Saved in:
Bibliographic Details
Main Authors: Borreguero, Jose, Galve, Fernando, Algarín, José Miguel, Alonso, Joseba
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.18960
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866909681980538880
author Borreguero, Jose
Galve, Fernando
Algarín, José Miguel
Alonso, Joseba
author_facet Borreguero, Jose
Galve, Fernando
Algarín, José Miguel
Alonso, Joseba
contents Zero echo time (ZTE) sequences have proven a powerful tool for Magnetic Resonance Imaging (MRI) of ultrashort T2 tissues, but they fail to produce useful images in the presence of strong field inhomogeneities. Here we present a method to correct artifacts induced by strong B0 inhomogeneities in non-Cartesian sequences, based on magnetic field maps obtained from the phase difference between two fast pointwise acquisitions. These are free of geometric distortions and can be used for model based image reconstruction with iterative algebraic techniques. In this paper, we show that distortions and artifacts coming from inhomogeneites in B0 are largely reverted by our method, as opposed to standard Conjugate Phase reconstructions. We base this technique on a Single-Point Double-Shot (SPDS) approach, and we have shown it to work even for intra-voxel bandwidths (determined by B0 inhomogeneities) comparable to the encoding bandwidth (determined by the gradient fields). We benchmark the performance of SPDS for ZTE acquisitions, which can be exploited for e.g. dental imaging in affordable low-field MRI systems. Furthermore, SPDS can be used for arbitrary pulse sequences and it may prove useful for extreme magnet geometries, as in e.g. single-sided MRI.
format Preprint
id arxiv_https___arxiv_org_abs_2405_18960
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Zero-echo-time sequences in highly inhomogeneous fields
Borreguero, Jose
Galve, Fernando
Algarín, José Miguel
Alonso, Joseba
Medical Physics
Zero echo time (ZTE) sequences have proven a powerful tool for Magnetic Resonance Imaging (MRI) of ultrashort T2 tissues, but they fail to produce useful images in the presence of strong field inhomogeneities. Here we present a method to correct artifacts induced by strong B0 inhomogeneities in non-Cartesian sequences, based on magnetic field maps obtained from the phase difference between two fast pointwise acquisitions. These are free of geometric distortions and can be used for model based image reconstruction with iterative algebraic techniques. In this paper, we show that distortions and artifacts coming from inhomogeneites in B0 are largely reverted by our method, as opposed to standard Conjugate Phase reconstructions. We base this technique on a Single-Point Double-Shot (SPDS) approach, and we have shown it to work even for intra-voxel bandwidths (determined by B0 inhomogeneities) comparable to the encoding bandwidth (determined by the gradient fields). We benchmark the performance of SPDS for ZTE acquisitions, which can be exploited for e.g. dental imaging in affordable low-field MRI systems. Furthermore, SPDS can be used for arbitrary pulse sequences and it may prove useful for extreme magnet geometries, as in e.g. single-sided MRI.
title Zero-echo-time sequences in highly inhomogeneous fields
topic Medical Physics
url https://arxiv.org/abs/2405.18960