News Release

Global trends in antimicrobial resistance of farm animals

Peer-Reviewed Publication

American Association for the Advancement of Science (AAAS)

From 2000 to 2018, the proportion of pathogens that infect farmyard chickens and pigs and that are also significantly resistant to antibiotics grew, a new study shows. In the study, which also reveals certain new and emerging hotspots of resistance around the world, the authors evaluated the development of drug-resistant pathogens in developing countries, where trends in antimicrobial resistance (AMR) are otherwise poorly documented. The vast majority of antimicrobials is used to maintain the health and productivity of animals raised for food, particularly in developing low- and middle-income countries seeking to satiate their growing appetite for diets high in animal protein. However, while large-scale antimicrobial use has enabled intensive animal production, it has also led to an increase in the appearance of antimicrobial-resistant infectious diseases in animals, which do occasionally make the jump to humans. "Through misuse and overuse of antimicrobials, AMR has become an urgent global priority which necessitates international collaboration," writes Catrin Moore in a related Perspective. Thomas Van Boeckel and colleagues analyzed 901 point-prevalence surveys of pathogens in developing countries to map the occurrence of drug-resistant strains in populations of common indicator pathogens, such as E. coli and Salmonella. Van Boeckel et al. discovered a clear increase in the proportion of resistant pathogen strains in both chickens and pigs. Furthermore, the authors identified geographic "hotspots" of antimicrobial resistance; according to the results, China and India - home to more than half of the world's pigs and chickens - were the largest hotspots. Newly emerging hotspots in Brazil and Kenya were also noted. "Regions affected by the highest levels of AMR should take immediate actions to preserve the efficacy of antimicrobials that are essential in human medicine, by restricting their use in animal production," the authors say.


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