Literature DB >> 21601405

Magnetization transfer using inversion recovery during off-resonance irradiation.

Silvia Mangia1, Federico De Martino, Timo Liimatainen, Michael Garwood, Shalom Michaeli.   

Abstract

Estimation of magnetization transfer (MT) parameters in vivo can be compromised by an inability to drive the magnetization to a steady state using allowable levels of radiofrequency (RF) irradiation, due to safety concerns (tissue heating and specific absorption rate (SAR)). Rather than increasing the RF duration or amplitude, here we propose to circumvent the SAR limitation by sampling the formation of the steady state in separate measurements made with the magnetization initially along the -z and +z axis of the laboratory frame, i.e. with or without an on-resonance inversion pulse prior to the off-resonance irradiation. Results from human brain imaging demonstrate that this choice provides a tremendous benefit in the fitting procedure used to estimate MT parameters. The resulting parametric maps are characterized by notably increased tissue specificity as compared to those obtained with the standard MT acquisition in which magnetization is initially along the +z axis only.
Copyright © 2011 Elsevier Inc. All rights reserved.

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Year:  2011        PMID: 21601405      PMCID: PMC3161149          DOI: 10.1016/j.mri.2011.04.002

Source DB:  PubMed          Journal:  Magn Reson Imaging        ISSN: 0730-725X            Impact factor:   2.546


  15 in total

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  15 in total

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Review 3.  Nonconventional MRI and microstructural cerebral changes in multiple sclerosis.

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4.  MRI rotating frame relaxation measurements for articular cartilage assessment.

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5.  Magnetization transfer and adiabatic T1ρ MRI reveal abnormalities in normal-appearing white matter of subjects with multiple sclerosis.

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7.  Fast magnetization transfer and apparent T1 imaging using a short saturation pulse with and without inversion preparation.

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8.  Multiparametric MRI assessment of human articular cartilage degeneration: Correlation with quantitative histology and mechanical properties.

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9.  Multi-parametric MRI characterization of enzymatically degraded articular cartilage.

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10.  Development of fast multi-slice apparent T1 mapping for improved arterial spin labeling MRI measurement of cerebral blood flow.

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