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axcaliber (9) 9
diffusion magnetic resonance imaging - methods (6) 6
diffusion mri (5) 5
humans (5) 5
index medicus (5) 5
radiology, nuclear medicine & medical imaging (5) 5
spinal cord (5) 5
adult (4) 4
axon diameter (4) 4
axon diameter distribution (4) 4
diffusion (4) 4
female (4) 4
magnetic resonance imaging (4) 4
male (4) 4
multiple-sclerosis (4) 4
neurosciences (4) 4
white-matter (4) 4
article (3) 3
axons (3) 3
neuroimaging (3) 3
algorithms (2) 2
brain (2) 2
corpus-callosum (2) 2
diagnostic imaging (2) 2
dti (2) 2
g-ratio (2) 2
histology (2) 2
human (2) 2
image processing (2) 2
image processing, computer-assisted - methods (2) 2
magnetic-resonance (2) 2
magnetization-transfer (2) 2
medical research (2) 2
medicine, experimental (2) 2
microstructure (2) 2
mri (2) 2
multiple sclerosis (2) 2
myelin mapping (2) 2
nervous system (2) 2
nervous system diseases (2) 2
nuclear magnetic resonance--nmr (2) 2
quantification (2) 2
reproducibility of results (2) 2
spinal cord - diagnostic imaging (2) 2
substantia alba (2) 2
water diffusion (2) 2
young adult (2) 2
1d-shore (1) 1
300 mt/m (1) 1
activeax (1) 1
activeax, axcaliber, dti, brain, magnetic resonance imaging, model, monkey (1) 1
adolescent (1) 1
analysis (1) 1
anatomy & morphology (1) 1
animals (1) 1
anisotropy (1) 1
approximation (1) 1
attention deficit disorder (1) 1
attenuation (1) 1
axons - physiology (1) 1
biomedical engineering (1) 1
biomedicine (1) 1
biomimetics (1) 1
biomimetics - methods (1) 1
biomimetics - standards (1) 1
brain - anatomy & histology (1) 1
brain - physiology (1) 1
cell biology (1) 1
charmed (1) 1
computer simulation (1) 1
conduction velocity (1) 1
connectome (1) 1
correlation (1) 1
correlation coefficient (1) 1
correlation coefficients (1) 1
data models (1) 1
decay (1) 1
density (1) 1
dietary fiber (1) 1
diffusion magnetic resonance imaging - instrumentation (1) 1
diffusion magnetic resonance imaging - standards (1) 1
diffusion tensor imaging (1) 1
diffusion weighted mri (1) 1
edema (1) 1
eeg-erp's (1) 1
eeg-erp’s (1) 1
electroencephalography (1) 1
erbium (1) 1
estimates (1) 1
estimation (1) 1
event-related potentials (1) 1
experiments (1) 1
fiber-tracking (1) 1
fixation (1) 1
haplorhini (1) 1
human brain (1) 1
human connectome project (1) 1
human corpus-callosum (1) 1
human white-matter (1) 1
image interpretation, computer-assisted - methods (1) 1
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1. Full Text Contrast and stability of the axon diameter index from microstructure imaging with diffusion MRI
by Dyrby, Tim B and S⊘gaard, Lise V and Hall, Matt G and Ptito, Maurice and Alexander, Daniel. C
Magnetic Resonance in Medicine, ISSN 0740-3194, 09/2013, Volume 70, Issue 3, pp. 711 - 721
The ActiveAx technique fits the minimal model of white matter diffusion to diffusion MRI data acquired using optimized protocols that provide orientationally... 
