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Biophysical mechanisms of phase contrast in gradient echo MRI
Xiang He,
Dmitriy A. Yablonskiy
Roy and Diana Vagelos Division of Biology & Biomedical Sciences (DBBS)
Institute of Clinical and Translational Sciences (ICTS)
Biomedical Research Lab
DBBS - Neurosciences
Hope Center for Neurological Disorders
Research output
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Contribution to journal
›
Article
›
peer-review
242
Scopus citations
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Keyphrases
Biophysical Mechanisms
100%
Lipids
100%
Phase Contrast
100%
Gradient Echo MRI
100%
Cellular Level
33%
Cellular Composition
33%
Comparison Experiment
33%
Normal Human
33%
Tissue Phase
33%
Fiber Tracking
33%
Enhanced Resolution
33%
Magnetic Resonance Frequency
33%
Lorentzian Approximation
33%
Magnetic Susceptibility
33%
Theory Comparison
33%
Structural Arrangement
33%
Signal Phase
33%
Animal Brain
33%
Tracking Applications
33%
Biological Tissue
33%
Quantitative Evaluation
33%
Cellular Architecture
33%
Tissue Microstructure
33%
MRI Phase
33%
Deoxyhemoglobin
33%
Water Molecule
33%
Cortex Area
33%
Brain Proteins
33%
Phase Measurement
33%
Brain Iron
33%
Non-heme
33%
Non-heme Iron
33%
Tissue Architecture
33%
Frequency Shift
33%
External Magnetic Field
33%
Motor Cortex
33%
Human Brain
33%
Microstructure-based
33%
Magnetic Environment
33%
Gradient Echo
33%
Tissue Iron
33%
Tissue Structure
33%
Subcellular Level
33%
Phase Image
33%
Engineering
Phase Contrast
100%
Iron
100%
Resonance Frequency
33%
External Magnetic Field
33%
Subcellular
33%
Frequency Shift
33%
Human Brain
33%
Quantitative Evaluation
33%
Phase Image
33%
Biological Tissue
33%
Phase Composition
33%
Neuroscience
Magnetic Resonance Imaging
100%
Heme
66%
In Vivo
33%
Magnetic Susceptibility
33%
Motor Cortex
33%
Brain Protein
33%
Deoxyhemoglobin
33%
Material Science
Magnetic Resonance Imaging
100%
Cerebrospinal Fluid
66%
Magnetic Susceptibility
33%
Phase Composition
33%
Biochemistry, Genetics and Molecular Biology
Magnetic Susceptibility
33%