AI & Data Significance 7/10

Antimicrobial Resistance in 2025: Global Landscape, New Antibiotics, and the Promise of AI-Enabled Stewardship

Published following the 2024 UN General Assembly commitment to reducing AMR mortality, this BMJ review examines the current state of antimicrobial resistance across high- and low-income settings. The authors discuss how AI and information systems are improving diagnostics and stewardship in resource-rich hospitals, while emphasising that empirical prescribing of essential antibiotics remains the cornerstone of treatment globally and that equitable access to new tools is critical.

The original study

Antimicrobial use and resistance.

Authors
Reza N, Dubey V, Sharland M, Hope W
Journal
BMJ (Clinical research ed.)
Type
Journal Article, Review
PMID
41386779
Read the original study →

Original abstract

Antimicrobial resistance affects the delivery of safe and effective healthcare. Antimicrobial resistance has attracted strong political focus, with the 2024 United Nations General Assembly high level meeting providing a clear commitment to reducing mortality and improving antibiotic use. This review summarises recent political action, policy prioritisation, and identification of future threats. It considers infections that are caused by drug resistant pathogens and reviews available and new antibiotics that may meet unmet medical needs. Despite increasing political engagement, the global antimicrobial resistance landscape remains imbalanced. In high income hospital settings, diagnostics, antimicrobial stewardship, and infection prevention and control are improving and may be further enabled by artificial intelligence and information systems. The development and use of new antibiotics is a major focus. By contrast, in low and middle income countries, access to most of these advances is limited. In all settings, empirical prescribing of essential antibiotics remains the cornerstone of treatment and conserving their efficacy is critical to effective healthcare. Targeted prevention and optimal treatment strategies are needed to mitigate antimicrobial resistance across all settings.