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H-NMR Analysis of Wine Metabolites: Method Development and Validation
by
Dubernet, Matthieu
, Deborde, Catherine
, Richard, Tristan
, Jacob, Daniel
, Gaudin, Karen
, Boulet, Jean-Claude
, Watson, Flynn
, Butelle, Rémi
, Gaillard, Laetitia
, Kurkiewicz, Lou-Ann
, Gossé, Alexandra
, Herderich, Markus
, Moing, Annick
, Leleu, Guillaume
, Rosset, Sophie
, Da Costa, Gregory
, Galvan, Antoine
in
Backup software
/ Esters
/ Fraud
/ Metabolites
/ Methods
/ Nuclear magnetic resonance spectroscopy
/ Organic acids
2026
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H-NMR Analysis of Wine Metabolites: Method Development and Validation
by
Dubernet, Matthieu
, Deborde, Catherine
, Richard, Tristan
, Jacob, Daniel
, Gaudin, Karen
, Boulet, Jean-Claude
, Watson, Flynn
, Butelle, Rémi
, Gaillard, Laetitia
, Kurkiewicz, Lou-Ann
, Gossé, Alexandra
, Herderich, Markus
, Moing, Annick
, Leleu, Guillaume
, Rosset, Sophie
, Da Costa, Gregory
, Galvan, Antoine
in
Backup software
/ Esters
/ Fraud
/ Metabolites
/ Methods
/ Nuclear magnetic resonance spectroscopy
/ Organic acids
2026
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Do you wish to request the book?
H-NMR Analysis of Wine Metabolites: Method Development and Validation
by
Dubernet, Matthieu
, Deborde, Catherine
, Richard, Tristan
, Jacob, Daniel
, Gaudin, Karen
, Boulet, Jean-Claude
, Watson, Flynn
, Butelle, Rémi
, Gaillard, Laetitia
, Kurkiewicz, Lou-Ann
, Gossé, Alexandra
, Herderich, Markus
, Moing, Annick
, Leleu, Guillaume
, Rosset, Sophie
, Da Costa, Gregory
, Galvan, Antoine
in
Backup software
/ Esters
/ Fraud
/ Metabolites
/ Methods
/ Nuclear magnetic resonance spectroscopy
/ Organic acids
2026
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H-NMR Analysis of Wine Metabolites: Method Development and Validation
Journal Article
H-NMR Analysis of Wine Metabolites: Method Development and Validation
2026
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Overview
Wine, as a high-value product, is vulnerable to counterfeiting. To tackle increasingly sophisticated fraud, innovative analytical approaches are required. However, they must undergo rigorous validation. Proton nuclear magnetic resonance spectroscopy ([sup.1]H-NMR) is intrinsically quantitative, reproducible, and fast, making it a promising tool for official control. This study presents the development and validation of a standardised and fully automated workflow for the quantification of 20 oenologically relevant compounds, including organic acids, sugars, alcohols, esters, phenolics, and an alkaloid. The method combines optimised sample preparation, external quantification standards, spectrometer calibration, and a dedicated R package (RnmrQuant1D) for fully automated spectral processing, enabling high-throughput and operator-independent analysis. Validation was performed under intermediate precision according to OIV metrological standards, evaluating accuracy, precision, robustness, limits of quantification, and measurement uncertainty. The results demonstrated excellent linearity, trueness, and reproducibility, matching the targeted analytical performance. Measurement uncertainties were estimated both by conventional linear modelling and by a dynamic approach better suited to detection limits. The workflow is easy to implement, requires minimal sample consumption, and substantially reduces operator bias. Beyond validating a robust method, this study provides a framework for harmonised, transferable [sup.1]H-NMR workflows that could support large-scale databases, integration with chemometric models, and ultimately, [sup.1]H-NMR’s recognition as a relevant method for wine authentication and quality control. This work fills a crucial gap in wine analysis by uniting practical application and rigorous methods, enabling broader adoption in control laboratories worldwide.
Publisher
MDPI AG
Subject
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