LC-MS residue analysis of antibiotics : what selectivity is adequate?

In residue analysis of antibiotics quantitative and qualitative aspects are involved in declaring a sample non-compliant. The quantitative aspect regards the determination of the amount of the compound present in the sample. Validation procedures are available to determine the uncertainty of this result, which is taken into account in the decision making process. The qualitative aspect regards the confirmation of the identity of the compound present. In this, selectivity is the main parameter which is defined as the ability of a method to discriminate the analyte being measured from other substances. A trend observed in residue analysis is towards more generic methods for the detection of a broad range of compounds in a single run. As a result, by definition, selectivity is compromised. Procedures to determine the uncertainty of the qualitative aspect are lacking and, as a result, whether or not a method is adequately selective is a matter of experts’ judgment. In this thesis a method is presented for grading selectivity of methods using liquid chromatography coupled to tandem mass spectrometry. Based on the outcome it can be stated if selectivity is adequate and thus if a confirmatory result stands strong when challenged in a court case. If selectivity is found inadequate, additional measures can be taken like the selection of another product ion or the use of a third product ion to obtain adequate selectivity. Furthermore, two examples of analyses are presented in which selectivity plays an important role. First, the analysis of the banned antibiotic chloramphenicol (CAP). CAP contains two chiral centers and the nitro-group can either be para- or meta-substituted. Therefore, eight different isomers of CAP occur of which only RR-p-CAP is antimicrobially active. In the analysis of CAP, extreme selectivity is needed to distinguish the antimicrobially active compound from its inactive isomers. A method applying chiral liquid chromatography with tandem mass spectrometry was developed to discriminate antimicrobially active CAP for its inactive isomers. Also the research for the possible natural occurrence of this drug is presented. It is shown that CAP can be produced in unamended soil by Streptomyces venezuelaein appreciable amounts and that crops can take up CAP from soils. Therefore, it is concluded that CAP can occur in crops and animal feed due to its natural production by soil bacteria. Second, the development of a multi-ß-lactam method is presented. In this method a derivatization is applied to be able to effectively detect off-label ceftiofur use. In this selectivity is intentionally compromised and no unequivocal confirmation can be carried out using this method. The developed method is applicable to a wide range of ß-lactam antibiotics including penicillins, cephalosporins and carbapenems and is the best method available today for effective monitoring of off-label ß-lactam usage in poultry breeding.

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Bibliographic Details
Main Author: Berendsen, B.J.A.
Other Authors: Nielen, Michel
Format: Doctoral thesis biblioteca
Language:English
Subjects:antibiotic residues, antibiotics, beta-lactam antibiotics, ceftiofur, chloramphenicol, food analysis, liquid chromatography-mass spectrometry, selectivity, antibiotica, antibioticumresiduen, bèta-lactam antibiotica, chlooramfenicol, lc-ms, selectiviteit, voedselanalyse,
Online Access:https://research.wur.nl/en/publications/lc-ms-residue-analysis-of-antibiotics-what-selectivity-is-adequat
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spelling dig-wur-nl-wurpubs-4397262024-10-23 Berendsen, B.J.A. Nielen, Michel Stolker, Linda Doctoral thesis LC-MS residue analysis of antibiotics : what selectivity is adequate? 2013 In residue analysis of antibiotics quantitative and qualitative aspects are involved in declaring a sample non-compliant. The quantitative aspect regards the determination of the amount of the compound present in the sample. Validation procedures are available to determine the uncertainty of this result, which is taken into account in the decision making process. The qualitative aspect regards the confirmation of the identity of the compound present. In this, selectivity is the main parameter which is defined as the ability of a method to discriminate the analyte being measured from other substances. A trend observed in residue analysis is towards more generic methods for the detection of a broad range of compounds in a single run. As a result, by definition, selectivity is compromised. Procedures to determine the uncertainty of the qualitative aspect are lacking and, as a result, whether or not a method is adequately selective is a matter of experts’ judgment. In this thesis a method is presented for grading selectivity of methods using liquid chromatography coupled to tandem mass spectrometry. Based on the outcome it can be stated if selectivity is adequate and thus if a confirmatory result stands strong when challenged in a court case. If selectivity is found inadequate, additional measures can be taken like the selection of another product ion or the use of a third product ion to obtain adequate selectivity. Furthermore, two examples of analyses are presented in which selectivity plays an important role. First, the analysis of the banned antibiotic chloramphenicol (CAP). CAP contains two chiral centers and the nitro-group can either be para- or meta-substituted. Therefore, eight different isomers of CAP occur of which only RR-p-CAP is antimicrobially active. In the analysis of CAP, extreme selectivity is needed to distinguish the antimicrobially active compound from its inactive isomers. A method applying chiral liquid chromatography with tandem mass spectrometry was developed to discriminate antimicrobially active CAP for its inactive isomers. Also the research for the possible natural occurrence of this drug is presented. It is shown that CAP can be produced in unamended soil by Streptomyces venezuelaein appreciable amounts and that crops can take up CAP from soils. Therefore, it is concluded that CAP can occur in crops and animal feed due to its natural production by soil bacteria. Second, the development