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In vivo detection of GABA in human brain using a localized double-quantum filter technique

✍ Scribed by John R. Keltner; Lawrence L. Wald; Blaise De B. Frederick; Perry F. Renshaw

Publisher
John Wiley and Sons
Year
1997
Tongue
English
Weight
495 KB
Volume
37
Category
Article
ISSN
0740-3194

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✦ Synopsis

Abstract

A proton MR spectral editing technique employing a spatially localized, double‐quantum filter (DQF) was used to measure γ‐aminobutyric acid (GABA) in the human brain at 1.5 T. The double‐quantum method provided robust, single‐shot suppression of uncoupled resonances from choline, creatine, and NAA and allowed detection of the γCH~2~ GABA (3.0 ppm) resonance with 30% efficiency. Spatial localization of the GABA measurement was achieved by incorporating PRESS localization within the double‐quantum excitation and detection sequence. A calibration technique was developed to adjust the relative phases of the RF pulses to maximize the in vivo double‐quantum detection efficiency for an arbitrary voxel location. The sequence efficiency, degree of suppression of uncoupled resonances, and characterization of the in vivo DQF technique was examined in phantom experiments and in a study of the occipital lobe of 10 normal subjects. The ratio of the 3.0‐ppm GABA resonance to the 3.0‐ppm creatine resonance was found to be 0.20 ± 0.05 (SD).

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