Journal article
3D-multi-echo radial imaging of 23Na (3D-MERINA) for time-efficient multi-parameter tissue compartment mapping
Y Blunck, S Josan, SW Taqdees, BA Moffat, RJ Ordidge, JO Cleary, LA Johnston
Magnetic Resonance in Medicine | WILEY | Published : 2018
DOI: 10.1002/mrm.26848
Abstract
Purpose: This work demonstrates a 3D radial multi-echo acquisition scheme for time-efficient sodium (23Na) MR-signal acquisition and analysis. Echo reconstructions were used to produce signal-to-noise ratio (SNR)-enhanced 23Na-images and parameter maps of the biexponential observed transverse relaxation time (T2*) decay. Methods: A custom-built sequence for radial multi-echo acquisition was proposed for acquisition of a series of 3D volumetric 23Na-images. Measurements acquired in a phantom and in vivo human brains were analyzed for SNR enhancement and multi-component T2* estimation. Results: Rapid gradient refocused imaging acquired 38 echoes within a repetition time of 160 ms. Signal avera..
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Funding Acknowledgements
The work was supported by a research collaboration agreement with Siemens Healthcare. Grant sponsor: Jon Cleary is funded by a University of Melbourne McKenzie Fellowship. Bradford Moffat is supported by the Australian National Imaging Facility (NIF).