Analytical development for the assessment of pesticide contaminations in blood and plasma of wild birds: The case of grey partridges (Perdix perdix)

•Methods allowed sensitive detection and quantification of pesticides in birds.•Blood and plasma from grey partridges were appropriated matrices for biomonitoring.•Analyses of both matrices allowed a good assessment of environmental contaminations.•Blood allowed higher levels of detection with easie...

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Published in:Journal of Chromatography A Vol. 1687; p. 463681
Main Authors: Rodrigues, A, Gaffard, A, Moreau, J, Monceau, K, Delhomme, O, Millet, M
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 04.01.2023
Subjects:
Analytical Chemistry
Analytical method
Animals
Biochemistry
Biomonitoring
Birds
Blood
Blood samples
Chemistry
Chimie
chromatography
Chromatography, Liquid
Chromatography, Liquid - methods
desorption
Galliformes
GC/MS/MS
General Medicine
LC-MS-MS
moexipril
Organic Chemistry
Perdix perdix
Pesticide contaminations
Pesticide Residues
Pesticide Residues - analysis
Pesticides
Pesticides - analysis
Physical, chemical, mathematical & earth Sciences
Physique, chimie, mathématiques & sciences de la terre
plant protection
Plant protection products
Plasma
Plasma samples
Tandem Mass Spectrometry
Tandem Mass Spectrometry - methods
Wild birds
Plasma
Birds
Biomonitoring
Blood
Pesticides
ISSN:0021-9673, 1873-3778, 1873-3778
Online Access:Get full text
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Abstract •Methods allowed sensitive detection and quantification of pesticides in birds.•Blood and plasma from grey partridges were appropriated matrices for biomonitoring.•Analyses of both matrices allowed a good assessment of environmental contaminations.•Blood allowed higher levels of detection with easier sampling than plasma. In this study, blood and plasma of grey partridges (Perdix perdix) were analyzed to assess their potential contamination by plant protection products (PPP) and especially pesticide compounds. The group of pesticides selected is composed of a huge variety of compounds. Therefore, in this study, two methods were optimized and validated to analyze 104 compounds including herbicides, insecticides, fungicides and photoprotectors or synergists. Various extraction methods found in the literature were compared and adapted for the extraction of pesticides from blood and plasma. After extraction, samples were concentrated then injected for quantification simultaneously in LC-MS/MS and ATD-GC-MS/MS with an automatic thermal desorption step (ATD). Both LC-MS/MS and ATD-GC-MS/MS analyses were performed using the MRM mode with 2 mass transitions for each compound.The two analytical methods achieved a good linearity for the calibration responses in plasma and blood. Methods allowed sensitive detection and quantification in complex biological matrices such as plasma and blood in both LC and GC. For plasma samples and considering all 104 compounds of the study, the average LOD was 0.005 ng mg−1 in LC-MS/MS and 0.035 ng mg−1 in ATD-GC-MS/MS and the average LOQ was 0.017 ng mg−1 and 0.116 ng mg−1 in LC-MS/MS and ATD-GC-MS/MS respectively. Accordingly, the average LOD for blood samples was 0.011 ng mg−1 in LC and 0.028 ng mg−1 in GC whereas the average LOQ was 0.038 ng mg−1 and 0.094 ng mg−1 in LC-MS/MS and ATD-GC-MS/MS respectively. Those analytical methods were then successfully applied to 70 blood samples and 35 plasma samples.
AbstractList In this study, blood and plasma of grey partridges (Perdix perdix) were analyzed to assess their potential contamination by plant protection products (PPP) and especially pesticide compounds. The group of pesticides selected is composed of a huge variety of compounds. Therefore, in this study, two methods were optimized and validated to analyze 104 compounds including herbicides, insecticides, fungicides and photoprotectors or synergists. Various extraction methods found in the literature were compared and adapted for the extraction of pesticides from blood and plasma. After extraction, samples were concentrated then injected for quantification simultaneously in LC-MS/MS and ATD-GC-MS/MS with an automatic thermal desorption step (ATD). Both LC-MS/MS and ATD-GC-MS/MS analyses were performed using the MRM mode with 2 mass transitions for each compound.The two analytical methods achieved a good linearity for the calibration responses in plasma and blood. Methods allowed sensitive detection and quantification in complex biological matrices such as plasma and blood in both LC and GC. For plasma samples and considering all 104 compounds of the study, the average LOD was 0.005 ng mg-1 in LC-MS/MS and 0.035 ng mg-1 in ATD-GC-MS/MS and the average LOQ was 0.017 ng mg-1 and 0.116 ng mg-1 in LC-MS/MS and ATD-GC-MS/MS respectively. Accordingly, the average LOD for blood samples was 0.011 ng mg-1 in LC and 0.028 ng mg-1 in GC whereas the average LOQ was 0.038 ng mg-1 and 0.094 ng mg-1 in LC-MS/MS and