Nosocomial transmission of Aspergillus flavus in a neonatal intensive care unit: Long-term persistence in environment and interest of MALDI-ToF mass-spectrometry coupled with convolutional neural network for rapid clone recognition

Nosocomial transmission of Aspergillus flavus in a neonatal intensive care unit: Long-term persistence in environment and interest of MALDI-ToF mass-spectrometry coupled with convolutional neural network for rapid clone recognition

Aspergillosis of the newborn remains a rare but severe disease. We report four cases of primary cutaneous Aspergillus flavus infections in premature newborns linked to incubators contamination by putative clonal strains. Our objective was to evaluate the ability of matrix-assisted laser desorption/i...

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Bibliographic Details
Published in:Medical mycology (Oxford) Vol. 62; no. 1
Main Authors: Mohammad, Noshine, Huguenin, Antoine, Lefebvre, Annick, Menvielle, Laura, Toubas, Dominique, Ranque, Stéphane, Villena, Isabelle, Tannier, Xavier, Normand, Anne-Cécile, Piarroux, Renaud
Format: Journal Article
Language:English
Published: England Oxford University Press 09-01-2024
Subjects:
Animals
Aspergillosis - diagnosis
Aspergillosis - veterinary
Aspergillus flavus - genetics
Bacteriology
Cardiology and cardiovascular system
Cross Infection - veterinary
Emerging diseases
Human health and pathology
Infectious diseases
Intensive Care Units, Neonatal
Life Sciences
Microbiology and Parasitology
Parasitology
Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization - methods
Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization - veterinary
Virology
strain typing
MALDI–TOF
Aspergillus flavus
primary cutaneous aspergillosis
convolutional neural network
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Summary:Aspergillosis of the newborn remains a rare but severe disease. We report four cases of primary cutaneous Aspergillus flavus infections in premature newborns linked to incubators contamination by putative clonal strains. Our objective was to evaluate the ability of matrix-assisted laser desorption/ionisation time of flight (MALDI-TOF) coupled to convolutional neural network (CNN) for clone recognition in a context where only a very small number of strains are available for machine learning. Clinical and environmental A. flavus isolates (n = 64) were studied, 15 were epidemiologically related to the four cases. All strains were typed using microsatellite length polymorphism. We found a common genotype for 9/15 related strains. The isolates of this common genotype were selected to obtain a training dataset (6 clonal isolates/25 non-clonal) and a test dataset (3 clonal isolates/31 non-clonal), and spectra were analysed with a simple CNN model. On the test dataset using CNN model, all 31 non-clonal isolates were correctly classified, 2/3 clonal isolates were unambiguously correctly classified, whereas the third strain was undetermined (i.e., the CNN model was unable to discriminate between GT8 and non-GT8). Clonal strains of A. flavus have persisted in the neonatal intensive care unit for several years. Indeed, two strains of A. flavus isolated from incubators in September 2007 are identical to the strain responsible for the second case that occurred 3 years later. MALDI-TOF is a promising tool for detecting clonal isolates of A. flavus using CNN even with a limited training set for limited cost and handling time.
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ISSN:1369-3786
1460-2709
1365-280X
DOI:10.1093/mmy/myad136