A liquid chromatographic method optimization for the assessment of low and high molar mass carbonyl compounds in wines

Azevedo, Luciana Cavalcante de; Reis, Marina M.; Pereira, G. E.; Rocha, Gisele O. da; Silva, Luciana da; Andrade, Jaílson Bittencourt de

doi:10.1002/jssc.200900281

Cited by 13 publications

(8 citation statements)

References 25 publications

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“…Oxidized wine is characterized by color and aroma deterioration, − such as the formation of brown pigments, the loss of desirable fruity attributes, , and the generation of undesirable oxidation-related odorants, such as carbonyl compounds and, in particular, aldehydes . Depending on their molecular structure and concentration, aldehydes can give either pleasant or undesirable nuances to wine, generally described as hay, old wood, papery, fusel, farm-feed, and cooked vegetables . Acetaldehyde (apple/woody), methional (boiled vegetable/rotten potato), and phenylacetaldehyde (honey) are important examples of aldehyde compounds with the potential to induce off-flavors.…”

Section: Introductionmentioning

confidence: 99%

Rapid Quantitation of 12 Volatile Aldehyde Compounds in Wine by LC-QQQ-MS: A Combined Measure of Free and Hydrogen-Sulfite-Bound Forms

Zhang

Kontoudakis

Clark

2019

J. Agric. Food Chem.

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This work outlines a rapid novel methodology for the direct quantitation of 12 volatile aldehyde compounds related to oxidative off-flavors in wine, by measuring the combined free and hydrogen-sulfite-bound forms of each aldehyde compound, consisting of four general aldehydes, four Strecker aldehydes, and four (E)-2-alkenals. The methodology requires minimal preparation of wine samples: the addition of internal standards and 6 g/L sulfur dioxide, and filtration prior to quantitation by liquid chromatography-triple quadrupole-mass spectrometery. Overall, the limit of detection, limit of quantification, accuracy (recovery, 97−114%), and precision (repeatability and reproducibility, RSD ≤ 10%) were satisfactory to enable routine measurement of the 12 aldehyde compounds in wine. The methodology was applied to 20 commercial white and red wines from various varieties and vintages. A general trend of higher concentrations of the aldehyde compounds in white wines compared to red wines was observed.

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Section: Introductionmentioning

confidence: 99%

Rapid Quantitation of 12 Volatile Aldehyde Compounds in Wine by LC-QQQ-MS: A Combined Measure of Free and Hydrogen-Sulfite-Bound Forms

Zhang

Kontoudakis

Clark

2019

J. Agric. Food Chem.

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“…They are frequently cited as volatile organic compounds in wines that can play a major role in the aroma character of fermented beverages [4]. In some cases, the levels of these compounds in beverages can be an indicator of deterioration caused by pasteurization, storage or even an indicator of contamination [5].…”

Section: Introductionmentioning

confidence: 99%

“…Depending on their concentration and structure, these carbonyls can contribute pleasant or undesirable notes to wine and other fermented beverages [4,9]. For instance, the saturated shortchain aldehydes significantly affect overall flavor, contributing notes such as nutty, bruised apples, herbaceous, grassy, green, fatty, fruity and pungent [10], while the significance of acetaldehyde to wine aroma is questionable, as no correlation was found between this oxidation product and oxidation flavors in young white wines [11].…”

Section: Introductionmentioning

confidence: 99%

A rapid, one step preparation for measuring selected free plus SO 2 -bound wine carbonyls by HPLC-DAD/MS

Han

Wang

Webb

et al. 2015

Talanta

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“…For liquid chromatography (LC) the most used derivatisation reagent is 2,4-dinitrophenylhydrazine (DNPH) which improves the UV absorption coefficient of aldehydes and their hydrophobic retention, so they can be easily separated by reverse phase LC and detected by UV spectrophotometry [15]. In contrast to what is previously stated for GC analysis, usually no extraction of aldehydes from wines is performed for LC determinations, i.e., derivatisation is carried out insample, and the mixture is directly injected in the chromatographic system [14, 18,19].…”

Section: Introductionmentioning

confidence: 99%

“…But when the pH is set below pH 1 (pK a1 01.85) or above pH 8 (pK a2 0 7.2) [13], sulphites are mainly present in other forms (SO 2 and SO 3 2− , respectively), and the adduct bond is broken. Accordingly, for the analysis of total content of AA present in the samples, a hydrolysis step should be performed [14,15]. Whilst above pH 10 a small percentage of HSO 3 − is still present, it is recommended to use higher pH values to guarantee a total dissociation of the species [16].…”

Section: Introductionmentioning

confidence: 99%

Application of gas-diffusion microextraction to the analysis of free and bound acetaldehyde in wines by HPLC–UV and characterization of the extracted compounds by MS/MS detection

et al. 2011

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In wines, the presence of high levels of acetaldehyde (AA) not only is responsible for undesirable characteristic odours but can also cause health adverse effects. Such sensorial activity of AA can be overcome by adding sulphites during winemaking, due to the formation of adducts between AA and sulphites, which lower the sensorial impact of AA. Nevertheless, bound AA can be released during wine storage; therefore, the knowledge of its total amount can be important to estimate the long-term wine quality. The proposed methodology is based on the extraction of AA from wines using gas-diffusion microextraction and determination by liquid chromatography. Free and bound forms of AA could be differentiated and determined using an alkaline hydrolysis step to dissociate the sulphites-AA adducts. This methodology was successfully applied to different wine types, with free AA values ranging between 5 and 26 mg L(-1) and total form between 154 and 906 mg L(-1). Bound AA was above 90% of the total content determined for all samples analysed, and higher amounts were obtained for white wines (around 98%). Other carbonyl compounds were also identified in the extracts using mass spectrometry.

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A liquid chromatographic method optimization for the assessment of low and high molar mass carbonyl compounds in wines

Cited by 13 publications

References 25 publications

Rapid Quantitation of 12 Volatile Aldehyde Compounds in Wine by LC-QQQ-MS: A Combined Measure of Free and Hydrogen-Sulfite-Bound Forms

Rapid Quantitation of 12 Volatile Aldehyde Compounds in Wine by LC-QQQ-MS: A Combined Measure of Free and Hydrogen-Sulfite-Bound Forms

A rapid, one step preparation for measuring selected free plus SO 2 -bound wine carbonyls by HPLC-DAD/MS

Application of gas-diffusion microextraction to the analysis of free and bound acetaldehyde in wines by HPLC–UV and characterization of the extracted compounds by MS/MS detection

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