariate and multivariate analyses were applied to study associations between AMC and AMR. In 2014, the average AMC was higher in animals (152 mg/kg) than in humans (124 mg/kg), but the opposite applied to the median AMC (67 and 118 mg/kg, respectively). In 18 of 28 countries, AMC was lower in animals than in humans. Univariate analysis showed statistically-significant (p < 0.05) associations between AMC and AMR for fluoroquinolones and Escherichia coli in both sectors, for 3rd- and 4th-generation cephalosporins and E. coli in humans, and tetracyclines and polymyxins and E. coli in animals. In humans, there was a statistically-significant association between AMC and AMR for carbapenems and polymyxins in Klebsiella pneumoniae. Consumption of macrolides in animals was significantly associated with macrolide resistance in Campylobacter coli in animals and humans. Multivariate analyses provided a unique approach to assess the contributions of AMC in humans and animals and AMR in bacteria from animals to AMR in bacteria from humans. Multivariate analyses demonstrated that 3rd- and 4th-generation cephalosporin and fluoroquinolone resistance in E. coli from humans was associated with corresponding AMC in humans, whereas resistance to fluoroquinolones in Salmonella spp. and Campylobacter spp. from humans was related to consumption of fluoroquinolones in animals. These results suggest that from a ‘One-health’ perspective, there is potential in both sectors to further develop prudent use of antimicrobials and thereby reduce AMR.
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MICROBIAL DRUG RESISTANCEVolume 24, Number 5, 2018ªMary Ann Liebert, Inc.DOI: 10.1089/mdr.2017.0383
Antibiotic resistance (ABR) is a worldwide publichealth concern, with serious health, economic, and so-cietal repercussions. Its emergence is attributed to the se-lective pressure exerted by antib...iotic use in the community, hospitals, veterinary health, agriculture, aquaculture, and the environment. Additionally aggravating the situation is the fact that very few new antibiotics have recently been produced by pharmaceutical companies. It is widely acknowledged that food animals are key reservoirs of antibiotic-resistant bacteria and that antibiotic usage in this population favors the emergence, selection, and spread of resistance among animals and humans, both through zoonoses (infectious diseases trans-mitted between animals and humans) and the food chain.
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This document provides additional guidance for the responsible and prudent use of antimicrobials in food-producing animals, and should be read in conjunction with the Recommended International Code of Practice for Control of the Use of Veterinary Drugs CAC/RCP 38-1993. Its obj...ectives are to minimize the potential adverse impact on public health resulting from the use of antimicrobial agents in food-producing animals, in particular the development of antimicrobial resistance. It is also important to provide for the safe and effective use of veterinary antimicrobial drugs in veterinary medicine by maintaining their efficacy. This document defines the respective responsibilities of authorities and groups involved in the authorization, production, control, distribution and use of veterinary antimicrobials such as the national regulatory authorities, the veterinary pharmaceutical industry, veterinarians, distributors and producers of food-producing animals.
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Since the introduction of penicillin in the early twentieth century, antimicrobial treatments have been utilized not only in human medicine but also in veterinary care – initially to ward off diseases, prevent post-surgery infections, and treat sick farm animals.Global food production... has intensified over the past 50 years due to economic expansion and popu-lation growth. The use of antimicrobials in agriculture – in livestock, fish farming, and even on crops – has grown as well. Antimicrobials are not only used as medicines, but are sometimes also added in low concentrations to animal feed as a way of stimulating growth.
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The animal health subsector within the agriculture sector is the gatekeeper of antimicrobial resistance (AMR) in livestock, aquaculture, animal products, and the immediate animal environment. In support of member countries taking responsibility for and moving forward with putting AMR monitoring and ...surveillance in place for the animal sector, the Food and Agriculture Organization of the United Nations Regional Office for Asia and the Pacific (FAO-RAP) developed a regional AMR surveillance framework, each pillar of which is complemented by a guideline to reinforce its progressive implementation. The first of this series, Volume 1: Monitoring and surveillance of antimicrobial resistance in bacteria from healthy food animals intended for consumption, is centered on healthy animals reaching consumers and on the protection of public health.
