A clinical microscopy dataset to develop a deep learning diagnostic test for urinary tract infection

Natasha Liou; Trina De; Adrian Urbanski; Catherine Chieng; Qingyang Kong; Anna L. David; Rajvinder Khasriya; Artur Yakimovich; Harry Horsley

doi:10.1038/s41597-024-02975-0

Scientific Data (Feb 2024)

A clinical microscopy dataset to develop a deep learning diagnostic test for urinary tract infection

Natasha Liou,
Trina De,
Adrian Urbanski,
Catherine Chieng,
Qingyang Kong,
Anna L. David,
Rajvinder Khasriya,
Artur Yakimovich,
Harry Horsley

Affiliations

Natasha Liou: Bladder Infection and Immunity Group (BIIG), UCL Centre for Kidney & Bladder Health, Division of Medicine, University College London
Trina De: Center for Advanced Systems Understanding (CASUS)
Adrian Urbanski: Center for Advanced Systems Understanding (CASUS)
Catherine Chieng: Bladder Infection and Immunity Group (BIIG), UCL Centre for Kidney & Bladder Health, Division of Medicine, University College London
Qingyang Kong: Bladder Infection and Immunity Group (BIIG), UCL Centre for Kidney & Bladder Health, Division of Medicine, University College London
Anna L. David: UCL EGA Institute for Women’s Health, Faculty of Population Health Sciences, University College London
Rajvinder Khasriya: Bladder Infection and Immunity Group (BIIG), UCL Centre for Kidney & Bladder Health, Division of Medicine, University College London
Artur Yakimovich: Bladder Infection and Immunity Group (BIIG), UCL Centre for Kidney & Bladder Health, Division of Medicine, University College London
Harry Horsley: Bladder Infection and Immunity Group (BIIG), UCL Centre for Kidney & Bladder Health, Division of Medicine, University College London

DOI: https://doi.org/10.1038/s41597-024-02975-0
Journal volume & issue: Vol. 11, no. 1
pp. 1 – 11

Abstract

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Abstract Urinary tract infection (UTI) is a common disorder. Its diagnosis can be made by microscopic examination of voided urine for markers of infection. This manual technique is technically difficult, time-consuming and prone to inter-observer errors. The application of computer vision to this domain has been slow due to the lack of a clinical image dataset from UTI patients. We present an open dataset containing 300 images and 3,562 manually annotated urinary cells labelled into seven classes of clinically significant cell types. It is an enriched dataset acquired from the unstained and untreated urine of patients with symptomatic UTI using a simple imaging system. We demonstrate that this dataset can be used to train a Patch U-Net, a novel deep learning architecture with a random patch generator to recognise urinary cells. Our hope is, with this dataset, UTI diagnosis will be made possible in nearly all clinical settings by using a simple imaging system which leverages advanced machine learning techniques.

Published in Scientific Data

ISSN: 2052-4463 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/sdata/

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