Josko Ivica , Faisal Adam , Lyse Wortel , Teresa Kalika , Heather Pelly , Jeannette Gauthier , Murray Potter
{"title":"血浆中C4、C5和C2酰基肉碱二级分析方法的建立。","authors":"Josko Ivica , Faisal Adam , Lyse Wortel , Teresa Kalika , Heather Pelly , Jeannette Gauthier , Murray Potter","doi":"10.1016/j.clinbiochem.2023.110698","DOIUrl":null,"url":null,"abstract":"<div><h3>Introduction</h3><p><span>Acylcarnitines are typically analyzed using either a </span>flow injection analysis (FIA) method or liquid chromatography-mass spectrometry (LC-MS/MS) methods. The FIA method is a fast, efficient method, however it does not have the capability to separate compounds with the same molecular weight. These isobaric interferences can be removed by chromatographic separation with LC-MS/MS. In this study, we aimed to develop and optimize a qualitative LC-MS/MS method to separate the isobaric interferences for two-, four- and five-carbon acylcarnitines.</p></div><div><h3>Methods</h3><p>The samples were first prepared by acylcarnitine derivatization<span> with butanolic HCl. The developed LC-MS/MS method is a combination of isocratic and gradient elution<span> used to separate acylcarnitines. Multiple reaction monitoring was used for determination of precursor and product ions for each acylcarnitine species as well as known interferences used in our study. We used this method to analyze quality assurance and patient samples with elevated two-, four- and five-carbon acylcarnitines.</span></span></p></div><div><h3>Results</h3><p><span><span><span>Butyryl- and isobutyrylcarnitines as well as valeryl- and isovalerylcarnitines were successfully separated using the developed method. This method was able also to separate and distinguish acetylcarnitine from </span>glutamate interference that has been causing overestimation of acetylcarnitine. </span>In patients, the dominant five-carbon acylcarnitine was found to be isovalerylcarnitine. We confirmed that the majority of analyzed patient samples had additional </span>carnitine adducts present but not valerylcarnitine. Butyryl- and isobutyrylcarnitines, in variable ratios, were present in every patient sample.</p></div><div><h3>Conclusion</h3><p>We developed a qualitative LC-MS/MS method for butyl-ester derivatized acylcarnitines, which can be used as a second-tier method for diagnosis and monitoring of various inborn errors of metabolism in our hospital network.</p></div>","PeriodicalId":10172,"journal":{"name":"Clinical biochemistry","volume":"123 ","pages":"Article 110698"},"PeriodicalIF":2.5000,"publicationDate":"2023-12-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Development of a second-tier method for C4, C5 and C2 acylcarnitine analysis in plasma\",\"authors\":\"Josko Ivica , Faisal Adam , Lyse Wortel , Teresa Kalika , Heather Pelly , Jeannette Gauthier , Murray Potter\",\"doi\":\"10.1016/j.clinbiochem.2023.110698\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><h3>Introduction</h3><p><span>Acylcarnitines are typically analyzed using either a </span>flow injection analysis (FIA) method or liquid chromatography-mass spectrometry (LC-MS/MS) methods. The FIA method is a fast, efficient method, however it does not have the capability to separate compounds with the same molecular weight. These isobaric interferences can be removed by chromatographic separation with LC-MS/MS. In this study, we aimed to develop and optimize a qualitative LC-MS/MS method to separate the isobaric interferences for two-, four- and five-carbon acylcarnitines.</p></div><div><h3>Methods</h3><p>The samples were first prepared by acylcarnitine derivatization<span> with butanolic HCl. The developed LC-MS/MS method is a combination of isocratic and gradient elution<span> used to separate acylcarnitines. Multiple reaction monitoring was used for determination of precursor and product ions for each acylcarnitine species as well as known interferences used in our study. We used this method to analyze quality assurance and patient samples with elevated two-, four- and five-carbon acylcarnitines.</span></span></p></div><div><h3>Results</h3><p><span><span><span>Butyryl- and isobutyrylcarnitines as well as valeryl- and isovalerylcarnitines were successfully separated using the developed method. This method was able also to separate and distinguish acetylcarnitine from </span>glutamate interference that has been causing overestimation of acetylcarnitine. </span>In patients, the dominant five-carbon acylcarnitine was found to be isovalerylcarnitine. We confirmed that the majority of analyzed patient samples had additional </span>carnitine adducts present but not valerylcarnitine. 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Development of a second-tier method for C4, C5 and C2 acylcarnitine analysis in plasma
Introduction
Acylcarnitines are typically analyzed using either a flow injection analysis (FIA) method or liquid chromatography-mass spectrometry (LC-MS/MS) methods. The FIA method is a fast, efficient method, however it does not have the capability to separate compounds with the same molecular weight. These isobaric interferences can be removed by chromatographic separation with LC-MS/MS. In this study, we aimed to develop and optimize a qualitative LC-MS/MS method to separate the isobaric interferences for two-, four- and five-carbon acylcarnitines.
Methods
The samples were first prepared by acylcarnitine derivatization with butanolic HCl. The developed LC-MS/MS method is a combination of isocratic and gradient elution used to separate acylcarnitines. Multiple reaction monitoring was used for determination of precursor and product ions for each acylcarnitine species as well as known interferences used in our study. We used this method to analyze quality assurance and patient samples with elevated two-, four- and five-carbon acylcarnitines.
Results
Butyryl- and isobutyrylcarnitines as well as valeryl- and isovalerylcarnitines were successfully separated using the developed method. This method was able also to separate and distinguish acetylcarnitine from glutamate interference that has been causing overestimation of acetylcarnitine. In patients, the dominant five-carbon acylcarnitine was found to be isovalerylcarnitine. We confirmed that the majority of analyzed patient samples had additional carnitine adducts present but not valerylcarnitine. Butyryl- and isobutyrylcarnitines, in variable ratios, were present in every patient sample.
Conclusion
We developed a qualitative LC-MS/MS method for butyl-ester derivatized acylcarnitines, which can be used as a second-tier method for diagnosis and monitoring of various inborn errors of metabolism in our hospital network.
期刊介绍:
Clinical Biochemistry publishes articles relating to clinical chemistry, molecular biology and genetics, therapeutic drug monitoring and toxicology, laboratory immunology and laboratory medicine in general, with the focus on analytical and clinical investigation of laboratory tests in humans used for diagnosis, prognosis, treatment and therapy, and monitoring of disease.