ATD-GC-MS/MS respectively. Those analytical methods were then successfully applied to 70 blood samples and 35 plasma samples.In this study, blood and plasma of grey partridges (Perdix perdix) were analyzed to assess their potential contamination by plant protection products (PPP) and especially pesticide compounds. The group of pesticides selected is composed of a huge variety of compounds. Therefore, in this study, two methods were optimized and validated to analyze 104 compounds including herbicides, insecticides, fungicides and photoprotectors or synergists. Various extraction methods found in the literature were compared and adapted for the extraction of pesticides from blood and plasma. After extraction, samples were concentrated then injected for quantification simultaneously in LC-MS/MS and ATD-GC-MS/MS with an automatic thermal desorption step (ATD). Both LC-MS/MS and ATD-GC-MS/MS analyses were performed using the MRM mode with 2 mass transitions for each compound.The two analytical methods achieved a good linearity for the calibration responses in plasma and blood. Methods allowed sensitive detection and quantification in complex biological matrices such as plasma and blood in both LC and GC. For plasma samples and considering all 104 compounds of the study, the average LOD was 0.005 ng mg-1 in LC-MS/MS and 0.035 ng mg-1 in ATD-GC-MS/MS and the average LOQ was 0.017 ng mg-1 and 0.116 ng mg-1 in LC-MS/MS and ATD-GC-MS/MS respectively. Accordingly, the average LOD for blood samples was 0.011 ng mg-1 in LC and 0.028 ng mg-1 in GC whereas the average LOQ was 0.038 ng mg-1 and 0.094 ng mg-1 in LC-MS/MS and ATD-GC-MS/MS respectively. Those analytical methods were then successfully applied to 70 blood samples and 35 plasma samples.
In this study, blood and plasma of grey partridges (Perdix perdix) were analyzed to assess their potential contamination by plant protection products (PPP) and especially pesticide compounds. The group of pesticides selected is composed of a huge variety of compounds. Therefore, in this study, two methods were optimized and validated to analyze 104 compounds including herbicides, insecticides, fungicides and photoprotectors or synergists. Various extraction methods found in the literature were compared and adapted for the extraction of pesticides from blood and plasma. After extraction, samples were concentrated then injected for quantification simultaneously in LC-MS/MS and ATD-GC-MS/MS with an automatic thermal desorption step (ATD). Both LC-MS/MS and ATD-GC-MS/MS analyses were performed using the MRM mode with 2 mass transitions for each compound.The two analytical methods achieved a good linearity for the calibration responses in plasma and blood. Methods allowed sensitive detection and quantification in complex biological matrices such as plasma and blood in both LC and GC. For plasma samples and considering all 104 compounds of the study, the average LOD was 0.005 ng mg⁻¹ in LC-MS/MS and 0.035 ng mg⁻¹ in ATD-GC-MS/MS and the average LOQ was 0.017 ng mg⁻¹ and 0.116 ng mg⁻¹ in LC-MS/MS and ATD-GC-MS/MS respectively. Accordingly, the average LOD for blood samples was 0.011 ng mg⁻¹ in LC and 0.028 ng mg⁻¹ in GC whereas the average LOQ was 0.038 ng mg⁻¹ and 0.094 ng mg⁻¹ in LC-MS/MS and ATD-GC-MS/MS respectively. Those analytical methods were then successfully applied to 70 blood samples and 35 plasma samples.
In this study, blood and plasma of grey partridges (Perdix perdix) were analyzed to assess their potential contamination by plant protection products (PPP) and especially pesticide compounds. The group of pesticides selected is composed of a huge variety of compounds. Therefore, in this study, two methods were optimized and validated to analyze 104 compounds including herbicides, insecticides, fungicides and photoprotectors or synergists. Various extraction methods found in the literature were compared and adapted for the extraction of pesticides from blood and plasma. After extraction, samples were concentrated then injected for quantification simultaneously in LC-MS/MS and ATD-GC-MS/MS with an automatic thermal desorption step (ATD). Both LC-MS/MS and ATD-GC-MS/MS analyses were performed using the MRM mode with 2 mass transitions for each compound.The two analytical methods achieved a good linearity for the calibration responses in plasma and blood. Methods allowed sensitive detection and quantification in complex biological matrices such as plasma and blood in both LC and GC. For plasma samples and considering all 104 compounds of the study, the average LOD was 0.005 ng mg in LC-MS/MS and 0.035 ng mg in ATD-GC-MS/MS and the average LOQ was 0.017 ng mg and 0.116 ng mg in LC-MS/MS and ATD-GC-MS/MS respectively. Accordingly, the average LOD for blood samples was 0.011 ng mg in LC and 0.028 ng mg in GC whereas the average LOQ was 0.038 ng mg and 0.094 ng mg in LC-MS/MS and ATD-GC-MS/MS respectively. Those analytical methods were then successfully applied to 70 blood samples and 35 plasma samples.
