A candidate reference measurement procedure for quantifying serum concentrations of 25-hydroxyvitamin D^sub 3^ and 25-hydroxyvitamin D^sub 2^ using isotope-dilution liquid chromatography-tandem mass spectrometry

Issue Title: Automatic in-syringe dispersive liquid--liquid microextraction/ECL-DNA sensors based on Zn-mediated grafting of diazonium salts/Tracing thyroid hormone-disrupting compounds for effect-directed analysis/Exploring optical fibres as carriers for matrix-free reference materials The inaccura...

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Published inAnalytical and bioanalytical chemistry Vol. 407; no. 19; p. 5615
Main Authors Mineva, Ekaterina M, Schleicher, Rosemary L, Chaudhary-webb, Madhulika, Maw, Khin L, Botelho, Julianne C, Vesper, Hubert W, Pfeiffer, Christine M
Format Journal Article
LanguageEnglish
Published Heidelberg Springer Nature B.V 01.07.2015
Subjects
Accuracy
Calibration
Certification
Chromatography
Dietary supplements
Disease control
Disease prevention
Food fortification
Immunoassay
Isotopes
Mass spectrometry
Medical laboratories
Medical research
Metabolites
Methods
Public health
Reference materials
Scientific imaging
Standardization
Vitamin D
United States > US
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Summary:Issue Title: Automatic in-syringe dispersive liquid--liquid microextraction/ECL-DNA sensors based on Zn-mediated grafting of diazonium salts/Tracing thyroid hormone-disrupting compounds for effect-directed analysis/Exploring optical fibres as carriers for matrix-free reference materials The inaccuracy of routine serum 25-hydroxyvitamin D measurements hampers the interpretation of data in patient care and public health research. We developed and validated a candidate reference measurement procedure (RMP) for highly accurate quantitation of two clinically important 25-hydroxyvitamin D metabolites in serum, 25-hydroxyvitamin D^sub 2^ [25(OH)D^sub 2^] and 25-hydroxyvitamin D^sub 3^ [25(OH)D^sub 3^]. The two compounds of interest together with spiked deuterium-labeled internal standards [d ^sub 3^-25(OH)D^sub 2^ and d ^sub 6^-25(OH)D^sub 3^] were extracted from serum via liquid-liquid extraction. The featured isotope-dilution LC-MS/MS method used reversed-phase chromatography and atmospheric pressure chemical ionization in positive ion mode. A pentafluorophenylpropyl-packed UHPLC column together with isocratic elution allowed for complete baseline resolution of 25(OH)D^sub 2^ and 25(OH)D^sub 3^ from their structural C-3 isomers within 12 min. We evaluated method trueness, precision, potential interferences, matrix effects, limits of quantitation, and measurement uncertainty. Calibration materials were, or were traceable to, NIST Standard Reference Materials 2972. Within-day and total imprecision (CV) averaged 1.9 and 2.0 % for 25(OH)D^sub 3^, respectively, and 2.4 and 3.5 % for 25(OH)D^sub 2^, respectively. Mean trueness was 100.3 % for 25(OH)D^sub 3^ and 25(OH)D^sub 2^. The limits of quantitation/limits of detection were 4.61/1.38 nmol/L for 25(OH)D^sub 3^ and 1.46/0.13 nmol/L for 25(OH)D^sub 2^. When we compared our RMP results to an established RMP using 40 serum samples, we found a nonsignificant mean bias of 0.2 % for total 25(OH)D. This candidate RMP for 25(OH)D metabolites meets predefined method performance specifications ([less than or equal to]5 % total CV and [less than or equal to]1.7 % bias) and provides sufficient sample throughput to meet the needs of the Centers for Disease Control and Prevention Vitamin D Standardization Certification Program. [Figure not available: see fulltext.]
ISSN:1618-2642
1618-2650
DOI:10.1007/s00216-015-8733-z