On concomitant gradients in low-field MRI
Growing interest in magnetic resonance imaging (MRI) at ultra-low magnetic fields (ULF, ∼μT fields) has been motivated by several advantages over its counterparts at higher magnetic fields. These include narrow line widths, the possibility of novel imaging schemes, reduced imaging artifacts from sus...
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Veröffentlicht in: | Journal of magnetic resonance (1997) 2005-07, Vol.175 (1), p.103-113 |
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creator | Volegov, P.L. Mosher, J.C. Espy, M.A. Kraus, R.H. |
description | Growing interest in magnetic resonance imaging (MRI) at ultra-low magnetic fields (ULF, ∼μT fields) has been motivated by several advantages over its counterparts at higher magnetic fields. These include narrow line widths, the possibility of novel imaging schemes, reduced imaging artifacts from susceptibility variations within a sample, and reduced system cost and complexity. In addition, ULF NMR/MRI with superconducting quantum interference devices is compatible with simultaneous measurements of biomagnetic signals, a capability conventional systems cannot offer. Acquisition of MRI at ULF must, however, account for concomitant gradients that would otherwise result in severe image distortions. In this paper, we introduce the general theoretical framework that describes concomitant gradients, explain why such gradients are more problematic at low field, and present possible approaches to correct for these unavoidable gradients in the context of a non-slice-selective MRI protocol. |
doi_str_mv | 10.1016/j.jmr.2005.03.015 |
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subjects | Algorithms Computer Simulation Concomitant gradients Distortions Electromagnetic Fields Image Enhancement - methods Image Interpretation, Computer-Assisted - methods Low field Magnetic resonance imaging Magnetic Resonance Imaging - methods Models, Biological Models, Chemical Spin Labels Ultra-low field |
title | On concomitant gradients in low-field MRI |
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