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Anal Bioanal Chem


Title:A new analytical platform based on field-flow fractionation and olfactory sensor to improve the detection of viable and non-viable bacteria in food
Author(s):Roda B; Mirasoli M; Zattoni A; Casale M; Oliveri P; Bigi A; Reschiglian P; Simoni P; Roda A;
Address:"Department of Chemistry 'Giacomo Ciamician', University of Bologna, Via Selmi 2, 40126, Bologna, Italy. Interuniversity Consortium INBB-Viale delle Medaglie d'Oro, 305, 00136, Rome, Italy. Department of Chemistry 'Giacomo Ciamician', University of Bologna, Via Selmi 2, 40126, Bologna, Italy. mara.mirasoli@unibo.it. Interuniversity Consortium INBB-Viale delle Medaglie d'Oro, 305, 00136, Rome, Italy. mara.mirasoli@unibo.it. Department of Pharmacy-DIFAR, University of Genoa, Viale Cembrano 4, 16148, Genoa, Italy. Department of Engineering Enzo Ferrari (DIEF), University of Modena and Reggio Emilia, Via Vivarelli 10, 41125, Modena, Italy. Department of Medical and Surgical Science-DIMEC, S. Orsola-Malpighi Hospital, University of Bologna, Via Massarenti 9, 40138, Bologna, Italy"
Journal Title:Anal Bioanal Chem
Year:2016
Volume:20160813
Issue:26
Page Number:7367 - 7377
DOI: 10.1007/s00216-016-9836-x
ISSN/ISBN:1618-2650 (Electronic) 1618-2642 (Linking)
Abstract:"An integrated sensing system is presented for the first time, where a metal oxide semiconductor sensor-based electronic olfactory system (MOS array), employed for pathogen bacteria identification based on their volatile organic compound (VOC) characterisation, is assisted by a preliminary separative technique based on gravitational field-flow fractionation (GrFFF). In the integrated system, a preliminary step using GrFFF fractionation of a complex sample provided bacteria-enriched fractions readily available for subsequent MOS array analysis. The MOS array signals were then analysed employing a chemometric approach using principal components analysis (PCA) for a first-data exploration, followed by linear discriminant analysis (LDA) as a classification tool, using the PCA scores as input variables. The ability of the GrFFF-MOS system to distinguish between viable and non-viable cells of the same strain was demonstrated for the first time, yielding 100 % ability of correct prediction. The integrated system was also applied as a proof of concept for multianalyte purposes, for the detection of two bacterial strains (Escherichia coli O157:H7 and Yersinia enterocolitica) simultaneously present in artificially contaminated milk samples, obtaining a 100 % ability of correct prediction. Acquired results show that GrFFF band slicing before MOS array analysis can significantly increase reliability and reproducibility of pathogen bacteria identification based on their VOC production, simplifying the analytical procedure and largely eliminating sample matrix effects. The developed GrFFF-MOS integrated system can be considered a simple straightforward approach for pathogen bacteria identification directly from their food matrix. Graphical abstract An integrated sensing system is presented for pathogen bacteria identification in food, in which field-flow fractionation is exploited to prepare enriched cell fractions prior to their analysis by electronic olfactory system analysis"
Keywords:"*Electronic Nose Equipment Design Escherichia coli Infections/microbiology Escherichia coli O157/cytology/*isolation & purification Food Analysis/instrumentation/*methods Food Microbiology/instrumentation/methods Fractionation, Field Flow/instrumentation/;"
Notes:"MedlineRoda, Barbara Mirasoli, Mara Zattoni, Andrea Casale, Monica Oliveri, Paolo Bigi, Alessandro Reschiglian, Pierluigi Simoni, Patrizia Roda, Aldo eng Germany 2016/08/16 Anal Bioanal Chem. 2016 Oct; 408(26):7367-77. doi: 10.1007/s00216-016-9836-x. Epub 2016 Aug 13"

 
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