Robust Fourier transformed infrared spectroscopy coupled with multivariate methods for detection and quantification of urea adulteration in fresh milk samples

被引:18
作者
Mabood, Fazal [1 ]
Ali, Liaqat [2 ]
Boque, Ricard [3 ]
Abbas, Ghulam [1 ]
Jabeen, Farah [4 ]
Haq, Quazi Mohammad Imranul [1 ]
Hussain, Javid [1 ]
Hamaed, Ahmed Moahammed [1 ]
Naureen, Zakira [1 ]
Al-Nabhani, Mahmood [1 ]
Khan, Mohammed Ziauddin [1 ]
Khan, Ajmal [5 ]
Al-Harrasi, Ahmed [5 ]
机构
[1] Univ Nizwa, Coll Arts & Sci, Dept Biol Sci & Chem, Nizwa, Oman
[2] Univ Sargodha, Dept Chem, Mianwali, Pakistan
[3] Univ Rovira & Virgili, Dept Analyt Chem & Organ Chem, Tarragona, Spain
[4] Univ Malakand, Dept Chem, Malakand, Pakistan
[5] Univ Nizwa, UoN Chair Omans Med Plants & Marine Nat Prod, Nizwa, Oman
来源
FOOD SCIENCE & NUTRITION | 2020年 / 8卷 / 10期
关键词
milk adulteration; NIR spectroscopy; partial least-squares discriminant analysis; partial least-squares regressions; principal components analysis; urea; RAW-MILK; MELAMINE; BIOSENSOR; IDENTIFICATION; AUTHENTICITY; COWS;
D O I
10.1002/fsn3.987
中图分类号
TS2 [食品工业];
学科分类号
0832 ;
摘要
Urea is added as an adulterant to give milk whiteness and increase its consistency for improving the solid not fat percentage, but the excessive amount of urea in milk causes overburden and kidney damages. Here, an innovative sensitive methodology based on near-infrared spectroscopy coupled with multivariate analysis has been proposed for the robust detection and quantification of urea adulteration in fresh milk samples. In this study, 162 fresh milk samples were used, those consisting 20 nonadulterated samples (without urea) and 142 with urea adulterant. Eight different percentage levels of urea adulterant, that is, 0.10%, 0.30%, 0.50%, 0.70%, 0.90%, 1.10%, 1.30%, and 1.70%, were prepared, each of them prepared in triplicates. A Frontier NIR spectrophotometer (BSEN60825-1:2007) by Perkin Elmer was used for scanning the absorption of each sample in the wavenumber range of 10,000-4,000 cm(-1), using 0.2 mm path length CaF2 sealed cell at resolution of 2 cm(-1). Principal components analysis (PCA), partial least-squares discriminant analysis (PLS-DA), and partial least-squares regressions (PLSR) methods were applied for the multivariate analysis of the NIR spectral data collected. PCA was used to reduce the dimensionality of the spectral data and to explore the similarities and differences among the fresh milk samples and the adulterated ones. PLS-DA also showed the discrimination between the nonadulterated and adulterated milk samples. The R-square and root mean square error (RMSE) values obtained for the PLS-DA model were 0.9680 and 0.08%, respectively. Furthermore, PLSR model was also built using the training set of NIR spectral data to make a regression model. For this PLSR model, leave-one-out cross-validation procedure was used as an internal cross-validation criteria and the R-square and the root mean square error (RMSE) values for the PLSR model were found as 0.9800 and 0.56%, respectively. The PLSR model was then externally validated using a test set. The root means square error of prediction (RMSEP) obtained was 0.48%. The present proposed study was intended to contribute toward the development of a robust, sensitive, and reproducible method to detect and determine the urea adulterant concentration in fresh milk samples.
引用
收藏
页码:5249 / 5258
页数:10
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