Pm. Winter et N. Bansal, Triple-quantum-filtered Na-23 NMR spectroscopy of subcutaneously implanted9L gliosarcoma in the rat in the presence of TmDOTP5-, J MAGN RES, 152(1), 2001, pp. 70-78
The utility of triple-quantum (TQ)-filtered Na-23 NMR spectroscopy for disc
riminating between intra- and extracellular Na+(Na-i(+) and Na-e(+) respect
ively) in a solid tumor in vivo was evaluated using TmDOTP5- as a Na-23 shi
ft reagent. Infusion of 80 mM TmDOTP5- without added Ca2+ produced baseline
-resolved Na and Na-e(+) peaks in both single-quantum (SQ) and TQ-filtered
Na-23 spectra. The Na-i(+) signal represented 22 +/- 4% of the SQ spectrum,
but 59 +/- 10% of the TQ-filtered spectrum. Therefore, the Nat contributio
n in TQ-filtered spectra is much higher than in SQ spectra. Both SQ and TQ-
filtered Na-i(+) signals increased by about 75% 1 h after sacrificing the a
nimal. The TQ-filtered relaxation times did not change during this time, in
dicating that changes observed in TQ-filtered spectra collected with a prep
aration time of 3 ms represent changes in the concentration of sodium ions
contributing to the TQ-filtered signal. Similar experiments were conducted
without TmDOTP5- to determine changes in the Na-e(+) signal in the absence
of the shift reagent. The changes in total SQ and TQ-filtered signals 1 h a
fter sacrificing the animal showed that the SQ Na-e(+) signal decreased by
approximately 35%, while the TQ-filtered Na-e(+) signal did not change sign
ificantly. This demonstrates that the TQ-filtered Na-23 signal is relativel
y insensitive to changes in Na-e(+) content. TO our knowledge, this work re
presents the first evaluation of multiple- quantum-filtered Na-23 spectrosc
opy to discriminate between intra- and extracellular Na+ in a solid tumor i
n vivo. (C) 2001 Academic Press.