2008
DOI: 10.1007/s00216-008-2220-8
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GC-MS with ethyl chloroformate derivatization for comprehensive analysis of metabolites in serum and its application to human uremia

Abstract: Abstract:An optimized method based on GC-MS with ethyl chloroformate derivatization has been developed for the comprehensive analysis of endogenous metabolites in serum. Twenty-two reference standards and serum samples were used to validate the proposed method. The correlation coefficient was higher than 0.9900 for each of the standards, and the LOD varied from 125 to 300 pg on-column. The analytical equipment exhibited good repeatability (RSD<10%) for all of the standards. Both the repeatability and the withi… Show more

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Cited by 59 publications
(42 citation statements)
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“…To solve the problem, the addition of TEA and pyridine as a basic catalyst in the range of 10-40 l in 1 ml of a buffer solution was tested under the same reaction conditions (50 l of ECF, pH 9 medium, and shaking for 30 min). Although pyridine is commonly used as a suitable esterification catalyst ( 30,33,34 ), it was not selected in this study due to the diffi culty in removing the excess reagent after derivatization. Increasing the TEA amount tended to maximize the reaction yields at 30 and 40 l, and 30 l of TEA was chosen because of its rapid evaporation rate.…”
Section: Methods Validationmentioning
confidence: 99%
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“…To solve the problem, the addition of TEA and pyridine as a basic catalyst in the range of 10-40 l in 1 ml of a buffer solution was tested under the same reaction conditions (50 l of ECF, pH 9 medium, and shaking for 30 min). Although pyridine is commonly used as a suitable esterification catalyst ( 30,33,34 ), it was not selected in this study due to the diffi culty in removing the excess reagent after derivatization. Increasing the TEA amount tended to maximize the reaction yields at 30 and 40 l, and 30 l of TEA was chosen because of its rapid evaporation rate.…”
Section: Methods Validationmentioning
confidence: 99%
“…In alkyloxycarbonylation, an alkaline condition is essential to promote the deprotonation of the reactive species (30)(31)(32)34 ), and the pH range of 8-11 was tested (data not shown). Most estrogens showed good reaction yields (>96%) in all ranges tested, whereas yields of fi ve catechol estrogens were decreased signifi cantly at pH > 9, even though 0.2% ascorbic acid was added to prevent oxidation of the catechol moieties.…”
Section: Methods Validationmentioning
confidence: 99%
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