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Keywords:

  • automatic shimming;
  • magnetic field mapping;
  • homogeneity adjustment;
  • in vivo

Abstract

The implementation of a “fast, automatic shimming technique by mapping along projections” (FASTMAP) on a 2.1-Tesla whole-body system is described. The method provides a localized adjustment of all first- (X, Y, Z) and second-order (Z2, ZX, ZY, X2-Y2, 2XY) coils in 2 min. The time savings are achieved by mapping the magnetic field along six projections rather than from whole-imaging data sets. An analysis of noise error propagation suggests that in 64-ml volumes the residual linewidths obtained with the method are negligible when the signal-to-rms-noise ratio is above 30. The initial application of the method to localized 13C, 31P, and 1H spectroscopy of the human brain resulted in linewidths of ∼2 Hz for 13C (144-ml volume), ∼2.5 Hz for 31P (36-ml volume) and ∼4 Hz for 1H (36-ml volume) with symmetric and reproducible lineshapes.