A Novel Multiparametric Approach to 3D Quantitative MRI of the Brain.

A Novel Multiparametric Approach to 3D Quantitative MRI of the Brain.

Magnetic Resonance properties of tissues can be quantified in several respects: relaxation processes, density of imaged nuclei, magnetism of environmental molecules, etc. In this paper, we propose a new comprehensive approach to obtain 3D high resolution quantitative maps of arbitrary body districts...

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Main Authors: Giuseppe Palma, Enrico Tedeschi, Pasquale Borrelli, Sirio Cocozza, Carmela Russo, Saifeng Liu, Yongquan Ye, Marco Comerci, Bruno Alfano, Marco Salvatore, E Mark Haacke, Marcello Mancini
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4540440?pdf=render
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spelling doaj-629afc504111455f93233b76b265dfd82020-11-25T01:24:00ZengPublic Library of Science (PLoS)PLoS ONE1932-62032015-01-01108e013496310.1371/journal.pone.0134963A Novel Multiparametric Approach to 3D Quantitative MRI of the Brain.Giuseppe PalmaEnrico TedeschiPasquale BorrelliSirio CocozzaCarmela RussoSaifeng LiuYongquan YeMarco ComerciBruno AlfanoMarco SalvatoreE Mark HaackeMarcello ManciniMagnetic Resonance properties of tissues can be quantified in several respects: relaxation processes, density of imaged nuclei, magnetism of environmental molecules, etc. In this paper, we propose a new comprehensive approach to obtain 3D high resolution quantitative maps of arbitrary body districts, mainly focusing on the brain. The theory presented makes it possible to map longitudinal (R1), pure transverse (R2) and free induction decay ([Formula: see text]) rates, along with proton density (PD) and magnetic susceptibility (χ), from a set of fast acquisition sequences in steady-state that are highly insensitive to flow phenomena. A novel denoising scheme is described and applied to the acquired datasets to enhance the signal to noise ratio of the derived maps and an information theory approach compensates for biases from radio frequency (RF) inhomogeneities, if no direct measure of the RF field is available. Finally, the results obtained on sample brain scans of healthy controls and multiple sclerosis patients are presented and discussed.http://europepmc.org/articles/PMC4540440?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Giuseppe Palma
Enrico Tedeschi
Pasquale Borrelli
Sirio Cocozza
Carmela Russo
Saifeng Liu
Yongquan Ye
Marco Comerci
Bruno Alfano
Marco Salvatore
E Mark Haacke
Marcello Mancini
spellingShingle Giuseppe Palma
Enrico Tedeschi
Pasquale Borrelli
Sirio Cocozza
Carmela Russo
Saifeng Liu
Yongquan Ye
Marco Comerci
Bruno Alfano
Marco Salvatore
E Mark Haacke
Marcello Mancini
A Novel Multiparametric Approach to 3D Quantitative MRI of the Brain.
PLoS ONE
author_facet Giuseppe Palma
Enrico Tedeschi
Pasquale Borrelli
Sirio Cocozza
Carmela Russo
Saifeng Liu
Yongquan Ye
Marco Comerci
Bruno Alfano
Marco Salvatore
E Mark Haacke
Marcello Mancini
author_sort Giuseppe Palma
title A Novel Multiparametric Approach to 3D Quantitative MRI of the Brain.
title_short A Novel Multiparametric Approach to 3D Quantitative MRI of the Brain.
title_full A Novel Multiparametric Approach to 3D Quantitative MRI of the Brain.
title_fullStr A Novel Multiparametric Approach to 3D Quantitative MRI of the Brain.
title_full_unstemmed A Novel Multiparametric Approach to 3D Quantitative MRI of the Brain.
title_sort novel multiparametric approach to 3d quantitative mri of the brain.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2015-01-01
description Magnetic Resonance properties of tissues can be quantified in several respects: relaxation processes, density of imaged nuclei, magnetism of environmental molecules, etc. In this paper, we propose a new comprehensive approach to obtain 3D high resolution quantitative maps of arbitrary body districts, mainly focusing on the brain. The theory presented makes it possible to map longitudinal (R1), pure transverse (R2) and free induction decay ([Formula: see text]) rates, along with proton density (PD) and magnetic susceptibility (χ), from a set of fast acquisition sequences in steady-state that are highly insensitive to flow phenomena. A novel denoising scheme is described and applied to the acquired datasets to enhance the signal to noise ratio of the derived maps and an information theory approach compensates for biases from radio frequency (RF) inhomogeneities, if no direct measure of the RF field is available. Finally, the results obtained on sample brain scans of healthy controls and multiple sclerosis patients are presented and discussed.
url http://europepmc.org/articles/PMC4540440?pdf=render
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