Global burden of bacterial antimicrobial resistance in 2019: a systematic analysis

Murray, Christopher J.L.; Ikuta, Kevin Shunji; Sharara, Fablina; Swetschinski, Lucien; Robles Aguilar, Gisela; Gray, Authia; Han, Chieh; Bisignano, Catherine; Rao, Puja; Wool, Eve; Johnson, Sarah C.; Browne, Annie J.; Chipeta, Michael Give; Fell, Frederick; Hackett, Sean; Haines-Woodhouse, Georgina; Kashef Hamadani, Bahar H.; Kumaran, Emmanuelle A.P.; McManigal, Barney; Agarwal, Ramesh; Akech, Samuel; Albertson, Samuel; Amuasi, John; Andrews, Jason; Aravkin, Aleskandr; Ashley, Elizabeth; Bailey, Freddie; Baker, Stephen; Basnyat, Buddha; Bekker, Adrie; Bender, Rose; Bethou, Adhisivam; Bielicki, Julia; Boonkasidecha, Suppawat; Bukosia, James; Carvalheiro, Cristina; Castañeda-Orjuela, Carlos; Chansamouth, Vilada; Chaurasia, Suman; Chiurchiù, Sara; Chowdhury, Fazle; Cook, Aislinn J.; Cooper, Ben; Cressey, Tim R.; Criollo-Mora, Elia; Cunningham, Matthew; Darboe, Saffiatou; Day, Nicholas P.J.; de Luca, Maia; Dokova, Klara; Dramowski, Angela; Dunachie, Susanna J.; Eckmanns, Tim; Eibach, Daniel; Emami, Amir; Feasey, Nicholas; Fisher-Pearson, Natasha; Forrest, Karen; Garrett, Denise; Gastmeier, Petra; Giref, Ababi Zergaw; Greer, Rachel Claire; Gupta, Vikas; Haller, Sebastian; Haselbeck, Andrea; Hay, Simon I.; Holm, Marianne; Hopkins, Susan; Iregbu, Kenneth C.; Jacobs, Jan; Jarovsky, Daniel; Javanmardi, Fatemeh; Khorana, Meera; Kissoon, Niranjan; Kobeissi, Elsa; Kostyanev, Tomislav; Krapp, Fiorella; Krumkamp, Ralf; Kumar, Ajay; Kyu, Hmwe-Hmwe; Lim, Cherry; Limmathurotsakul, Direk; Loftus, Michael James; Lunn, Miles; Ma, Jianing; Mturi, Neema; Munera-Huertas, Tatiana; Musicha, Patrick; Mussi-Pinhata, Marisa Marcia; Nakamura, Tomoka; Nanavati, Ruchi; Nangia, Sushma; Newton, Paul; Ngoun, Chanpheaktra; Novotney, Amanda; Nwakanma, Davis; Obiero, Christina W.; Olivas-Martinez, Antonio; Olliaro, Piero; Ooko, Ednah; Ortiz-Brizuela, Edgar; Peleg, Anton Yariv; Perrone, Carlo; Plakkal, Nishad; Ponce-de-Leon, Alfredo; Raad, Mathieu; Ramdin, Tanusha; Riddel, Amy; Robets, Tamalee; Robotham, Julie Victoria; Roca, Anna; Rudd, Kristina E.; Russell, Neal; Schnall, Jesse; Scott, John Anthony Gerard; Shivamallappa, Madhusudhan; Sifuentes-Osornio, Jose; Steenkeste, Nicolas; Stewardson, Andrew James; Stoeva, Temenuga; Tasak, Nidanuch; Thaiprakong, Areerat; Thwaites, Guy; Turner, Claudia; Turner, Paul; van Doorn, H. Rogier; Velaphi, Sithembiso; Vongpradith, Avina; Vu, Huong; Walsh, Timothy; Waner, Seymour; Wangrangsimakul, Tri; Wozniak, Teresa; Zheng, Peng; Sartorius, Benn; Lopez, Alan D.; Stergachis, Andy; Moore, Catrin; Dolecek, Christiane; Naghavi, Mohsen

2022-01-20Zeitschriftenartikel

Murray, Christopher J.L.

