From smartphone lateral flow ummunoassay screening to direct MS analysis: Development and validation of a semi-quantitative direct analysis in real-time mass spectrometric (DART-MS) approach to the analysis of deoxynivalenol.

From smartphone lateral flow ummunoassay screening to direct MS analysis: Development and validation of a semi-quantitative direct analysis in real-time mass spectrometric (DART-MS) approach to the analysis of deoxynivalenol.

In current food safety monitoring, lateral flow immunoassays (LFIAs) are widely used for rapid food contaminant screening. Recent advances include smartphone readouts, offering semi-quantitative analysis of LFIAs with time, location, and data transfer in case of on-site testing. Following the screening, the next step in the EU regulations is confirmation by, e.g., liquid chromatography-tandem mass spectrometry (LC-MS/MS). In this work, using direct analysis in real time ambient ionization and triple quadrupole MS/MS (DART-QqQ-MS/MS), we achieved rapid confirmation of the identity of the substance(s) causing the LFIA result. In the workflow proposed, an individual performs the (on-site) smartphone LFIA screening, and when the result is suspect, an identification LFIA (ID-LFIA) strip is developed with the same sample extract. The ID-LFIA can be dissociated and rapidly analyzed in a control laboratory with DART-QqQ-MS/MS. The ID-LFIA consists of multiple lines of monoclonal antibodies against the mycotoxin deoxynivalenol, acting as a bioaffinity trap. The ID-LFIA/DART-QqQ-MS/MS approach has been developed and validated, along with the screening smartphone LFIA, and has demonstrated its applicability by analyzing incurred and spiked samples. The developed approach has been critically compared with our previous direct electrospray ionization MS method and was found to provide highly complementary information on the total deoxynivalenol contamination in the sample.

