Thomas Lange1, Maxim Zaitsev, Martin Buechert. 1. Department of Radiology, Medical Physics, University Hospital Freiburg, Freiburg, Germany. thomas.lange@uniklinik-freiburg.de
Abstract
PURPOSE: To evaluate the impact of heating-induced frequency drifts on single-voxel spectroscopy and to demonstrate correction strategies based on the interleaved reference scan technique. MATERIALS AND METHODS: Frequency drifts induced by gradient heating are assessed for two clinical 3 Tesla (T) whole body MR systems. The interleaved reference scan (IRS) method is used for correcting these frequency drifts in 1H spectra in vitro and in vivo. For severely drift-affected spectroscopy experiments, a feedback-based version of the IRS sequence is proposed, which adds the functionality of a frequency lock to prevent a degradation of the water suppression. RESULTS: It is shown that the line widths of the spectral resonances can be largely reduced with the interleaved reference scan method, resulting in considerably improved peak resolution and signal-to-noise ratio. The feedback-based IRS method additionally allows for stable water suppression, even in the presence of very strong frequency drifts. CONCLUSION: If spectroscopy scans are combined with imaging scans with a high gradient duty cycle such as diffusion-weighted imaging or functional MRI, a drift correction with IRS can considerably improve the validity of data analysis in research studies.
PURPOSE: To evaluate the impact of heating-induced frequency drifts on single-voxel spectroscopy and to demonstrate correction strategies based on the interleaved reference scan technique. MATERIALS AND METHODS: Frequency drifts induced by gradient heating are assessed for two clinical 3 Tesla (T) whole body MR systems. The interleaved reference scan (IRS) method is used for correcting these frequency drifts in 1H spectra in vitro and in vivo. For severely drift-affected spectroscopy experiments, a feedback-based version of the IRS sequence is proposed, which adds the functionality of a frequency lock to prevent a degradation of the water suppression. RESULTS: It is shown that the line widths of the spectral resonances can be largely reduced with the interleaved reference scan method, resulting in considerably improved peak resolution and signal-to-noise ratio. The feedback-based IRS method additionally allows for stable water suppression, even in the presence of very strong frequency drifts. CONCLUSION: If spectroscopy scans are combined with imaging scans with a high gradient duty cycle such as diffusion-weighted imaging or functional MRI, a drift correction with IRS can considerably improve the validity of data analysis in research studies.
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