Clinically constrained optimization of flexTPI acquisition parameters for the tissue sodium concentration bioscale

The rapid transverse relaxation of the sodium magnetic resonance signal during spatial encoding causes a loss of image resolution, an effect known as T2‐blurring. Conventional wisdom suggests that spatial resolution is maximized by keeping the readout duration as short as possible to minimize T2‐blu...

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Veröffentlicht in:	Magnetic resonance in medicine 2011-10, Vol.66 (4), p.1089-1099
Hauptverfasser:	Atkinson, Ian C., Lu, Aiming, Thulborn, Keith R.
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Sprache:	eng
Schlagworte:	Biomarkers - metabolism Brain Mapping - methods flexTPI Homeostasis Humans Image Enhancement - methods Image Processing, Computer-Assisted - methods Imaging, Three-Dimensional Magnetic Resonance Imaging - methods quantification resolution Sodium - metabolism sodium imaging T2-blurring Whole Body Imaging
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description	The rapid transverse relaxation of the sodium magnetic resonance signal during spatial encoding causes a loss of image resolution, an effect known as T2‐blurring. Conventional wisdom suggests that spatial resolution is maximized by keeping the readout duration as short as possible to minimize T2‐blurring. Flexible twisted projection imaging performed with an ultrashort echo time, relative to T2, and a long repetition time, relative to T1, has been shown to be effective for quantitative sodium magnetic resonance imaging. A minimized readout duration requires a very large number of projections and, consequentially, results in an impractically long total acquisition time to meet these conditions. When the total acquisition time is limited to a clinically practical duration (e.g., 10 min), the optimal parameters for maximal spatial resolution of a flexible twisted projection imaging acquisition do not correspond to the shortest possible readout. Simulation and experimental results for resolution optimized acquisition parameters of quantitative sodium flexible twisted projection imaging of parenchyma and cerebrospinal fluid are presented for the human brain at 9.4 and 3.0T. The effect of signal loss during data collection on sodium quantification bias and image signal‐to‐noise ratio are discussed. Magn Reson Med, 2011. © 2011 Wiley‐Liss, Inc.
doi_str_mv	10.1002/mrm.22908
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Simulation and experimental results for resolution optimized acquisition parameters of quantitative sodium flexible twisted projection imaging of parenchyma and cerebrospinal fluid are presented for the human brain at 9.4 and 3.0T. The effect of signal loss during data collection on sodium quantification bias and image signal‐to‐noise ratio are discussed. 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Reson. Med</addtitle><description>The rapid transverse relaxation of the sodium magnetic resonance signal during spatial encoding causes a loss of image resolution, an effect known as T2‐blurring. Conventional wisdom suggests that spatial resolution is maximized by keeping the readout duration as short as possible to minimize T2‐blurring. Flexible twisted projection imaging performed with an ultrashort echo time, relative to T2, and a long repetition time, relative to T1, has been shown to be effective for quantitative sodium magnetic resonance imaging. A minimized readout duration requires a very large number of projections and, consequentially, results in an impractically long total acquisition time to meet these conditions. When the total acquisition time is limited to a clinically practical duration (e.g., 10 min), the optimal parameters for maximal spatial resolution of a flexible twisted projection imaging acquisition do not correspond to the shortest possible readout. Simulation and experimental results for resolution optimized acquisition parameters of quantitative sodium flexible twisted projection imaging of parenchyma and cerebrospinal fluid are presented for the human brain at 9.4 and 3.0T. The effect of signal loss during data collection on sodium quantification bias and image signal‐to‐noise ratio are discussed. 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subjects	Biomarkers - metabolism Brain Mapping - methods flexTPI Homeostasis Humans Image Enhancement - methods Image Processing, Computer-Assisted - methods Imaging, Three-Dimensional Magnetic Resonance Imaging - methods quantification resolution Sodium - metabolism sodium imaging T2-blurring Whole Body Imaging
title	Clinically constrained optimization of flexTPI acquisition parameters for the tissue sodium concentration bioscale
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