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Simultaneous detection for adulterations of maltodextrin, sodium carbonate, and whey in raw milk using Raman spectroscopy and chemometrics

Huaixiang Tian, Shuang Chen, Dan Li, Xinman Lou, Chen Chen, Haiyan Yu

2022Journal of Dairy Science31 citationsDOIOpen Access PDF

Abstract

To achieve rapid on-site identification of raw milk adulteration and simultaneously quantify the levels of various adulterants, we combined Raman spectroscopy with chemometrics to detect 3 of the most common adulterants. Raw milk was artificially adulterated with maltodextrin (0.5-15.0%; wt/wt), sodium carbonate (10-100 mg/kg), or whey (1.0-20.0%; wt/wt). Partial least square discriminant analysis (PLS-DA) classification and a partial least square (PLS) regression model were established using Raman spectra of 144 samples, among which 108 samples were used for training and 36 were used for validation. A model with excellent performance was obtained by spectral preprocessing with first derivative, and variable selection optimization with variable importance in the projection. The classification accuracy of the PLS-DA model was 95.83% for maltodextrin, 100% for sodium carbonate, 95.84% for whey, and 92.25% for pure raw milk. The PLS model had a detection limit of 1.46% for maltodextrin, 4.38 mg/kg for sodium carbonate, and 2.64% for whey. These results suggested that Raman spectroscopy combined with PLS-DA and PLS model can rapidly and efficiently detect adulterants of maltodextrin, sodium carbonate, and whey in raw milk.

Topics & Concepts

MaltodextrinChemometricsSodium carbonateChemistryPartial least squares regressionChromatographyRaman spectroscopyFood scienceSodiumMathematicsStatisticsOpticsSpray dryingPhysicsOrganic chemistrySpectroscopy and Chemometric AnalysesSpectroscopy Techniques in Biomedical and Chemical ResearchIdentification and Quantification in Food