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Intrauterine fetal brain NMR spectroscopy: 1H and 31P studies in rats

✍ Scribed by Tsutomu Nakada; Ingrid L. Kwee; Nobuyuki Suzuki; Kiyohiro Houkin

Publisher
John Wiley and Sons
Year
1989
Tongue
English
Weight
460 KB
Volume
12
Category
Article
ISSN
0740-3194

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✦ Synopsis

Fetal brain metabolism was investigated in utero noninvasively using multinuclear nuclear magnetic resonance spectroscopy in rats at two representative prenatal stages: early (17-18 days) and late (20-21 days) stages. Phosphorus-31 (3'P) spectroscopy revealed that phosphocreatine is significantly lower in the early stage and increases to the level of early neonates by the late prenatal stage. Intracellular pH at the early stage was found to be strikingly high (7.52 ? 0.2 I) and decreased to a level similar to that of neonates by the late stage (7.29 -t 0.07). Phosphomonoester levels at both stages were similar to the values reported for early neonates. Water-suppressed proton ('H) spectroscopy demonstrated a distinctive in vivo fetal brain spectral pattern characterized by low levels of N-acetyl aspartate and high levels of taurine. High-resolution proton spectroscopy and homonuclear chemical-shift correlate spectroscopy of brain perchlonc acid extracts confirmed these in vivo findings. In vitro "P spectroscopy of acidified chloroform methanol extracts showed the characteristic membrane phospholipid profiles of fetal brain. The phosphatidylethanolamine (PE)-to-phosphatidylcholine (PC) ratio (PE/PC) did not show significant changes between the two stages at 0.40 f 0.1 1, a value similar to that of early neonates.

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