Computer Vision Methods for Urinary Tract Infection Diagnostics

Antibiotic resistance is a very important issue that threatens mankind. As bacteria

are becoming resistant to multiple antibiotics, many common antibiotics will soon

become ineective. The ineciency of current methods for diagnostics is an important

cause of antibiotic resistance, since due to their relative slowness, treatment plans

are often based on physician's experience rather than on test results, having a high

chance of being inaccurate or not optimal. This leads to a need of faster, pointof-

care (POC) methods, which can provide results in a few hours. Motivated by

recent advances on computer vision methods, three projects have been developed

for bacteria identication and antibiotic susceptibility tests (AST), with the goal of

speeding up the diagnostics process. The rst two projects focus on obtaining features

from optical microscopy such as bacteria shape and motion patterns to distinguish

active and inactive cells. The results show their potential as novel methods for AST,

being able to obtain results within a window of 30 min to 3 hours, a much faster

time frame than the gold standard approach based on cell culture, which takes at

least half a day to be completed. The last project focus on the identication task,

combining large volume light scattering microscopy (LVM) and deep learning to

distinguish bacteria from urine particles. The developed setup is suitable for pointof-

care applications, as a large volume can be viewed at a time, avoiding the need

for cell culturing or enrichment. This is a signicant gain compared to cell culturing

methods. The accuracy performance of the deep learning system is higher than chance

and outperforms a traditional machine learning system by up to 20%.