A step forward in the diagnosis of urinary tract infections: from machine learning to clinical practice

A step forward in the diagnosis of urinary tract infections: from machine learning to clinical practice

Urinary tract infections (UTIs) are common infections within the Emergency Department (ED), causing increased laboratory workloads and unnecessary antibiotics prescriptions. The aim of this study was to improve UTI diagnostics in clinical practice by application of machine learning (ML) models for r...

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Published in:Computational and structural biotechnology journal Vol. 24; pp. 533 - 541
Main Authors: Flores, Emilio, Martínez-Racaj, Laura, Blasco, Álvaro, Diaz, Elena, Esteban, Patricia, López-Garrigós, Maite, Salinas, María
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-12-2024
Elsevier
Subjects:
Clinical Decision Support Systems
Emergency department
Laboratory Medicine
Machine learning
Urinalysis
Urinary Tract Infection
NN
DH
Urinalysis
UTI
Laboratory Medicine
XTAL
YLC
CFU
Emergency department
WBC
CPOE
CDSS
RBO
EC
ED
ML
WHO
ROC
AI
Urinary Tract Infection
EMR
BACT
HIT
PC
RF
LIS
Machine learning
CASTS
Clinical Decision Support Systems
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Summary:Urinary tract infections (UTIs) are common infections within the Emergency Department (ED), causing increased laboratory workloads and unnecessary antibiotics prescriptions. The aim of this study was to improve UTI diagnostics in clinical practice by application of machine learning (ML) models for real-time UTI prediction. In a retrospective study, patient information and outcomes from Emergency Department patients, with positive and negative culture results, were used to design models – ‘Random Forest’ and ‘Neural Network’ – for the prediction of UTIs. The performance of these predictive models was validated in a cross-sectional study. In a quasi-experimental study, the impact of UTI risk assessment was investigated by evaluating changes in the behaviour of clinicians, measuring changes in antibiotic prescriptions and urine culture requests. First, we trained and tested two different predictive models with 8692 cases. Second, we investigated the performance of the predictive models in clinical practice with 962 cases (Area under the curve was between 0.81 to 0.88). The best performance was the combination of both models. Finally, the assessment of the risk for UTIs was implemented into clinical practice and allowed for the reduction of unnecessary urine cultures and antibiotic prescriptions for patients with a low risk of UTI, as well as targeted diagnostics and treatment for patients with a high risk of UTI. The combination of modern urinalysis diagnostic technologies with digital health solutions can help to further improve UTI diagnostics with positive impact on laboratory workloads and antimicrobial stewardship. [Display omitted]
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ISSN:2001-0370
2001-0370
DOI:10.1016/j.csbj.2024.07.018