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Potential of NMR Spectroscopy for the Study of Human Amniotic Fluid

2007; American Chemical Society; Volume: 79; Issue: 21 Linguagem: Inglês

10.1021/ac071278d

1520-6882

Gonçalo Graça, Iola F. Duarte, Brian J. Goodfellow, António S. Barros, Isabel M. Carreira, Ana Bela Couceiro, Manfred Spraul, Ana M. Gil,

Liver Disease Diagnosis and Treatment

1D and 2D 800 MHz high-resolution nuclear magnetic resonance spectroscopy of human amniotic fluid (HAF) enabled the identification of ∼50 metabolites. In addition, liquid chromatography-NMR and diffusion ordered spectroscopy (DOSY) allowed signal overlap to be reduced and the characterization of higher molecular weight (Mw) components, respectively. Indeed, the DOSY spectrum of a Mw >10 kDa HAF fraction enabled three protein families, differing in average Mw, to be detected and may therefore be of potential value in the study of disorder-related variations in HAF protein profiles. The effects of freeze-drying, storage at −20 or −70 °C, and freeze-thawing cycles on HAF compositional stability were investigated, as well as stability at room temperature (to account for overnight data acquisition runs). These data are the basis for establishing statistically validated correlations between HAF NMR data and any physiological disorders of the fetus/mother. Freeze-drying caused signal loss for urea, ethanol, and compounds resonating at 2.22 and 1.17 ppm. Storage at −70 °C or lower is recommended since only minor compositional changes were observed, affecting mainly acetate and pyruvate. Freeze−thaw cycles did not cause significant compositional changes, and room-temperature stability studies indicated a 4−5 h maximum period of handling/acquisition time to ensure HAF stability.