Microorganisms (Apr 2023)

Improving the Detection of Epidemic Clones in <i>Candida parapsilosis</i> Outbreaks by Combining MALDI-TOF Mass Spectrometry and Deep Learning Approaches

  • Noshine Mohammad,
  • Anne-Cécile Normand,
  • Cécile Nabet,
  • Alexandre Godmer,
  • Jean-Yves Brossas,
  • Marion Blaize,
  • Christine Bonnal,
  • Arnaud Fekkar,
  • Sébastien Imbert,
  • Xavier Tannier,
  • Renaud Piarroux

DOI
https://doi.org/10.3390/microorganisms11041071
Journal volume & issue
Vol. 11, no. 4
p. 1071

Abstract

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Identifying fungal clones propagated during outbreaks in hospital settings is a problem that increasingly confronts biologists. Current tools based on DNA sequencing or microsatellite analysis require specific manipulations that are difficult to implement in the context of routine diagnosis. Using deep learning to classify the mass spectra obtained during the routine identification of fungi by MALDI-TOF mass spectrometry could be of interest to differentiate isolates belonging to epidemic clones from others. As part of the management of a nosocomial outbreak due to Candida parapsilosis in two Parisian hospitals, we studied the impact of the preparation of the spectra on the performance of a deep neural network. Our purpose was to differentiate 39 otherwise fluconazole-resistant isolates belonging to a clonal subset from 56 other isolates, most of which were fluconazole-susceptible, collected during the same period and not belonging to the clonal subset. Our study carried out on spectra obtained on four different machines from isolates cultured for 24 or 48 h on three different culture media showed that each of these parameters had a significant impact on the performance of the classifier. In particular, using different culture times between learning and testing steps could lead to a collapse in the accuracy of the predictions. On the other hand, including spectra obtained after 24 and 48 h of growth during the learning step restored the good results. Finally, we showed that the deleterious effect of the device variability used for learning and testing could be largely improved by including a spectra alignment step during preprocessing before submitting them to the neural network. Taken together, these experiments show the great potential of deep learning models to identify spectra of specific clones, providing that crucial parameters are controlled during both culture and preparation steps before submitting spectra to a classifier.

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