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In 1998 the Swedish Veterinary Association decided to adopt a general policy for the use of antibiotics in animals. Since then specifi c policies for the use of antibiotics in dogs and cats have been adopted and in 2011 Guidelines for the use of Antibiotics in Production animals – Cattle and Pigs,... were accepted. By decision of the board of the Swedish Veterinary Society (SVS) these guidelines have been updated. Th e over-arching goal of SVS is to achieve a low and controlled use of antibiotics in Swedish animal production so that the fi rst-hand choices of treatment remain effi cient and that the spread of antimicrobial resistance – among animals and herds as well as in the food chain – is kept at a minimum. Keeping antimicrobial resistance in animals low is important also for human health, since we are all part of the same ecosystem. Th e authors of these guidelines hope that they may be useful for veteri-narians in clinical practice when deciding on treatments for common diseases and ailments caused by bacteria. Sometimes the decision may even be to refrain from use of antibiotics and chose other ways of improving herd health.
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The ECDC, the EFSA and the EMA have for the first time jointly explored associations between consumption of antimicrobials in humans and food-producing animals, and antimicrobial resistance in bacteria from humans and food-producing animals, using 2011 and 2012 data currently available from their re...levant five EU monitoring networks. Combined data on antimicrobial consumption and corresponding resistance in animals and humans for EU MSs and reporting countries were analysed using logistic regression models for selected combinations of bacteria and antimicrobials. A summary indicator of the proportion of resistant bacteria in the main food-producing animal species was calculated for the analysis, as consumption data in food-producing animals were not available at the species level
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In May 2015, the Sixty-eighth World Health Assembly recognized the importance of the public health problem posed by antimicrobial resistance by adopting the global action plan on antimicrobial resistance (“global action plan”). The global action plan proposes interve...ntions to control antimicrobial resistance, including reducing the unnecessary use of antimicrobials in humans and in animals. The global action plan also emphasizes the need to take a cross-sectoral, “One Health” approach for controlling antimicrobial resistance, involving efforts by actors from many disciplines including human and veterinary medicine.
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Overuse and misuse of antibiotics in animals and humans is contributing to the rising threat of antibiotic resistance. Some types of bacteria that cause serious infections in humans have already developed resistance to most or all of the available treatments, and there are very... few promising options in the research pipeline
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Presently, there is no evidence that the virus responsible for the current COVID-19 pandemic is carried by domestic food-producing animals, such as chickens, ducks, other poultry, pigs, cattle, camels, horses, sheep, goats, rabbits, guinea pigs or fish. While live animals can be a source of pathogen...s, all types of food can potentially be contaminated through contact with contaminated equipment, surfaces or environments. Proper cleaning and the prevention of cross-contamination are critical in the control of foodborne illnesses. The application of sound principles of environmental sanitation, personal hygiene and established food safety practices will reduce the likelihood that harmful pathogens will threaten the safety of the food supply, regardless of whether the food is sourced from intensive agriculture, small stakeholders or wildlife.
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This report provides an overview of the main findings of the 2019–2020 harmonised AMR monitoring in the main food-producing animal populations monitored, in carcase/meat samples and in humans. Where available, monitoring data obtained from pigs, calves, broilers, laying hens and turkeys, as well a...s from carcase/meat samples and humans were combined and compared at the EU level, with particular emphasis on multidrug resistance, complete susceptibility and combined resistance patterns to critically important antimicrobials, as well as Salmonella and E. coli isolates possessing ESBL-/AmpC-/carbapenemase phenotypes.
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The Quadripartite Organizations – the Food and Agriculture Organization of the United Nations (FAO), the United Nations Environment Programme (UNEP), the World Organisation for Animal Health (WOAH, founded as OIE), and the World Health Organization (WHO) – collaborate to drive the change and tra...nsformation required to mitigate the impact of current and future health challenges at the human–animal– plant–environment interface at global, regional and country level.
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