Automatic, localized in Vivo adjustment of all first‐and second‐order shim coils

R Gruetter - Magnetic resonance in medicine, 1993 - Wiley Online Library
Magnetic resonance in medicine, 1993Wiley Online Library
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 …
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.
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