Estimation of Minced Pork Microbiological Spoilage through Fourier Transform Infrared and Visible Spectroscopy and Multispectral Vision Technology.
Lemonia-Christina FengouEvgenia SpyrelliAlexandra LianouPanagiotis TsakanikasEfstathios Z PanagouGeorge-John E NychasPublished in: Foods (Basel, Switzerland) (2019)
Spectroscopic and imaging methods coupled with multivariate data analysis have been increasingly studied for the assessment of food quality. The objective of this work was the estimation of microbiological quality of minced pork using non-invasive spectroscopy-based sensors. For this purpose, minced pork patties were stored aerobically at different isothermal (4, 8, and 12 °C) and dynamic temperature conditions, and at regular time intervals duplicate samples were subjected to (i) microbiological analyses, (ii) Fourier transform infrared (FTIR) and visible (VIS) spectroscopy measurements, and (iii) multispectral image (MSI) acquisition. Partial-least squares regression models were trained and externally validated using the microbiological/spectral data collected at the isothermal and dynamic temperature storage conditions, respectively. The root mean squared error (RMSE, log CFU/g) for the prediction of the test (external validation) dataset for the FTIR, MSI, and VIS models was 0.915, 1.173, and 1.034, respectively, while the corresponding values of the coefficient of determination (R2) were 0.834, 0.727, and 0.788. Overall, all three tested sensors exhibited a considerable potential for the prediction of the microbiological quality of minced pork.
Keyphrases
- data analysis
- high resolution
- single molecule
- solid state
- quality improvement
- human health
- low cost
- molecular docking
- electronic health record
- deep learning
- computed tomography
- resistance training
- machine learning
- magnetic resonance imaging
- solid phase extraction
- risk assessment
- room temperature
- molecular dynamics simulations
- climate change
- tandem mass spectrometry
- liquid chromatography