Multi-Target Analysis and Suspect Screening of Xenobiotics in Milk by UHPLC-HRMS/MS

Musatadi, Mikel; González-Gaya, Belén; Irazola, Mireia; Prieto, Ailette; Etxebarria, Néstor; Olivares, Maitane; Zuloaga, Olatz

doi:10.3390/separations8020014

Cited by 19 publications

(5 citation statements)

References 52 publications

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“…As shown in Table S1, UHPLC-Q/Orbitrap HRMS analysis based on databases (mzCloud, mzVault) and reference literature identified 87 compounds from the extract of truffles, among which 67 were identified in positive ion mode and 20 were identified in negative ion mode. The identified components contained 16 amino acids, 26 organic acids, 18 nucleosides, four amides, eight alkaloids, and 15 other types of compounds [13,15,[17][18][19][20][21][22][23][24][25][26][27][28][29][30][31][32][33][34][35]. (The total ion chromatograms, acquired within both the positive and negative ionization modes from truffle sample extracts, are displayed in Figure 1).…”

Section: Identification Of the Chemical Compounds In Trufflesmentioning

confidence: 99%

Comparative study of characteristic compounds of three species of truffle

et al. 2023

J of Separation Science

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The Panxi area in Sichuan Province is the main area for the production of truffles in China, and several species of truffle are known to exist in this region. Nevertheless, it is unclear what the differences in chemical composition between the truffles are. Using an ultra‐high‐performance liquid chromatography quadrupole/orbitrap high‐resolution mass spectrometry coupled with Compound Discoverer 3.0, we identified chemical components in three mainly known truffles from the Panxi region. Further analysis of chemical composition differences was conducted using principal component analysis, and orthogonal partial least squares discriminant analysis. Note that, 78.9% of the variance was uncovered by the principal component analysis model. As a result of the orthogonal partial least squares discriminant analysis model, the three species of truffles (Tuber pesudohimalayense, Tuber indicum, and Tuber sinense) from Panxi were better discriminated, with R2X, R2Y, and Q2 being 0.821, 0.993, and 0.947, respectively. In this study, 87 components were identified. T. pesudohimalayense contained significantly higher levels of nine different compounds than the other two species. Hence, it was possible to identify similarities and differences between three species of truffles from Panxi in terms of chemical composition. This can be used as a basis for quality control.

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Section: Identification Of the Chemical Compounds In Trufflesmentioning

confidence: 99%

Comparative study of characteristic compounds of three species of truffle

et al. 2023

J of Separation Science

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“…The only difference was the absence of the column used for filtering the mobile phase due to steric inconveniences in the loop. Regarding qOrbitrap operating conditions, they were set according to the experience of the research group without further optimisation [43] and are detailed in Sect. 2.3.1 in SI.…”

Section: Uhplc-hesi-hrms/ms Analysismentioning

confidence: 99%

“…In summary, in the case of pure standards, only 9.6% of the compounds (8 out of 83) could be considered false negatives using the established criteria, while 12.5% of the analytes included in the target method were not screened (3 out of 24). As for the calculation of iLOIs in human matrices, it is worth mentioning that there is a huge gap in the literature in that area [43], since LOIs have been mainly calculated in environmental matrices. The absence of LOIs in human matrices confirms the lack of harmonization in QC/QA measurements in STNS, as it has been previously stated by other experts in the field [39].…”

Section: Instrumental Limits Of Identificationmentioning

confidence: 99%

From target analysis to suspect and non-target screening of endocrine-disrupting compounds in human urine

et al. 2022

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In the present work, a target analysis method for simultaneously determining 24 diverse endocrine-disrupting compounds (EDCs) in urine (benzophenones, bisphenols, parabens, phthalates and antibacterials) was developed. The target analysis approach (including enzymatic hydrolysis, clean-up by solid-phase extraction and analysis by liquid chromatography coupled to tandem mass spectrometry (LC–MS/MS)) was optimized, validated and applied to volunteers’ samples, in which 67% of the target EDCs were quantified. For instance, benzophenone-3 (0.2–13 ng g−1), bisphenol A (7.7–13.7 ng g−1), methyl 3,5-dihydroxybenzoate (8–254 ng g−1), mono butyl phthalate (2–17 ng g−1) and triclosan (0.3–9 ng g−1) were found at the highest concentrations, but the presence of other analogues was detected as well. The developed target method was further extended to suspect and non-target screening (SNTS) by means of LC coupled to high-resolution MS/MS. First, well-defined workflows for SNTS were validated by applying the previously developed method to an extended list of compounds (83), and then, to the same real urine samples. From a list of approximately 4000 suspects, 33 were annotated at levels from 1 to 3, with food additives/ingredients and personal care products being the most abundant ones. In the non-target approach, the search was limited to molecules containing S, Cl and/or Br atoms, annotating 4 pharmaceuticals. The results from this study showed that the combination of the lower limits of detection of MS/MS and the identification power of high-resolution MS/MS is still compulsory for a more accurate definition of human exposome in urine samples. Graphical abstract

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“…The potential of the combination of target and untargeted analysis using UHPLC-MS with a Q-orbitrap as the analyzer was described and demonstrated by Musatadi et al [9] for the analysis of xenobiotics in very complex matrices, such as commercial and breast milk.…”

Section: Special Issue Summarymentioning

confidence: 99%