npj Digital Medicine (Jan 2024)

Digital remote monitoring for screening and early detection of urinary tract infections

  • Alexander Capstick,
  • Francesca Palermo,
  • Kimberley Zakka,
  • Nan Fletcher-Lloyd,
  • Chloe Walsh,
  • Tianyu Cui,
  • Samaneh Kouchaki,
  • Raphaella Jackson,
  • Martin Tran,
  • Michael Crone,
  • Kirsten Jensen,
  • Paul Freemont,
  • Ravi Vaidyanathan,
  • Magdalena Kolanko,
  • Jessica True,
  • Sarah Daniels,
  • David Wingfield,
  • CR&T Group,
  • Ramin Nilforooshan,
  • Payam Barnaghi

DOI
https://doi.org/10.1038/s41746-023-00995-5
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 7

Abstract

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Abstract Urinary Tract Infections (UTIs) are one of the most prevalent bacterial infections in older adults and a significant contributor to unplanned hospital admissions in People Living with Dementia (PLWD), with early detection being crucial due to the predicament of reporting symptoms and limited help-seeking behaviour. The most common diagnostic tool is urine sample analysis, which can be time-consuming and is only employed where UTI clinical suspicion exists. In this method development and proof-of-concept study, participants living with dementia were monitored via low-cost devices in the home that passively measure activity, sleep, and nocturnal physiology. Using 27828 person-days of remote monitoring data (from 117 participants), we engineered features representing symptoms used for diagnosing a UTI. We then evaluate explainable machine learning techniques in passively calculating UTI risk and perform stratification on scores to support clinical translation and allow control over the balance between alert rate and sensitivity and specificity. The proposed UTI algorithm achieves a sensitivity of 65.3% (95% Confidence Interval (CI) = 64.3–66.2) and specificity of 70.9% (68.6–73.1) when predicting UTIs on unseen participants and after risk stratification, a sensitivity of 74.7% (67.9–81.5) and specificity of 87.9% (85.0–90.9). In addition, feature importance methods reveal that the largest contributions to the predictions were bathroom visit statistics, night-time respiratory rate, and the number of previous UTI events, aligning with the literature. Our machine learning method alerts clinicians of UTI risk in subjects, enabling earlier detection and enhanced screening when considering treatment.