Assessment of Two-Dimensional Separative Systems Using Nearest-Neighbor Distances Approach. Part 1: Orthogonality Aspects

Nowik, Witold; Héron, Sylvie; Bonose, Myriam; Nowik, Mateusz; Tchapla, Alain

doi:10.1021/ac4012705

Cited by 31 publications

(44 citation statements)

References 63 publications

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“…Used column setup was a polar column followed by a medium polar column, recommended by a previous study (Welke et al 2012 ).Considered independent variables were column flow, temperature program, 2nd oven temperature offset, modulation temperature offset, modulation time, hot pulse time (% of the entire modulation time). The dependent variable was the median value of Nearest Neighbor Distance (NND) (Nowik et al 2013 ), which is calculated only based on the annotated peaks. Modulation time was adjusted to avoid the wrap around phenomena.…”

Section: Methodsmentioning

confidence: 99%

On sample preparation methods for fermented beverage VOCs profiling by GCxGC-TOFMS

et al. 2020

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Introduction Aromas and tastes have crucial influences on the quality of fermented beverages. The determination of aromatic compounds requires global non-targeted profiling of the volatile organic compounds (VOCs) in the beverages. However, experimental VOC profiling result depends on the chosen VOC collection method. Objectives This study aims to observe the impact of using different sample preparation techniques [dynamic headspace (DHS), vortex-assisted liquid–liquid microextraction (VALLME), multiple stir bar sorptive extraction (mSBSE), solid phase extraction (SPE), and solid phase micro-extraction (SPME)] to figure out the most suitable sample preparation protocol for profiling the VOCs from fermented beverages. Methods Five common sample preparation methods were studied with beer, cider, red wine, and white wine samples. After the sample preparation, collected VOCs were analyzed by two-dimensional gas chromatography coupled with time of flight mass spectrometry (GCxGC-TOFMS). Results GCxGC oven parameters can be optimized with the Box–Behnken surface response model and response measure on peak dispersion. Due to the unavoidable column and detector saturation during metabolomic analysis, errors may happen during mass spectrum construction. Profiling results obtained with different sample preparation methods show considerable variance. Common findings occupy a small fraction of total annotated VOCs. For known fermentative aromas, best coverage can be reached by using SPME together with SPE for beer, and VALLME for wine and cider. Conclusions GCxGC-TOFMS is a promising tool for non-targeted profiling on VOCs from fermented beverages. However, a proper data processing protocol is lacking for metabolomic analysis. Each sample preparation method has a specific profiling spectrum on VOC profiling. The coverage of the VOC metabolome can be improved by combining complementary methods.

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Section: Methodsmentioning

confidence: 99%

On sample preparation methods for fermented beverage VOCs profiling by GCxGC-TOFMS

et al. 2020

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“…Due to the lack of flexibility in 'tweaking' the carrier gas phase, approaching the analysis by employing suitable 'orthogonality' of stationary phase dimensions can achieve maximum resolution for aroma analysis. Although various evaluations of stationary phase orthogonality based on the 2D plot results has been reported [98][99][100], but not discussed at length here, progress in the understanding of orthogonality at the level of detailed molecular parameters is still intriguing.…”

Section: Conclusion and Future Outlookmentioning

confidence: 96%

Review of the role and methodology of high resolution approaches in aroma analysis

Chin

Marriott

2015

Analytica Chimica Acta

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“…A series of different methods to quantify orthogonality has been developed. Examples include information theory [250], convex-hull strategies [251], bin-counting approaches [252], home-range theory [253], conditional entropy [254], and nearest-neighbour distances [255]. Comparative studies were conducted by Gilar et al [256] and later by Schure and Davis [257].…”

Section: Quality Descriptorsmentioning

confidence: 99%

“…Study on the performance of resolution criterion to characterize complex chromatograms 1D separations 2017 [277] A chromatographic objective function to characterize chromatograms, peak prominence 1D separations 2015 [276] Assessment of 2D separative systems using the nearest neighbour distances approach. Part 2: Separation quality aspect 2D separations 2013 [255] Universal comparison of CRFs LC 2014 [232] A new CRF for assessing the separation quality in LC × LC LC × LC 2012 [99] CRFs in 1D and 2D chromatography as tools for assessing chemical complexity Review 2013 [279] Stationary phase selection…”

Section: Title Subcategory Year Referencementioning

confidence: 99%

Recent applications of chemometrics in one‐ and two‐dimensional chromatography

Bos

Knol

Molenaar

et al. 2020

J of Separation Science

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The proliferation of increasingly more sophisticated analytical separation systems, often incorporating increasingly more powerful detection techniques, such as highresolution mass spectrometry, causes an urgent need for highly efficient dataanalysis and optimization strategies. This is especially true for comprehensive twodimensional chromatography applied to the separation of very complex samples. In this contribution, the requirement for chemometric tools is explained and the latest developments in approaches for (pre-)processing and analyzing data arising from oneand two-dimensional chromatography systems are reviewed. The final part of this review focuses on the application of chemometrics for method development and optimization.

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Assessment of Two-Dimensional Separative Systems Using Nearest-Neighbor Distances Approach. Part 1: Orthogonality Aspects

Cited by 31 publications

References 63 publications

On sample preparation methods for fermented beverage VOCs profiling by GCxGC-TOFMS

On sample preparation methods for fermented beverage VOCs profiling by GCxGC-TOFMS

Review of the role and methodology of high resolution approaches in aroma analysis

Recent applications of chemometrics in one‐ and two‐dimensional chromatography

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