In this study, blood and plasma of grey partridges (Perdix perdix) were analyzed to assess their potential contamination by plant protection products (PPP) and especially pesticide compounds. The group of pesticides selected is composed of a huge variety of compounds. Therefore, in this study, two methods were optimized and validated to analyze 104 compounds including herbicides, insecticides, fungicides and photoprotectors or synergists. Various extraction methods found in the literature were compared and adapted for the extraction of pesticides from blood and plasma. After extraction, samples were concentrated then injected for quantification simultaneously in LC-MS/MS and ATD-GC-MS/MS with an automatic thermal desorption step (ATD). Both LC-MS/MS and ATD-GC-MS/MS analyses were performed using the MRM mode with 2 mass transitions for each compound.The two analytical methods achieved a good linearity for the calibration responses in plasma and blood. Methods allowed sensitive detection and quantification in complex biological matrices such as plasma and blood in both LC and GC. For plasma samples and considering all 104 compounds of the study, the average LOD was 0.005 ng mg-1 in LC-MS/MS and 0.035 ng mg-1 in ATD-GC-MS/MS and the average LOQ was 0.017 ng mg-1 and 0.116 ng mg-1 in LC-MS/MS and ATD-GC-MS/MS respectively. Accordingly, the average LOD for blood samples was 0.011 ng mg-1 in LC and 0.028 ng mg-1 in GC whereas the average LOQ was 0.038 ng mg-1 and 0.094 ng mg-1 in LC-MS/MS and ATD-GC-MS/MS respectively. Those analytical methods were then successfully applied to 70 blood samples and 35 plasma samples.
•Methods allowed sensitive detection and quantification of pesticides in birds.•Blood and plasma from grey partridges were appropriated matrices for biomonitoring.•Analyses of both matrices allowed a good assessment of environmental contaminations.•Blood allowed higher levels of detection with easier sampling than plasma. In this study, blood and plasma of grey partridges (Perdix perdix) were analyzed to assess their potential contamination by plant protection products (PPP) and especially pesticide compounds. The group of pesticides selected is composed of a huge variety of compounds. Therefore, in this study, two methods were optimized and validated to analyze 104 compounds including herbicides, insecticides, fungicides and photoprotectors or synergists. Various extraction methods found in the literature were compared and adapted for the extraction of pesticides from blood and plasma. After extraction, samples were concentrated then injected for quantification simultaneously in LC-MS/MS and ATD-GC-MS/MS with an automatic thermal desorption step (ATD). Both LC-MS/MS and ATD-GC-MS/MS analyses were performed using the MRM mode with 2 mass transitions for each compound.The two analytical methods achieved a good linearity for the calibration responses in plasma and blood. Methods allowed sensitive detection and quantification in complex biological matrices such as plasma and blood in both LC and GC. For plasma samples and considering all 104 compounds of the study, the average LOD was 0.005 ng mg−1 in LC-MS/MS and 0.035 ng mg−1 in ATD-GC-MS/MS and the average LOQ was 0.017 ng mg−1 and 0.116 ng mg−1 in LC-MS/MS and ATD-GC-MS/MS respectively. Accordingly, the average LOD for blood samples was 0.011 ng mg−1 in LC and 0.028 ng mg−1 in GC whereas the average LOQ was 0.038 ng mg−1 and 0.094 ng mg−1 in LC-MS/MS and ATD-GC-MS/MS respectively. Those analytical methods were then successfully applied to 70 blood samples and 35 plasma samples.
ArticleNumber 463681
Author Rodrigues, A
Moreau, J
Delhomme, O
Monceau, K
Gaffard, A
Millet, M
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  organization: Université de Strasbourg, CNRS-UMR 7515, ICPEES, 67087 Strasbourg cedex 2, France
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Keywords Plasma
Birds
Biomonitoring
Blood
Pesticides
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Snippet •Methods allowed sensitive detection and quantification of pesticides in birds.•Blood and plasma from grey partridges were appropriated matrices for...
In this study, blood and plasma of grey partridges (Perdix perdix) were analyzed to assess their potential contamination by plant protection products (PPP) and...
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StartPage 463681
SubjectTerms Analytical Chemistry
Analytical method
Animals
Biochemistry
Biomonitoring
Birds
Blood
Blood samples
Chemistry
Chimie
chromatography
Chromatography, Liquid
Chromatography, Liquid - methods
desorption
Galliformes
GC/MS/MS
General Medicine
LC-MS-MS
moexipril
Organic Chemistry
Perdix perdix
Pesticide contaminations
Pesticide Residues
Pesticide Residues - analysis
Pesticides
Pesticides - analysis
Physical, chemical, mathematical & earth Sciences
Physique, chimie, mathématiques & sciences de la terre
plant protection
Plant protection products
Plasma
Plasma samples
Tandem Mass Spectrometry
Tandem Mass Spectrometry - methods
Wild birds
Title Analytical development for the assessment of pesticide contaminations in blood and plasma of wild birds: The case of grey partridges (Perdix perdix)
URI https://dx.doi.org/10.1016/j.chroma.2022.463681
https://www.ncbi.nlm.nih.gov/pubmed/36502641
https://www.proquest.com/docview/2753664009
https://www.proquest.com/docview/3153840660
https://orbi.uliege.be/handle/2268/302996
Volume 1687
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