W-N. Paul Lee scite author profile

Objective The impact of increased fructose consumption on carbohydrate metabolism is a topic of current interest, but determination of serum level has been hindered due to low concentration and interference from serum glucose. We are reporting a method for the quantification of glucose and fructose in clinical samples using gas chromatography/mass spectrometry (GC/MS). The accuracy and precision of GC/MS and an enzymatic assay were compared. Design and methods Mass spectrometry fragmentation patterns of methyloxime peracetate derivatized aldose and ketose were determined. Unique fragments for glucose and fructose were used for quantitative analysis using isotope labeled recovery standards. Results Methyloxime peracetate derivatives of glucose and fructose showed characteristic loss of acetate (M-60) or ketene (M-42) under chemical ionization (CI). Under electron impact (EI) ionization, a unique C1-C2 fragment of glucose was formed, while a C1-C3 fragment was formed from keto-hexoses. These unique fragments were used in the quantitative assay of glucose and fructose in clinical samples. In clinical samples, the GC/MS assay has a lower limit of detection than that of the enzymatic assay. In plasma samples from patients evaluated for diabetes the average serum glucose and fructose were 6.19±2.72 mM and 46± 25.22 μM. Fructose concentrations in many of these samples were below the limit of detection of the enzymatic method. Conclusion Derivatization of aldose and ketose monosaccharides to their respective O-methyloxime acetates for GC/MS analysis is a facile method for determination of serum/plasma glucose and fructose samples.

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Quantitation of Positional isomers of deuterium-labeled glucose by gas chromatography/mass spectrometry

Guo

Lee

Katz

et al. 1992

Analytical Biochemistry

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Glucose isotope, carbon recycling, and gluconeogenesis using [U-13C]glucose and mass isotopomer analysis

Lee¹,

Sorou²,

Bergner³

1991

Biochemical Medicine and Metabolic Biology

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W-N. Paul Lee

Measurement of glucose and fructose in clinical samples using gas chromatography/mass spectrometry

Quantitation of Positional isomers of deuterium-labeled glucose by gas chromatography/mass spectrometry

Glucose isotope, carbon recycling, and gluconeogenesis using [U-13C]glucose and mass isotopomer analysis

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