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Evaluation of the Potential of Mid‐Infrared Spectroscopy to Assess the Microbiological Quality of Ham
Author(s) -
Moreirinha Catarina,
Nunes Alexandra,
Barros António,
Almeida Adelaide,
Delgadillo Ivonne
Publication year - 2015
Publication title -
journal of food safety
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.427
H-Index - 43
eISSN - 1745-4565
pISSN - 0149-6085
DOI - 10.1111/jfs.12176
Subject(s) - partial least squares regression , chemometrics , biochemical engineering , microorganism , environmental science , fingerprint (computing) , infrared spectroscopy , computer science , food science , process engineering , chemistry , artificial intelligence , engineering , biology , bacteria , machine learning , organic chemistry , genetics
The accurate reliable detection and identification of microorganisms in food is critical to public safety. Consequently, it is extremely important to develop rapid and inexpensive methods for the detection of food microorganisms in order to minimize or even replace the traditional analysis methods that are expensive and time‐consuming. In this study, the potential of mid‐infrared spectroscopy was evaluated, for the first time, to detect changes in colony forming units of microorganisms in freshly cut ham along the time. A partial least squares regression model was performed and a good linear relationship was obtained between spectra information and microbial load. It was concluded that infrared spectroscopy easily and quickly allows the separation of ham samples according to their microbial content and could be used to predict the microbial concentration from the spectra, using the fingerprint region (1,200–950 cm −1 ), without sample preparation or handling. Practical Applications As it is essential to avoid infections caused by foodborne bacteria, it is important to develop a rapid, low cost and easy to perform technique to face the increasing demands of the food industry. Mid‐infrared spectroscopy, coupled to multivariate analysis, has potential to be used as a first‐screening approach and to assess the microbial concentration in ham samples, avoiding the traditional plating methods that are time‐consuming.