Improved Efficiency For Microstructure Imaging Using High-Dimensional Mr Correlation Spectroscopic Imaging
2017 FIFTY-FIRST ASILOMAR CONFERENCE ON SIGNALS, SYSTEMS, AND COMPUTERS(2017)
摘要
Magnetic Resonance Correlation Spectroscopic Imaging (MR-CSI) is a high-dimensional imaging approach that our group recently introduced for studying microstructure. MR-CSI uses imaging data that is simultaneously encoded with multiple MR contrast mechanisms, and applies a spatial spectral reconstruction framework to estimate a spectroscopic image with a high-dimensional correlation spectrum for every spatial location. While MR-CSI enables powerful new capabilities for spatially mapping sub-voxel microstructural compartments, the contrast encoding can be slow due to the curse of dimensionality. This paper reviews MR-CSI and investigates a principled estimation theoretic approach that can enable more efficient experiment designs.
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关键词
improved efficiency,microstructure imaging,high-dimensional MR correlation spectroscopic imaging,MR-CSI,high-dimensional imaging approach,multiple MR contrast mechanisms,spatial-spectral reconstruction framework,spectroscopic image,high-dimensional correlation spectrum,spatial location,spatially mapping sub-voxel microstructural compartments,contrast encoding,principled estimation theoretic approach,magnetic resonance correlation spectroscopic imaging
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