magnetic resonance imaging | monkey | DTI | model | AxCaliber | ActiveAx | brain | CORPUS-CALLOSUM | TISSUE | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | FIXATION | Axons | Animals | Diffusion Magnetic Resonance Imaging - methods | Monte Carlo Method | Sensitivity and Specificity | Haplorhini | Magnetic resonance imaging | Monte Carlo method | Monkeys | Imaging Methodology—Full Paper
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2. Full Text In vivo mapping of human spinal cord microstructure at 300mT/m
by Duval, Tanguy and McNab, Jennifer A and Setsompop, Kawin and Witzel, Thomas and Schneider, Torben and Huang, Susie Yi and Keil, Boris and Klawiter, Eric C and Wald, Lawrence L and Cohen-Adad, Julien
NeuroImage, ISSN 1053-8119, 09/2015, Volume 118, pp. 494 - 507
The ability to characterize white matter microstructure non-invasively has important applications for the diagnosis and follow-up of several neurological... 
Human | Diffusion MRI | Spinal cord | AxCaliber | Quantification | Axon diameter | Humans | Adult | Female | Male | Image Processing, Computer-Assisted - methods | Spinal Cord - cytology | Diffusion Magnetic Resonance Imaging - methods | White Matter - cytology | Nervous system | Multiple sclerosis | Histology | Methods
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3. Full Text In vivo mapping of human spinal cord microstructure at 300 mT/m
by Duval, T and McNab, JA and Setsompop, K and Witzel, T and Schneider, T and Huang, SY and Keil, B and Klawiter, EC and Wald, LL and Cohen-Adad, J
NEUROIMAGE, ISSN 1053-8119, 09/2015, Volume 118, pp. 494 - 507
The ability to characterize white matter microstructure non-invasively has important applications for the diagnosis and follow-up of several neurological... 
Human | Spinal cord | MULTICOMPONENT T-1 | Quantification | WHITE-MATTER | MAGNETIZATION-TRANSFER | AxCaliber | TISSUE-MICROSTRUCTURE | RADIAL DIFFUSIVITY | NEUROSCIENCES | NEUROIMAGING | AXON DIAMETER DISTRIBUTION | WATER DIFFUSION | MULTIPLE-SCLEROSIS | CORPUS-CALLOSUM | Diffusion MRI | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | Axon diameter | Image processing | Nervous system diseases | Biomedical engineering | diffusion MRI | quantification | spinal cord | axon diameter | human
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4. Full Text g-Ratio weighted imaging of the human spinal cord in vivo
by Duval, T and Lévy, S and Stikov, N and Campbell, J and Mezer, A and Witzel, T and Keil, B and Smith, V and Wald, L.L and Klawiter, E and Cohen-Adad, J
NeuroImage, ISSN 1053-8119, 01/2017, Volume 145, Issue Pt A, pp. 11 - 23
The fiber g-ratio is defined as the ratio of the inner to the outer diameter of the myelin sheath. This ratio provides a measure of the myelin thickness that... 
g-Ratio | Myelin mapping | Axcaliber | Spinal cord | Diffusion | MRI | HUMAN WHITE-MATTER | HUMAN BRAIN | 300 MT/M | NEURITE ORIENTATION DISPERSION | NEUROSCIENCES | NEUROIMAGING | TIME-DEPENDENT DIFFUSION | AXON DIAMETER DISTRIBUTION | MULTIPLE-SCLEROSIS | MAGNETIC-RESONANCE | RADIOFREQUENCY FIELD | MYELIN G-RATIO | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | Humans | Myelin Sheath | Spinal Cord - diagnostic imaging | Magnetic Resonance Imaging - methods | Adult | Female | Male | Diffusion Magnetic Resonance Imaging - methods | Specific gravity | Multiple sclerosis | Diagnostic imaging | Values | Edema | Nervous system | Standard deviation | Nuclear magnetic resonance--NMR | Dietary fiber | axcaliber | myelin mapping | diffusion | spinal cord | g-ratio
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5. Full Text Validation of diffusion MRI estimates of compartment size and volume fraction in a biomimetic brain phantom using a human MRI scanner with 300 mT/m maximum gradient strength
by Fan, Qiuyun and Nummenmaa, Aapo and Wichtmann, Barbara and Witzel, Thomas and Mekkaoui, Choukri and Schneider, Walter and Wald, Lawrence L and Huang, Susie Y
NeuroImage, ISSN 1053-8119, 11/2018, Volume 182, pp. 469 - 478
Diffusion microstructural imaging techniques have attracted great interest in the last decade due to their ability to quantify axon diameter and volume... 
