The Synergy of Machine Learning and Epidemiology in Addressing Carbapenem Resistance: A Comprehensive Review

Aikaterini Sakagianni; Christina Koufopoulou; Petros Koufopoulos; Georgios Feretzakis; Dimitris Kalles; Evgenia Paxinou; Pavlos Myrianthefs; Vassilios S. Verykios

doi:10.3390/antibiotics13100996

Antibiotics (Oct 2024)

The Synergy of Machine Learning and Epidemiology in Addressing Carbapenem Resistance: A Comprehensive Review

Aikaterini Sakagianni,
Christina Koufopoulou,
Petros Koufopoulos,
Georgios Feretzakis,
Dimitris Kalles,
Evgenia Paxinou,
Pavlos Myrianthefs,
Vassilios S. Verykios

Affiliations

Aikaterini Sakagianni: Intensive Care Unit, Sismanogleio General Hospital, 15126 Marousi, Greece
Christina Koufopoulou: Anesthesiology Department, Aretaieio Hospital, National and Kapodistrian University of Athens, 11528 Athens, Greece
Petros Koufopoulos: Internal Medicine Department, Sismanogleio General Hospital, 15126 Marousi, Greece
Georgios Feretzakis: School of Science and Technology, Hellenic Open University, 26335 Patras, Greece
Dimitris Kalles: School of Science and Technology, Hellenic Open University, 26335 Patras, Greece
Evgenia Paxinou: School of Science and Technology, Hellenic Open University, 26335 Patras, Greece
Pavlos Myrianthefs: Faculty of Nursing, School of Health Sciences, National and Kapodistrian University of Athens, 11527 Athens, Greece
Vassilios S. Verykios: School of Science and Technology, Hellenic Open University, 26335 Patras, Greece

DOI: https://doi.org/10.3390/antibiotics13100996
Journal volume & issue: Vol. 13, no. 10
p. 996

Abstract

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Background/Objectives: Carbapenem resistance poses a significant threat to public health by undermining the efficacy of one of the last lines of antibiotic defense. Addressing this challenge requires innovative approaches that can enhance our understanding and ability to combat resistant pathogens. This review aims to explore the integration of machine learning (ML) and epidemiological approaches to understand, predict, and combat carbapenem-resistant pathogens. It examines how leveraging large datasets and advanced computational techniques can identify patterns, predict outbreaks, and inform targeted intervention strategies. Methods: The review synthesizes current knowledge on the mechanisms of carbapenem resistance, highlights the strengths and limitations of traditional epidemiological methods, and evaluates the transformative potential of ML. Real-world applications and case studies are used to demonstrate the practical benefits of combining ML and epidemiology. Technical and ethical challenges, such as data quality, model interpretability, and biases, are also addressed, with recommendations provided for overcoming these obstacles. Results: By integrating ML with epidemiological analysis, significant improvements can be made in predictive accuracy, identifying novel patterns in disease transmission, and designing effective public health interventions. Case studies illustrate the benefits of interdisciplinary collaboration in tackling carbapenem resistance, though challenges such as model interpretability and data biases must be managed. Conclusions: The combination of ML and epidemiology holds great promise for enhancing our capacity to predict and prevent carbapenem-resistant infections. Future research should focus on overcoming technical and ethical challenges to fully realize the potential of these approaches. Interdisciplinary collaboration is key to developing sustainable strategies to combat antimicrobial resistance (AMR), ultimately improving patient outcomes and safeguarding public health.

Published in Antibiotics

ISSN: 2079-6382 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Medicine: Therapeutics. Pharmacology
Website: http://www.mdpi.com/journal/antibiotics

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