Nuclear-Overhauser-Enhanced Mr Imaging Of P-31-Containing Metabolites: Multipoint-Dixon Vs. Frequency-Selective Excitation

The purpose of this study is to develop nuclear-Overhauser-enhanced (NOE) [H-1]-P-31 magnetic resonance imaging (MRI) based on 3D fully-balanced steady-state free precession (fbSSFP). Therefore, two implementations of a 3D fbSSFP sequence are compared using frequency-selective excitation (FreqSel) and multipoint-Dixon (MP-Dixon). P-31-containing model solutions and four healthy volunteers were examined at field strengths of B-0 = 3 T and 7 T. Maps of the distribution of phosphocreatine (PCr), inorganic phosphate (P-i), and adenosine 5'-triphosphate (ATP) in the human calf were obtained with an isotropic resolution of 1.5 cm (1.0 cm) in an acquisition time of 5 min (10 min). NOE-pulses had the highest impact on the PCr acquisitions enhancing the signal up to (82 +/- 13) % at 3 T and up to (37 +/- 9) % at 7 T. An estimation of the level of PCr in muscle tissue from [H-1]-P-31 MRI data yielded a mean value of (33 +/- 8) mM. In conclusion, direct [H-1]-P-31 imaging using FreqSel as well as MP-Dixon is possible in clinically feasible acquisition times. FreqSel should be preferred for measurements where only a single metabolite resonance is considered. MP-Dixon performs better in terms of SNR if a larger spectral width is of interest. (C) 2015 Elsevier Inc. All rights reserved.