Antimicrobial Resistance Now a Leading Cause of Death Worldwide, Study Finds
An anonymous reader quotes a report from The Guardian: Antimicrobial resistance poses a significant threat to humanity, health leaders have warned, as a study reveals it has become a leading cause of death worldwide and is killing about 3,500 people every day. More than 1.2 million -- and potentially millions more -- died in 2019 as a direct result of antibiotic-resistant bacterial infections, according to the most comprehensive estimate to date of the global impact of antimicrobial resistance (AMR). The stark analysis covering more than 200 countries and territories was published in the Lancet. It says AMR is killing more people than HIV/Aids or malaria. Many hundreds of thousands of deaths are occurring due to common, previously treatable infections, the study says, because bacteria that cause them have become resistant to treatment. The new Global Research on Antimicrobial Resistance (Gram) report estimates deaths linked to 23 pathogens and 88 pathogen-drug combinations across 204 countries and territories in 2019. Statistical modeling was used to produce estimates of the impact of AMR in all locations -- including those with no data -- using more than 470m individual records obtained from systematic literature reviews, hospital systems, surveillance systems, and other data sources. The analysis shows AMR was directly responsible for an estimated 1.27 million deaths worldwide, and associated with an estimated 4.95 million deaths, in 2019. HIV/Aids and malaria have been estimated to have caused 860,000 and 640,000 deaths, respectively, in 2019. While AMR poses a threat to people of all ages, young children were found to be at particularly high risk, with one in five deaths attributable to AMR occurring in children under the age of five. Some of the actions policymakers can take, as mentioned in the report, include "optimizing the use of existing antibiotics, taking greater action to monitor and control infections, and providing more funding to develop new antibiotics and treatments."
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