Direct injection high performance liquid chromatography coupled to data independent acquisition mass spectrometry for the screening of antibiotics in honey

Direct injection high performance liquid chromatography coupled to data independent acquisition mass spectrometry for the screening of antibiotics in honey

The targeted analysis of veterinary drug residues in honey traditionally involves a series of extraction and purification steps prior to quantification with high performance liquid chromatography coupled to high resolution or tandem mass spectrometry. These steps, designed to separate the target ana...

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Main Authors: Annie von Eyken, Daniel Furlong, Samareh Arooni, Fred Butterworth, Jean-François Roy, Jerry Zweigenbaum, Stéphane Bayen
Format: Article
Language:English
Published: Elsevier 2019-07-01
Series:Journal of Food and Drug Analysis
Online Access:http://www.sciencedirect.com/science/article/pii/S1021949819300134
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spelling doaj-6bf97ee0070e4637b3f0e2de6972e0c72020-11-25T01:20:32ZengElsevierJournal of Food and Drug Analysis1021-94982019-07-01273679691Direct injection high performance liquid chromatography coupled to data independent acquisition mass spectrometry for the screening of antibiotics in honeyAnnie von Eyken0Daniel Furlong1Samareh Arooni2Fred Butterworth3Jean-François Roy4Jerry Zweigenbaum5Stéphane Bayen6Department of Food Science and Agricultural Chemistry, McGill University, CanadaDepartment of Food Science and Agricultural Chemistry, McGill University, CanadaDepartment of Food Science and Agricultural Chemistry, McGill University, CanadaCalgary Laboratory, Canadian Food Inspection Agency (CFIA), Calgary, AB, CanadaAgilent Technologies, Saint-Laurent, QC, CanadaAgilent Technologies, Wilmington, DE, USADepartment of Food Science and Agricultural Chemistry, McGill University, Canada; Corresponding author. Department of Food Science and Agricultural Chemistry, McGill University, 21111 Lakeshore, Ste-Anne-de-Bellevue, Quebec, H9X 3V9, Canada. Fax: +1 (514) 398 7977.The targeted analysis of veterinary drug residues in honey traditionally involves a series of extraction and purification steps prior to quantification with high performance liquid chromatography coupled to high resolution or tandem mass spectrometry. These steps, designed to separate the target analytes from interferences, are generally time-consuming and costly. In addition, traditional cleanup steps are likely to eliminate other compounds whose analysis could prove decisive in current or future assessment of the honey sample. Alternatively, direct injection without complex sample preparation steps has been introduced for the fast analysis of trace compounds in environmental and food matrices. The aim of this study was to develop a rapid method for the targeted analysis of 7 key veterinary drug residues in honey based on direct injection high performance liquid chromatography coupled to quadrupole time-of-flight, while simultaneously recording data-independent MS/MS (e.g. All Ions MS/MS data) for future re-examination of the data for other purposes. The new method allowed for the detection of the target residues at levels approximately 20–100 times lower than current regulatory limits, for a total analysis time of about 45 min. The recoveries (103–119%), the linearity (R ≥ 0.996) and the repeatability (RSD ≤ 7%) were satisfactory. The method was then applied to 35 honey samples from the Canadian market. Residues of tylosin A, tylosin B, sulfamethazine and sulfadimethoxine were detected in 6, 9, 6 and 23% of the samples respectively, at levels below the regulatory limits in Canada. The possibility of adding a hydrolysis step to study sulfonamides in honey was tested, which provided good results for this family of compounds but lead to degradation of some of the other analytes. Finally, the non-targeted identification of several compounds was demonstrated as a proof of concept of future re-examination of All Ions MS/MS data. This paper illustrates the capacity of this novel method to combine targeted and non-targeted screening of chemical residues in honey. Keywords: Veterinary drugs, HPLC-Q-TOF-MS, Honey, Direct injectionhttp://www.sciencedirect.com/science/article/pii/S1021949819300134
collection DOAJ
language English
format Article
sources DOAJ
author Annie von Eyken
Daniel Furlong
Samareh Arooni
Fred Butterworth
Jean-François Roy
Jerry Zweigenbaum
Stéphane Bayen
spellingShingle Annie von Eyken
Daniel Furlong
Samareh Arooni
Fred Butterworth
Jean-François Roy
Jerry Zweigenbaum
Stéphane Bayen
Direct injection high performance liquid chromatography coupled to data independent acquisition mass spectrometry for the screening of antibiotics in honey
Journal of Food and Drug Analysis
author_facet Annie von Eyken
Daniel Furlong
Samareh Arooni
Fred Butterworth
Jean-François Roy
Jerry Zweigenbaum
Stéphane Bayen
author_sort Annie von Eyken
title Direct injection high performance liquid chromatography coupled to data independent acquisition mass spectrometry for the screening of antibiotics in honey
title_short Direct injection high performance liquid chromatography coupled to data independent acquisition mass spectrometry for the screening of antibiotics in honey
title_full Direct injection high performance liquid chromatography coupled to data independent acquisition mass spectrometry for the screening of antibiotics in honey
title_fullStr Direct injection high performance liquid chromatography coupled to data independent acquisition mass spectrometry for the screening of antibiotics in honey
title_full_unstemmed Direct injection high performance liquid chromatography coupled to data independent acquisition mass spectrometry for the screening of antibiotics in honey
title_sort direct injection high performance liquid chromatography coupled to data independent acquisition mass spectrometry for the screening of antibiotics in honey
publisher Elsevier
series Journal of Food and Drug Analysis
issn 1021-9498
publishDate 2019-07-01
description The targeted analysis of veterinary drug residues in honey traditionally involves a series of extraction and purification steps prior to quantification with high performance liquid chromatography coupled to high resolution or tandem mass spectrometry. These steps, designed to separate the target analytes from interferences, are generally time-consuming and costly. In addition, traditional cleanup steps are likely to eliminate other compounds whose analysis could prove decisive in current or future assessment of the honey sample. Alternatively, direct injection without complex sample preparation steps has been introduced for the fast analysis of trace compounds in environmental and food matrices. The aim of this study was to develop a rapid method for the targeted analysis of 7 key veterinary drug residues in honey based on direct injection high performance liquid chromatography coupled to quadrupole time-of-flight, while simultaneously recording data-independent MS/MS (e.g. All Ions MS/MS data) for future re-examination of the data for other purposes. The new method allowed for the detection of the target residues at levels approximately 20–100 times lower than current regulatory limits, for a total analysis time of about 45 min. The recoveries (103–119%), the linearity (R ≥ 0.996) and the repeatability (RSD ≤ 7%) were satisfactory. The method was then applied to 35 honey samples from the Canadian market. Residues of tylosin A, tylosin B, sulfamethazine and sulfadimethoxine were detected in 6, 9, 6 and 23% of the samples respectively, at levels below the regulatory limits in Canada. The possibility of adding a hydrolysis step to study sulfonamides in honey was tested, which provided good results for this family of compounds but lead to degradation of some of the other analytes. Finally, the non-targeted identification of several compounds was demonstrated as a proof of concept of future re-examination of All Ions MS/MS data. This paper illustrates the capacity of this novel method to combine targeted and non-targeted screening of chemical residues in honey. Keywords: Veterinary drugs, HPLC-Q-TOF-MS, Honey, Direct injection
url http://www.sciencedirect.com/science/article/pii/S1021949819300134
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