Biexponential transverse relaxation (T2) of the proton MRS creatine resonance in human brain

Abstract

Differences in proton MRS T₂ values for phosphocreatine (PCr) and creatine (Cr) methyl groups (3.0 ppm) were investigated in studies of phantoms and human brain. Results from phantom studies revealed that T₂ of PCr in solution is significantly shorter than T₂ of Cr. Curve‐fitting results indicated that the amplitude‐TE curves of the total Cr resonance at 3.0 ppm in human brain (N = 26) fit a biexponential decay model significantly better than a monoexponential decay model (P < 0.006), yielding mean T₂ values of 117 ± 21 ms and 309 ± 21 ms. Using a localized, long‐TE (272 ms) point‐resolved spectroscopy (PRESS) proton MRS during 2 min of photic stimulation (PS), an increase of 12.1% ± 3.5% in the mean intensity of the total Cr resonance in primary visual cortex (VI) was observed at the end of stimulation (P < 0.021). This increase is consistent with the conversion of 26% of PCr in VI to Cr, which is concordant with ³¹P MRS findings reported by other investigators. These results suggest a significantly shorter T₂ for PCr than for Cr in vivo. This difference possibly could be exploited to quantify regional activation in functional spectroscopy studies, and could also lead to inaccuracies in some circumstances when the Cr resonance is used as an internal standard for ¹H MRS studies in vivo. Magn Reson Med 47:232–238, 2002.