of a multi-ß-lactam method is presented. In this method a derivatization is applied to be able to effectively detect off-label ceftiofur use. In this selectivity is intentionally compromised and no unequivocal confirmation can be carried out using this method. The developed method is applicable to a wide range of ß-lactam antibiotics including penicillins, cephalosporins and carbapenems and is the best method available today for effective monitoring of off-label ß-lactam usage in poultry breeding. en application/pdf https://research.wur.nl/en/publications/lc-ms-residue-analysis-of-antibiotics-what-selectivity-is-adequat 10.18174/256889 https://edepot.wur.nl/256889 antibiotic residues antibiotics beta-lactam antibiotics ceftiofur chloramphenicol food analysis liquid chromatography-mass spectrometry selectivity antibiotica antibioticumresiduen bèta-lactam antibiotica ceftiofur chlooramfenicol lc-ms selectiviteit voedselanalyse 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 antibiotic residues
antibiotics
beta-lactam antibiotics
ceftiofur
chloramphenicol
food analysis
liquid chromatography-mass spectrometry
selectivity
antibiotica
antibioticumresiduen
bèta-lactam antibiotica
ceftiofur
chlooramfenicol
lc-ms
selectiviteit
voedselanalyse
antibiotic residues
antibiotics
beta-lactam antibiotics
ceftiofur
chloramphenicol
food analysis
liquid chromatography-mass spectrometry
selectivity
antibiotica
antibioticumresiduen
bèta-lactam antibiotica
ceftiofur
chlooramfenicol
lc-ms
selectiviteit
voedselanalyse
spellingShingle antibiotic residues
antibiotics
beta-lactam antibiotics
ceftiofur
chloramphenicol
food analysis
liquid chromatography-mass spectrometry
selectivity
antibiotica
antibioticumresiduen
bèta-lactam antibiotica
ceftiofur
chlooramfenicol
lc-ms
selectiviteit
voedselanalyse
antibiotic residues
antibiotics
beta-lactam antibiotics
ceftiofur
chloramphenicol
food analysis
liquid chromatography-mass spectrometry
selectivity
antibiotica
antibioticumresiduen
bèta-lactam antibiotica
ceftiofur
chlooramfenicol
lc-ms
selectiviteit
voedselanalyse
Berendsen, B.J.A.
LC-MS residue analysis of antibiotics : what selectivity is adequate?
description In residue analysis of antibiotics quantitative and qualitative aspects are involved in declaring a sample non-compliant. The quantitative aspect regards the determination of the amount of the compound present in the sample. Validation procedures are available to determine the uncertainty of this result, which is taken into account in the decision making process. The qualitative aspect regards the confirmation of the identity of the compound present. In this, selectivity is the main parameter which is defined as the ability of a method to discriminate the analyte being measured from other substances. A trend observed in residue analysis is towards more generic methods for the detection of a broad range of compounds in a single run. As a result, by definition, selectivity is compromised. Procedures to determine the uncertainty of the qualitative aspect are lacking and, as a result, whether or not a method is adequately selective is a matter of experts’ judgment. In this thesis a method is presented for grading selectivity of methods using liquid chromatography coupled to tandem mass spectrometry. Based on the outcome it can be stated if selectivity is adequate and thus if a confirmatory result stands strong when challenged in a court case. If selectivity is found inadequate, additional measures can be taken like the selection of another product ion or the use of a third product ion to obtain adequate selectivity. Furthermore, two examples of analyses are presented in which selectivity plays an important role. First, the analysis of the banned antibiotic chloramphenicol (CAP). CAP contains two chiral centers and the nitro-group can either be para- or meta-substituted. Therefore, eight different isomers of CAP occur of which only RR-p-CAP is antimicrobially active. In the analysis of CAP, extreme selectivity is needed to distinguish the antimicrobially active compound from its inactive isomers. A method applying chiral liquid chromatography with tandem mass spectrometry was developed to discriminate antimicrobially active CAP for its inactive isomers. Also the research for the possible natural occurrence of this drug is presented. It is shown that CAP can be produced in unamended soil by Streptomyces venezuelaein appreciable amounts and that crops can take up CAP from soils. Therefore, it is concluded that CAP can occur in crops and animal feed due to its natural production by soil bacteria. Second, the development of a multi-ß-lactam method is presented. In this method a derivatization is applied to be able to effectively detect off-label ceftiofur use. In this selectivity is intentionally compromised and no unequivocal confirmation can be carried out using this method. The developed method is applicable to a wide range of ß-lactam antibiotics including penicillins, cephalosporins and carbapenems and is the best method available today for effective monitoring of off-label ß-lactam usage in poultry breeding.
author2 Nielen, Michel
author_facet Nielen, Michel
Berendsen, B.J.A.
format Doctoral thesis
topic_facet antibiotic residues
antibiotics
beta-lactam antibiotics
ceftiofur
chloramphenicol
food analysis
liquid chromatography-mass spectrometry
selectivity
antibiotica
antibioticumresiduen
bèta-lactam antibiotica
ceftiofur
chlooramfenicol
lc-ms
selectiviteit
voedselanalyse
author Berendsen, B.J.A.
author_sort Berendsen, B.J.A.
title LC-MS residue analysis of antibiotics : what selectivity is adequate?
title_short LC-MS residue analysis of antibiotics : what selectivity is adequate?
title_full LC-MS residue analysis of antibiotics : what selectivity is adequate?
title_fullStr LC-MS residue analysis of antibiotics : what selectivity is adequate?
title_full_unstemmed LC-MS residue analysis of antibiotics : what selectivity is adequate?
title_sort lc-ms residue analysis of antibiotics : what selectivity is adequate?
url https://research.wur.nl/en/publications/lc-ms-residue-analysis-of-antibiotics-what-selectivity-is-adequat
work_keys_str_mv AT berendsenbja lcmsresidueanalysisofantibioticswhatselectivityisadequate
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