Antimicrobial resistance (AMR) is a dominant and growing global health threat that led to 1.27 million deaths in 2019. Given the widespread use of antimicrobials in agriculture and industrial applications in addition to healthcare and a range of factors affecting AMR, including climate variability, demographic trends, and plastic and metal pollution, an economy-wide approach is essential to assess its macroeconomic implications.

This study summarises the existing literature on the identified factors driving AMR and reviews the factors that have been considered in existing macroeconomic studies. The authors highlight the limitations in the available studies and suggest how those could be overcome via an economy-wide modelling approach that integrates the factors behind the evolution of AMR. They present three frameworks to conceptualise the economy-wide use of antimicrobials, the epidemiology of AMR, and how AMR affects the economy in a stylised economy embedded within a more extensive system.

The authors propose how the AMR impacts could be mapped onto economic variables, discuss the significance of these shocks, and outline how AMR evolution scenarios could be designed, particularly with reference to climate change, demographic trends, and associated socioeconomic changes. They also discuss how modelling studies could be improved to increase their utility to policy-makers and increase comparability across studies.

They conclude with the major policy implications arising from the study which emphasise an economy-wide, one-health approach to address AMR; regulation of the antimicrobial supply chain and incentivising innovations; global cooperation to address AMR, and alleviating uncertainties for policymaking via scaling up the surveillance of AMR, encouraging research collaboration and enabling access to data on AMR and antimicrobial consumption.