Ikuta, Kevin Shunji

Sharara, Fablina

Swetschinski, Lucien

Robles Aguilar, Gisela

Gray, Authia

Han, Chieh

Bisignano, Catherine

Rao, Puja

Wool, Eve

Johnson, Sarah C.

Browne, Annie J.

Chipeta, Michael Give

Fell, Frederick

Hackett, Sean

Haines-Woodhouse, Georgina

Kashef Hamadani, Bahar H.

Kumaran, Emmanuelle A.P.

McManigal, Barney

Agarwal, Ramesh

Akech, Samuel

Albertson, Samuel

Amuasi, John

Andrews, Jason

Aravkin, Aleskandr

Ashley, Elizabeth

Bailey, Freddie

Baker, Stephen

Basnyat, Buddha

Bekker, Adrie

Bender, Rose

Bethou, Adhisivam

Bielicki, Julia

Boonkasidecha, Suppawat

Bukosia, James

Carvalheiro, Cristina

Castañeda-Orjuela, Carlos

Chansamouth, Vilada

Chaurasia, Suman

Chiurchiù, Sara

Chowdhury, Fazle

Cook, Aislinn J.

Cooper, Ben

Cressey, Tim R.

Criollo-Mora, Elia

Cunningham, Matthew

Darboe, Saffiatou

Day, Nicholas P.J.

de Luca, Maia

Dokova, Klara

Dramowski, Angela

Dunachie, Susanna J.

Eckmanns, Tim

Eibach, Daniel

Emami, Amir

Feasey, Nicholas

Fisher-Pearson, Natasha

Forrest, Karen

Garrett, Denise

Gastmeier, Petra

Giref, Ababi Zergaw

Greer, Rachel Claire

Gupta, Vikas

Haller, Sebastian

Haselbeck, Andrea

Hay, Simon I.

Holm, Marianne

Hopkins, Susan

Iregbu, Kenneth C.

Jacobs, Jan

Jarovsky, Daniel

Javanmardi, Fatemeh

Khorana, Meera

Kissoon, Niranjan

Kobeissi, Elsa

Kostyanev, Tomislav

Krapp, Fiorella

Krumkamp, Ralf

Kumar, Ajay

Kyu, Hmwe-Hmwe

Lim, Cherry

Limmathurotsakul, Direk

Loftus, Michael James

Lunn, Miles

Ma, Jianing

Mturi, Neema

Munera-Huertas, Tatiana

Musicha, Patrick

Mussi-Pinhata, Marisa Marcia

Nakamura, Tomoka

Nanavati, Ruchi

Nangia, Sushma

Newton, Paul

Ngoun, Chanpheaktra

Novotney, Amanda

Nwakanma, Davis

Obiero, Christina W.

Olivas-Martinez, Antonio

Olliaro, Piero

Ooko, Ednah

Ortiz-Brizuela, Edgar

Peleg, Anton Yariv

Perrone, Carlo

Plakkal, Nishad

Ponce-de-Leon, Alfredo

Raad, Mathieu

Ramdin, Tanusha

Riddel, Amy

Robets, Tamalee

Robotham, Julie Victoria

Roca, Anna

Rudd, Kristina E.

Russell, Neal

Schnall, Jesse

Scott, John Anthony Gerard

Shivamallappa, Madhusudhan

Sifuentes-Osornio, Jose

Steenkeste, Nicolas

Stewardson, Andrew James

Stoeva, Temenuga

Tasak, Nidanuch

Thaiprakong, Areerat

Thwaites, Guy

Turner, Claudia

Turner, Paul

van Doorn, H. Rogier

Velaphi, Sithembiso

Vongpradith, Avina

Vu, Huong

Walsh, Timothy

Waner, Seymour

Wangrangsimakul, Tri

Wozniak, Teresa

Zheng, Peng

Sartorius, Benn

Lopez, Alan D.