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Bibliographic Details
Main Authors: Geballa Koukoula, A., Gerssen, A., Nielen, M.W.F.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Biorecognition, Confirmatory analysis, DART, Direct analysis in real time, Lateral flow immunoassay, Mass spectrometry, Mycotoxins,
Online Access:https://research.wur.nl/en/publications/from-smartphone-lateral-flow-ummunoassay-screening-to-direct-ms-a
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spelling dig-wur-nl-wurpubs-5800962024-10-02 Geballa Koukoula, A. Gerssen, A. Nielen, M.W.F. Article/Letter to editor Sensors 21 (2021) 5 ISSN: 1424-8220 From smartphone lateral flow ummunoassay screening to direct MS analysis: Development and validation of a semi-quantitative direct analysis in real-time mass spectrometric (DART-MS) approach to the analysis of deoxynivalenol. 2021 In current food safety monitoring, lateral flow immunoassays (LFIAs) are widely used for rapid food contaminant screening. Recent advances include smartphone readouts, offering semi-quantitative analysis of LFIAs with time, location, and data transfer in case of on-site testing. Following the screening, the next step in the EU regulations is confirmation by, e.g., liquid chromatography-tandem mass spectrometry (LC-MS/MS). In this work, using direct analysis in real time ambient ionization and triple quadrupole MS/MS (DART-QqQ-MS/MS), we achieved rapid confirmation of the identity of the substance(s) causing the LFIA result. In the workflow proposed, an individual performs the (on-site) smartphone LFIA screening, and when the result is suspect, an identification LFIA (ID-LFIA) strip is developed with the same sample extract. The ID-LFIA can be dissociated and rapidly analyzed in a control laboratory with DART-QqQ-MS/MS. The ID-LFIA consists of multiple lines of monoclonal antibodies against the mycotoxin deoxynivalenol, acting as a bioaffinity trap. The ID-LFIA/DART-QqQ-MS/MS approach has been developed and validated, along with the screening smartphone LFIA, and has demonstrated its applicability by analyzing incurred and spiked samples. The developed approach has been critically compared with our previous direct electrospray ionization MS method and was found to provide highly complementary information on the total deoxynivalenol contamination in the sample. en application/pdf https://research.wur.nl/en/publications/from-smartphone-lateral-flow-ummunoassay-screening-to-direct-ms-a 10.3390/s21051861 https://edepot.wur.nl/543094 Biorecognition Confirmatory analysis DART Direct analysis in real time Lateral flow immunoassay Mass spectrometry Mycotoxins https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Biorecognition
Confirmatory analysis
DART
Direct analysis in real time
Lateral flow immunoassay
Mass spectrometry
Mycotoxins
Biorecognition
Confirmatory analysis
DART
Direct analysis in real time
Lateral flow immunoassay
Mass spectrometry
Mycotoxins
spellingShingle Biorecognition
Confirmatory analysis
DART
Direct analysis in real time
Lateral flow immunoassay
Mass spectrometry
Mycotoxins
Biorecognition
Confirmatory analysis
DART
Direct analysis in real time
Lateral flow immunoassay
Mass spectrometry
Mycotoxins
Geballa Koukoula, A.
Gerssen, A.
Nielen, M.W.F.
From smartphone lateral flow ummunoassay screening to direct MS analysis: Development and validation of a semi-quantitative direct analysis in real-time mass spectrometric (DART-MS) approach to the analysis of deoxynivalenol.
description In current food safety monitoring, lateral flow immunoassays (LFIAs) are widely used for rapid food contaminant screening. Recent advances include smartphone readouts, offering semi-quantitative analysis of LFIAs with time, location, and data transfer in case of on-site testing. Following the screening, the next step in the EU regulations is confirmation by, e.g., liquid chromatography-tandem mass spectrometry (LC-MS/MS). In this work, using direct analysis in real time ambient ionization and triple quadrupole MS/MS (DART-QqQ-MS/MS), we achieved rapid confirmation of the identity of the substance(s) causing the LFIA result. In the workflow proposed, an individual performs the (on-site) smartphone LFIA screening, and when the result is suspect, an identification LFIA (ID-LFIA) strip is developed with the same sample extract. The ID-LFIA can be dissociated and rapidly analyzed in a control laboratory with DART-QqQ-MS/MS. The ID-LFIA consists of multiple lines of monoclonal antibodies against the mycotoxin deoxynivalenol, acting as a bioaffinity trap. The ID-LFIA/DART-QqQ-MS/MS approach has been developed and validated, along with the screening smartphone LFIA, and has demonstrated its applicability by analyzing incurred and spiked samples. The developed approach has been critically compared with our previous direct electrospray ionization MS method and was found to provide highly complementary information on the total deoxynivalenol contamination in the sample.
format Article/Letter to editor
topic_facet Biorecognition
Confirmatory analysis
DART
Direct analysis in real time
Lateral flow immunoassay
Mass spectrometry
Mycotoxins
author Geballa Koukoula, A.
Gerssen, A.
Nielen, M.W.F.
author_facet Geballa Koukoula, A.
Gerssen, A.
Nielen, M.W.F.
author_sort Geballa Koukoula, A.
title From smartphone lateral flow ummunoassay screening to direct MS analysis: Development and validation of a semi-quantitative direct analysis in real-time mass spectrometric (DART-MS) approach to the analysis of deoxynivalenol.
title_short From smartphone lateral flow ummunoassay screening to direct MS analysis: Development and validation of a semi-quantitative direct analysis in real-time mass spectrometric (DART-MS) approach to the analysis of deoxynivalenol.
title_full From smartphone lateral flow ummunoassay screening to direct MS analysis: Development and validation of a semi-quantitative direct analysis in real-time mass spectrometric (DART-MS) approach to the analysis of deoxynivalenol.
title_fullStr From smartphone lateral flow ummunoassay screening to direct MS analysis: Development and validation of a semi-quantitative direct analysis in real-time mass spectrometric (DART-MS) approach to the analysis of deoxynivalenol.
title_full_unstemmed From smartphone lateral flow ummunoassay screening to direct MS analysis: Development and validation of a semi-quantitative direct analysis in real-time mass spectrometric (DART-MS) approach to the analysis of deoxynivalenol.
title_sort from smartphone lateral flow ummunoassay screening to direct ms analysis: development and validation of a semi-quantitative direct analysis in real-time mass spectrometric (dart-ms) approach to the analysis of deoxynivalenol.
url https://research.wur.nl/en/publications/from-smartphone-lateral-flow-ummunoassay-screening-to-direct-ms-a
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AT gerssena fromsmartphonelateralflowummunoassayscreeningtodirectmsanalysisdevelopmentandvalidationofasemiquantitativedirectanalysisinrealtimemassspectrometricdartmsapproachtotheanalysisofdeoxynivalenol
AT nielenmwf fromsmartphonelateralflowummunoassayscreeningtodirectmsanalysisdevelopmentandvalidationofasemiquantitativedirectanalysisinrealtimemassspectrometricdartmsapproachtotheanalysisofdeoxynivalenol
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