Getting the phase consistent: The importance of phase description in balanced steady-state free precession MRI of multicompartment systems
Nils M.J. Pl\"ahn, Simone Poli, Eva S. Peper, Berk C. A\c{c}ikg\"oz,, Roland Kreis, Carl Ganter, Jessica A.M. Bastiaansen

TL;DR
This paper clarifies the correct phase description for bSSFP MRI signals in multicompartment systems, demonstrating that the proper phase model predicts destructive interference consistent with experimental data, which is essential for accurate imaging.
Contribution
It identifies and validates the correct phase description for multicompartment bSSFP signals, resolving a key theoretical ambiguity in MRI signal modeling.
Findings
Destructive interference observed in experiments supports the phase description predicting its presence.
Simulations show significant differences in bSSFP profiles based on phase description choice.
Correct phase description aligns with Bloch equation predictions and experimental results.
Abstract
Purpose: Determine the correct mathematical phase description for balanced steady-state free precession (bSSFP) signals in multicompartment systems. Theory and Methods: Based on published bSSFP signal models, two distinct phase descriptions can be formulated: one predicting the presence and the other predicting the absence of destructive interference effects in multicompartment systems. Numerical simulations of bSSFP signals of water and acetone were performed to evaluate the predictions of these two distinct phase descriptions. For experimental validation, bSSFP profiles were measured at 3T using phase-cycled bSSFP acquisitions performed in a phantom containing mixtures of water and acetone, which replicates a system with two signal components. Localized single voxel MRS was performed at 7T to determine the relative chemical-shift of the acetone-water mixtures. Results: Based on the…
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Taxonomy
TopicsAdvanced MRI Techniques and Applications · Lanthanide and Transition Metal Complexes · MRI in cancer diagnosis