Stergachis, Andy

Moore, Catrin

Dolecek, Christiane

Naghavi, Mohsen

Background Antimicrobial resistance (AMR) poses a major threat to human health around the world. Previous publications have estimated the effect of AMR on incidence, deaths, hospital length of stay, and health-care costs for specific pathogen–drug combinations in select locations. To our knowledge, this study presents the most comprehensive estimates of AMR burden to date. Methods We estimated deaths and disability-adjusted life-years (DALYs) attributable to and associated with bacterial AMR for 23 pathogens and 88 pathogen–drug combinations in 204 countries and territories in 2019. We obtained data from systematic literature reviews, hospital systems, surveillance systems, and other sources, covering 471 million individual records or isolates and 7585 study-location-years. We used predictive statistical modelling to produce estimates of AMR burden for all locations, including for locations with no data. Our approach can be divided into five broad components: number of deaths where infection played a role, proportion of infectious deaths attributable to a given infectious syndrome, proportion of infectious syndrome deaths attributable to a given pathogen, the percentage of a given pathogen resistant to an antibiotic of interest, and the excess risk of death or duration of an infection associated with this resistance. Using these components, we estimated disease burden based on two counterfactuals: deaths attributable to AMR (based on an alternative scenario in which all drug-resistant infections were replaced by drug-susceptible infections), and deaths associated with AMR (based on an alternative scenario in which all drug-resistant infections were replaced by no infection). We generated 95% uncertainty intervals (UIs) for final estimates as the 25th and 975th ordered values across 1000 posterior draws, and models were cross-validated for out-of-sample predictive validity. We present final estimates aggregated to the global and regional level. Findings On the basis of our predictive statistical models, there were an estimated 4·95 million (3·62–6·57) deaths associated with bacterial AMR in 2019, including 1·27 million (95% UI 0·911–1·71) deaths attributable to bacterial AMR. At the regional level, we estimated the all-age death rate attributable to resistance to be highest in western sub-Saharan Africa, at 27·3 deaths per 100 000 (20·9–35·3), and lowest in Australasia, at 6·5 deaths (4·3–9·4) per 100 000. Lower respiratory infections accounted for more than 1·5 million deaths associated with resistance in 2019, making it the most burdensome infectious syndrome. The six leading pathogens for deaths associated with resistance (Escherichia coli, followed by Staphylococcus aureus, Klebsiella pneumoniae, Streptococcus pneumoniae, Acinetobacter baumannii, and Pseudomonas aeruginosa) were responsible for 929 000 (660 000–1 270 000) deaths attributable to AMR and 3·57 million (2·62–4·78) deaths associated with AMR in 2019. One pathogen–drug combination, meticillin-resistant S aureus, caused more than 100 000 deaths attributable to AMR in 2019, while six more each caused 50 000–100 000 deaths: multidrug-resistant excluding extensively drug-resistant tuberculosis, third-generation cephalosporin-resistant E coli, carbapenem-resistant A baumannii, fluoroquinolone-resistant E coli, carbapenem-resistant K pneumoniae, and third-generation cephalosporin-resistant K pneumoniae. Interpretation To our knowledge, this study provides the first comprehensive assessment of the global burden of AMR, as well as an evaluation of the availability of data. AMR is a leading cause of death around the world, with the highest burdens in low-resource settings. Understanding the burden of AMR and the leading pathogen–drug combinations contributing to it is crucial to making informed and location-specific policy decisions, particularly about infection prevention and control programmes, access to essential antibiotics, and research and development of new vaccines and antibiotics. There are serious data gaps in many low-income settings, emphasising the need to expand microbiology laboratory capacity and data collection systems to improve our understanding of this important human health threat.

Dateien zu dieser Publikation

Global burden of bacterial antimicrobial resistance in 2019---a systematic analysis.pdf — PDF — 3.105 Mb

MD5: 2ffb630994180c61bbc6a379e1673cd4

Zitieren