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Literature DB >> 10893515

Optimal voxel size for measuring global gray and white matter proton metabolite concentrations using chemical shift imaging.

L G Hanson¹, E Adalsteinsson, A Pfefferbaum, D M Spielman.

Abstract

Quantification of gray and white matter levels of spectroscopically visible metabolites can provide important insights into brain development and pathological conditions. Chemical shift imaging offers a gain in efficiency for estimation of global gray and white matter metabolite concentrations compared to single voxel methods. In the present study, the optimal voxel size is calculated from segmented human brain data and accompanying field maps. The optimal voxel size is found to be approximately 8 cc, but a wide range of values, 4-64 cc, can be chosen with little increase in estimated concentration error (<15%). Magn Reson Med 44:10-18, 2000. Copyright 2000 Wiley-Liss, Inc.

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Year: 2000 PMID： 10893515 DOI： 10.1002/1522-2594(200007)44:1<10::aid-mrm3>3.0.co;2-8

Source DB: PubMed Journal: Magn Reson Med ISSN： 0740-3194 Impact factor: 4.668

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Cited

6 in total

1. Multivoxel 3D proton spectroscopy in the brain at 1.5 versus 3.0 T: signal-to-noise ratio and resolution comparison.

Authors: O Gonen; S Gruber; B S Li; V Mlynárik; E Moser
Journal: AJNR Am J Neuroradiol Date: 2001-10 Impact factor: 3.825

2. Tract-based magnetic resonance spectroscopy of the cingulum bundles at 7 T.

Authors: René C W Mandl; Martijn P van den Heuvel; Dennis W J Klomp; Vincent O Boer; Jeroen C W Siero; Peter R Luijten; Hilleke E Hulshoff Pol
Journal: Hum Brain Mapp Date: 2011-06-14 Impact factor: 5.038

3. Quantitative analysis of spatial averaging effect on chemical shift imaging SNR and noise coherence with k-space sampling schemes.

Authors: Byeong-Yeul Lee; Xiao-Hong Zhu; Wei Chen
Journal: Magn Reson Imaging Date: 2019-03-31 Impact factor: 2.546

Optimal voxel size for measuring global gray and white matter proton metabolite concentrations using chemical shift imaging.

1. Multivoxel 3D proton spectroscopy in the brain at 1.5 versus 3.0 T: signal-to-noise ratio and resolution comparison.

2. Tract-based magnetic resonance spectroscopy of the cingulum bundles at 7 T.

3. Quantitative analysis of spatial averaging effect on chemical shift imaging SNR and noise coherence with k-space sampling schemes.

4. Reproducibility of serial whole-brain MR spectroscopic imaging.

5. On the voxel size and magnetic field strength dependence of spectral resolution in magnetic resonance spectroscopy.

6. Proton MR spectroscopic imaging of rhesus macaque brain in vivo at 7T.