Front face fluorescence spectroscopy and multiway analysis for process control and NFC prediction in industrially processed cookies

Autor:	Vincenzo Fogliano, Lamia Ait-Ameur, Inès Birlouez Aragon, Jad Rizkallah, Alexia Hervieu, Francisco J. Morales, Mathilde Courel
Jazyk:	angličtina
Rok vydání:	2008
Předmět:	Chromatography Process Chemistry and Technology Front face fluorescence spectroscopy Analytical chemistry Generalized linear model Fluorescence Fluorescence spectroscopy PARAFAC Computer Science Applications Analytical Chemistry Maillard reaction symbols.namesake chemistry.chemical_compound Cookie Fat saturation chemistry Multiway arrays Face (geometry) symbols Process control Multi way analysis Neoformed contaminants Spectroscopy Software Hydroxymethylfurfural
Zdroj:	Chemometrics and Intelligent Laboratory Systems, 93(2), 99-107 Digital.CSIC. Repositorio Institucional del CSIC instname Chemometrics and Intelligent Laboratory Systems 93 (2008) 2
ISSN:	0169-7439
Popis:	The aim of this work was to evaluate the potential of using front face fluorescence spectroscopy for rapid quantitative estimation of neoformed contaminants in industrially processed cookies. Two dimensional synchronous front face fluorescence spectra were acquired on cookies to assess the industrial process impact on the fluorescence signal and predict the neoformed contaminants content in cookies. The signal was recorded on two types of cookies; 41 samples taken from different steps of four industrial production lines and 148 cookie samples produced from experimental baking using three different temperatures with two levels of fat saturation and two types of sugar used in the formulation. After spectral pre-treatment of the acquired front face fluorescence spectroscopy data, the multiway arrays were decomposed by means of PARAFAC models. Factors extracted from the decompositions allowed identification of the main front face fluorescence spectroscopy profiles in cookies. These included native tryptophan and riboflavin, and several fluorescence profiles attributed to fat oxidation and Maillard reaction compounds. Relative intensities of the samples fluorescence profiles were then used to discriminate critical steps in the industrial baking process and to predict the content of chromatographically measured neoformed contaminants hydroxymethylfurfural, carboxymethyllysine and acrylamide in the cookies. The effects of spectral pre-treatments on decomposition and regression results were also studied. The results show that process control and neoformed contaminants estimation in industrially processed cookies can be achieved by means of front face fluorescence spectroscopy information. © 2008 Elsevier B.V. All rights reserved. The authors would like to thank the European commission for financing this work through the ICARE project.
Databáze:	OpenAIRE
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