Detection of low molecular weight adulterants in beverages by direct analysis in real time mass spectrometry

Sisco, Edward; Dake, Jeffrey

doi:10.1039/c6ay00292g

Cited by 17 publications

(8 citation statements)

References 16 publications

(21 reference statements)

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“…DART‐MS has been used for the rapid detection of nonnarcotic adulterants such as low‐molecular‐weight alcohols, acetone, ammonium hydroxide, and sodium hypochlorite in beverages (soda, energy drinks, etc. ), 66,67 the screening of trace pesticides in different fruit juices with a lower LOD, 68 the rapid identification and quantification of phthalate plasticizers in beverages at sub‐nanogram per milliliter levels, 69 and phthalate plasticizers in beverages including various juices and tea, 70 and the sensitive and high‐throughput screening of illegally adulterated sulfonylureas in antidiabetic health‐care teas 71 (Figure 3). These studies indicate the suitability of DART‐MS for the rapid quality control analysis of beverages with regard to chemical contamination at sensitivities similar to or exceeding those of traditional confirmatory routines.…”

Section: Applications Of Dart‐ms In Different Types Of Foodsmentioning

confidence: 99%

Applications of direct analysis in real time mass spectrometry in food analysis: A review

Zhang

Ren

Chingin

2021

Rapid Comm Mass Spectrometry

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Rationale Direct analysis in real time (DART) combined with mass spectrometry (MS) detection has become one of the most broadly used analytical approaches for the direct molecular characterization of food samples with regard to their chemical quality, safety, origin, and authentication. The major advantages of DART‐MS for food analysis include high chemical sensitivity and specificity, high speed and throughput of analysis, simplicity, and the obviation of tedious sample preparation and solvents. Methods The recent applications of DART coupled with different mass analyzers, including quadrupole, ion trap, Orbitrap, and time of flight, are discussed. In addition, sample pretreatment methods that have been coupled with DART‐MS are discussed. Results We summarize the applications of DART‐MS in food science and industry published in the period from 2005 to this date. The applications and analytical characteristics are systematically categorized across the three major types of foods: solid foods, liquid foods, and viscous foods. Conclusions DART‐MS has proved its high suitability for the direct, rapid, and high‐throughput molecular analysis of very different food samples with minimal or no sample preparation, thus offering a high‐speed alternative to liquid chromatography/mass spectrometry (LC/MS) and gas chromatography/mass spectrometry (GC/MS) approaches that are traditionally employed in food analysis.

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Section: Applications Of Dart‐ms In Different Types Of Foodsmentioning

confidence: 99%

Applications of direct analysis in real time mass spectrometry in food analysis: A review

Zhang

Ren

Chingin

2021

Rapid Comm Mass Spectrometry

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“…Studies have also been completed utilizing DART-MS to analyze beverages for qualitative purposes to identify compounds of interest such as caffeine [17], phthalates [18], and gamma hydro-xybutyric acid (GHB) [19]. While the compounds of interest analyzed by DART-MS are normally higher in molecular weight than ethanol, recent work has highlighted the ability of this tool to detect low molecular weight adulterants, such as ammonia, bleach, methanol, and butanol in beverages [20]. Detection of these compounds, especially methanol, and others, such as iso-amyl alcohol, are crucial for adulteration detection [4].…”

Section: Introductionmentioning

confidence: 99%

Determination of ethanol concentration in alcoholic beverages by direct analysis in real time mass spectrometry (DART-MS)

Sisco

Robinson

2020

Forensic Chemistry

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Determination of the ethanol concentration in beverages remains an occasional request to forensic laboratories. While traditionally determined using headspace gas chromatography (HS-GC), this process involves lengthy run times and the need for specialized headspace sampling equipment for the GC system. The work presented here highlights a potential alternative to HS-GC analysis, using direct analysis in real time mass spectrometry (DART-MS). By incorporating a simple Tjunction to the orifice of the mass spectrometer, analysis of the headspace of a beverage can be completed, resulting in measurement of the ethanol concentration in a matter of seconds with greater than 99% accuracy. This work presents the development of a method for ethanol quantitation as well as results from the analysis of both ethanol reference material standards and in-house created ethanol-containing solutions to evaluate the precision and accuracy of the technique. Analysis of ethanolic beverages via DART-MS is shown to be a rapid and reliable alternative to traditional analysis by HS-GC.

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“…Adulteration of alcoholic beverages is an illegal, clandestine, and fraudulent practice that involves different fields: forensics, food safety, and quality control because it can occur at any stage of the elaboration process (Sisco & Dake, 2016). Alcoholic beverages are adulterated by substituting or diluting the original liquid with other of lesser quality like water, ethanol, or methanol.…”

Section: Introductionmentioning

confidence: 99%

Quantification of adulterants in mezcal by means of FT-MIR and FT-NIR spectroscopy coupled to multivariate analysis

Arenas

Meza-Márquez

Velázquez-Hernández³

et al. 2020

CyTA - Journal of Food

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Mezcal is an alcoholic beverage with a high commercial value and is often adulterated to obtain economical profit, however, adulteration is an illegal practice that can damage consumer's health. FT-MIR and FT-NIR spectroscopy along with multivariate analysis were used to quantify adulterants (water, ethanol, methanol) in three mezcal classes (white, rested, aged). Calibration models were constructed using principal component regression (PCR), partial least squares with single y-variable (PLS1) and partial least squares with multiple y-variables (PLS2) algorithms. The PLS2 showed the best predictive results for FT-MIR (R 2 = 0.9579-0.9895); and PLS1 for FT-NIR (R 2 = 0.9401-0.9665). The predictions of models were compared to gas chromatography with flame ionization detector (GC-FID) and no significant difference was found (p ≤ 0.05). Results show that the authenticity of mezcal can be verified through FT-MIR and FT-NIR spectroscopy coupled to multivariate analysis because it is reliable and fast (as compared to GC-FID). Cuantificación de adulterantes en mezcal mediante espectroscopia FT-MIR y FT-NIR acoplada al análisis multivariante RESUMEN El mezcal es una bebida alcohólica con alto valor comercial que comúnmente se adultera para obtener beneficios económicos, sin embargo, esto es ilegal y puede dañar la salud de los consumidores. FT-MIR y FT-NIR junto con el análisis multivariante se utilizó para cuantificar adulterantes (agua, etanol, metanol) en tres clases de mezcal (blanco, reposado, añejo). Los modelos de calibración se construyeron con los algoritmos de Regresión de Componentes Principales (PCR), Mínimos Cuadrados Parciales con una variable (PLS1) y Mínimos Cuadrados Parciales con múltiples variables (PLS2). PLS2 mostró las mejores predicciones en FT-MIR (R 2 = 0.9579-0.9895); y PLS1 en FT-NIR (R 2 = 0.9401-0.9665). Los resultados se compararon con cromatografía de gases con detector de ionización de llama (CG-FID) y no presentaron diferencia significativa (p ≤ 0.05). La autenticidad del mezcal se puede verificar con FT-MIR y FT-NIR acoplada al análisis multivariante ya que es confiable y rápida (en comparación con CG-FID).

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Detection of low molecular weight adulterants in beverages by direct analysis in real time mass spectrometry

Cited by 17 publications

References 16 publications

Applications of direct analysis in real time mass spectrometry in food analysis: A review

Applications of direct analysis in real time mass spectrometry in food analysis: A review

Determination of ethanol concentration in alcoholic beverages by direct analysis in real time mass spectrometry (DART-MS)

Quantification of adulterants in mezcal by means of FT-MIR and FT-NIR spectroscopy coupled to multivariate analysis

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