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Novel cadaverine non-invasive biosensor technology for the prediction of shelf life of modified atmosphere packed pork cutlets

Niki Alexi, Kristian Thamsborg, Jeanette Hvam, Birgitte W. Lund, Lawrence Nsubuga, Roana de Oliveira Hansen, Derek V. Byrne, Jørgen J. Leisner

2022Meat Science18 citationsDOIOpen Access PDF

Abstract

Food waste in perishable products calls for the development of cost-efficient and real-time freshness and shelf life assessment tools. The current study evaluated a newly developed cadaverine biosensor for its ability to assess the sensory freshness stage and microbial quality of modified atmosphere packed (MAP) pork cutlets under a realistic supply chain scenario. The experiment compared the cadaverine levels measured by the biosensor to liquid chromatography - tandem mass spectrometry (LC-MS/MS) cadaverine concentrations, and associated these to the shelf life estimation and freshness states determined by sensory and microbial evaluations during an 18-day storage period (5 °C). Results underlined the potential of cadaverine as a freshness biomarker as well as the applicability of the biosensor as a shelf life prediction tool. This is supported by the correlations obtained between sensory odour freshness evaluation and total viable counts with biosensor cadaverine levels for which the r obtained were 0.97 (<0.001) and 0.95 (<0.001), respectively.

Topics & Concepts

CadaverineShelf lifeBiosensorChemistryModified atmosphereFood scienceChromatographyPutrescineBiochemistryEnzymeMeat and Animal Product QualityAdvanced Chemical Sensor TechnologiesFood Supply Chain Traceability
Novel cadaverine non-invasive biosensor technology for the prediction of shelf life of modified atmosphere packed pork cutlets | Litcius