Ghost peaks simulation and reduction in high-resolution echo-planar spectroscopic imaging with flyback readout
Jan Weis, Magor Babos, Ram Kumar Selvaraju

TL;DR
This paper addresses the issue of ghost peaks in echo-planar spectroscopic imaging and proposes methods to reduce them, improving signal quality.
Contribution
The study introduces iterative zero-order phase corrections to reduce ghost peaks in EPSI with flyback readouts.
Findings
Simulations showed that temporal shifts and phase variations affect ghost peak formation.
Zero-order phase corrections significantly reduced ghost peak magnitudes in phantom and rat experiments.
The proposed methods are effective for high-resolution water-fat spectroscopy and imaging.
Abstract
The undesirable aspect of echo-planar spectroscopic imaging (EPSI) is the occurrence of Nyquist ghost spectral lines. This phenomenon reduces the intensity of each true spectral line due to energy transfer into one or more ghost peaks. It complicates spectra and decreases the signal-to-noise ratio of the genuine peaks. This study aims to simulate ghost spectral lines for EPSI with interleaved flyback gradient echo trains and to propose methods for reducing ghost peaks. Simulations utilized the fact that the spectra reconstructed from a single flyback gradient echo train do not contain ghost spectral lines. The acquired raw data were reorganized into interleaved two echo trains before processing. The simulations aimed to demonstrate the effects of temporal shifts, magnitude, and phase variations of echoes in the interleaved second echo train on the formation of ghost peaks. Iterative…
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Taxonomy
TopicsAdvanced MRI Techniques and Applications · Optical Imaging and Spectroscopy Techniques · Optical Coherence Tomography Applications
