Microorganisms (Apr 2024)

Tackling the Antimicrobial Resistance “Pandemic” with Machine Learning Tools: A Summary of Available Evidence

  • Doris Rusic,
  • Marko Kumric,
  • Ana Seselja Perisin,
  • Dario Leskur,
  • Josipa Bukic,
  • Darko Modun,
  • Marino Vilovic,
  • Josip Vrdoljak,
  • Dinko Martinovic,
  • Marko Grahovac,
  • Josko Bozic

DOI
https://doi.org/10.3390/microorganisms12050842
Journal volume & issue
Vol. 12, no. 5
p. 842

Abstract

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Antimicrobial resistance is recognised as one of the top threats healthcare is bound to face in the future. There have been various attempts to preserve the efficacy of existing antimicrobials, develop new and efficient antimicrobials, manage infections with multi-drug resistant strains, and improve patient outcomes, resulting in a growing mass of routinely available data, including electronic health records and microbiological information that can be employed to develop individualised antimicrobial stewardship. Machine learning methods have been developed to predict antimicrobial resistance from whole-genome sequencing data, forecast medication susceptibility, recognise epidemic patterns for surveillance purposes, or propose new antibacterial treatments and accelerate scientific discovery. Unfortunately, there is an evident gap between the number of machine learning applications in science and the effective implementation of these systems. This narrative review highlights some of the outstanding opportunities that machine learning offers when applied in research related to antimicrobial resistance. In the future, machine learning tools may prove to be superbugs’ kryptonite. This review aims to provide an overview of available publications to aid researchers that are looking to expand their work with new approaches and to acquaint them with the current application of machine learning techniques in this field.

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