Browsing by Author "Bannard-Smith J."

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    Microbial Volatiles as Diagnostic Biomarkers of Bacterial Lung Infection in Mechanically Ventilated Patients
    (2023-03-15) Ahmed W.M.; Fenn D.; White I.R.; Dixon B.; Nijsen T.M.E.; Knobel H.H.; Brinkman P.; Van Oort P.M.P.; Schultz M.J.; Dark P.; Goodacre R.; Felton T.; Bos L.D.J.; Fowler S.J.; Ahmed W.M.; Raventos A.A.; Bannard-Smith J.; Bos L.D.J.; Camprubi M.; Coelho L.; Davie A.; Diaz E.; Goma G.; Felton T.; Fowler S.J.; Goodacre R.; Johnson C.; Knobel H.H.; Lawal O.; Leopold J.H.; Martin-Loeches I.; Nijsen T.M.E.; Van Oort P.M.P.; Povoa P.; Rattray N.J.W.; Rijnders G.; Schultz M.J.; Steenwelle R.; Sterk P.J.; Valles J.; Verhoeckx F.; Vink A.; Weda H.; Winters T.; Zakharkina T.; Mahidol University
    Background: Early and accurate recognition of respiratory pathogens is crucial to prevent increased risk of mortality in critically ill patients. Microbial-derived volatile organic compounds (mVOCs) in exhaled breath could be used as noninvasive biomarkers of infection to support clinical diagnosis. Methods: In this study, we investigated the diagnostic potential of in vitro-confirmed mVOCs in the exhaled breath of patients under mechanical ventilation from the BreathDx study. Samples were analyzed by thermal desorption-gas chromatography-mass spectrometry. Results: Pathogens from bronchoalveolar lavage (BAL) cultures were identified in 45 of 89 patients and Staphylococcus aureus was the most commonly identified pathogen (n = 15). Of 19 mVOCs detected in the in vitro culture headspace of 4 common respiratory pathogens (S. aureus, Pseudomonas aeruginosa, Klebsiella pneumoniae, and Escherichia coli), 14 were found in exhaled breath samples. Higher concentrations of 2 mVOCs were found in the exhaled breath of patients infected with S. aureus compared to those without (3-methylbutanal: P <. 01, area under the receiver operating characteristic curve [AUROC] = 0.81-0.87; and 3-methylbutanoic acid: P =. 01, AUROC = 0.79-0.80). In addition, bacteria identified from BAL cultures that are known to metabolize tryptophan (E. coli, Klebsiella oxytoca, and Haemophilus influenzae) were grouped and found to produce higher concentrations of indole compared to breath samples with culture-negative (P =. 034) and other pathogen-positive (P =. 049) samples. Conclusions: This study demonstrates the capability of using mVOCs to detect the presence of specific pathogen groups with potential to support clinical diagnosis. Although not all mVOCs were found in patient samples within this small pilot study, further targeted and qualitative investigation is warranted using multicenter clinical studies.