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Brochure, flyer, fact-sheetFAO initiatives on prevention and control of antimicrobial resistance
Addressing antimicrobial usage in Asia’s livestock production industry
2018Also available in:
No results found.This brochure describes a FAO-USAID project with outcomes expected to include regular information and early warning from countries in the region against potential, known and emerging threats; reduced risk and vulnerability at household and community level; and, countries and regions affected by the abuse (AMU) and subsequent prevalence of antimicrobial resistance (AMR), prepare for and manage effective responses. -
Brochure, flyer, fact-sheetAntimicrobial resistance in food and agriculture 2017
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No results found.Antimicrobial Resistance (AMR) occurs when micro-organisms – bacteria, fungi, viruses, and parasites – evolve resistance to antimicrobial substances, like antibiotics, antifungals and others. This occurs naturally through adaptation to the environment or through selective pressure when microorganisms come into contact with antimicrobials. The process is accelerated when there is inappropriate or excessive use of antimicrobials. As a result, medicines that were once effective treatments for disea se in people and animals become less effective or not effective at all, leading to a reduced ability to successfully treat infections. This in turn leads to more severe or prolonged illnesses, increased mortality, production losses in agriculture and reduced livelihoods and food security. -
MeetingAntimicrobial use in aquaculture and antimicrobial resistance. Report of a Joint FAO/OIE/WHO Expert Consultation on Antimicrobial Use in Aquaculture and Antimicrobial Resistance
Seoul, Republic of Korea, 13-16 June 2006
2006Also available in:
No results found.The public health hazards related to antimicrobial use in aquaculture include the development and spread of antimicrobial resistant bacteria and resistance genes, and the occurrence of antimicrobial residues in products of aquaculture. The greatest potential risk to public health associated with antimicrobial use in aquaculture is thought to be the development of a reservoir of transferable resistance genes in bacteria in aquatic environments from which such genes can be disseminated by horizont al gene transfer to other bacteria and ultimately reach human pathogens. However, a quantitative risk assessment on antimicrobial resistance in aquaculture is difficult to perform owing to lack of data and the many different and complex pathways of gene flow.
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