Phantom validation | q-space | AxCaliber | Human connectome project | Diffusion | Microstructure | WHITE-MATTER | WATER RELAXATION | NEUROSCIENCES | NEUROIMAGING | AXON DIAMETER DISTRIBUTION | MULTIPLE-SCLEROSIS | MAGNETIC-RESONANCE | FIBER-TRACKING | SPIN-ECHO | STATE FREE PRECESSION | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | NERVOUS-TISSUE | Diffusion Magnetic Resonance Imaging - standards | Models, Theoretical | Neuroimaging - methods | Phantoms, Imaging - standards | Biomimetics - methods | Biomimetics - standards | Reproducibility of Results | Computer Simulation | Humans | Connectome | Diffusion Magnetic Resonance Imaging - methods | Neuroimaging - standards | Textile fabrics | Medicine, Experimental | Medical research | Usage | Biomimetics | Neuroimaging | Research & development--R&D | Standardization | Realism | Permeability | Substantia alba | Estimates | Experiments | Mimicry | Magnetic resonance imaging | Polypropylene | Anisotropy | Quality control | Software | Human Connectome Project | microstructure | phantom validation
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6. Full Text Scan–rescan of axcaliber, macromolecular tissue volume, and g‐ratio in the spinal cord
by Duval, Tanguy and Smith, Victoria and Stikov, Nikola and Klawiter, Eric C and Cohen‐Adad, Julien
Magnetic Resonance in Medicine, ISSN 0740-3194, 05/2018, Volume 79, Issue 5, pp. 2759 - 2765
Purpose Recent MRI techniques have been introduced that can extract microstructural information in the white matter, such as the density or macromolecular... 
diffusion | AxCaliber | myelin content; spinal cord; g‐ratio | MRI | myelin content; spinal cord; g-ratio | myelin content | WHITE-MATTER | g-ratio | MAGNETIZATION-TRANSFER | OF-THE-ART | REPRODUCIBILITY | IN-VIVO | DIFFUSION MRI | MYELIN WATER FRACTION | spinal cord | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | Reproducibility of Results | Humans | Image Interpretation, Computer-Assisted - methods | Spinal Cord - diagnostic imaging | Male | Young Adult | Spinal Cord - chemistry | Algorithms | Adolescent | Signal Processing, Computer-Assisted | Adult | Female | Myelin Sheath - chemistry | Diffusion Magnetic Resonance Imaging - methods | Medicine, Experimental | Medical research | Diagnostic imaging | Image processing | Analysis | Attention deficit disorder | Correlation coefficient | Spinal cord | Magnetic resonance imaging | Reproducibility | Macromolecules | Correlation coefficients | Information processing | Substantia alba | Microstructure | Variance analysis | Myelin mapping | g-Ratio | Diffusion
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7. Full Text In vivo correlation between axon diameter and conduction velocity in the human brain
by Horowitz, Assaf and Horowitz, Assaf and Barazany, Daniel and Barazany, Daniel and Tavor, Ido and Tavor, Ido and Bernstein, Moran and Bernstein, Moran and Yovel, Galit and Yovel, Galit and Assaf, Yaniv and Assaf, Yaniv
Brain Structure and Function, ISSN 1863-2653, 5/2015, Volume 220, Issue 3, pp. 1777 - 1788
The understanding of the relationship between structure and function has always characterized biology in general and neurobiology in particular. One such... 
Neurology | Neurosciences | Biomedicine | DTI | Diffusion MRI | EEG-ERP’s | AxCaliber | Conduction velocity | Axon diameter | Cell Biology | WHITE-MATTER | ANATOMY & MORPHOLOGY | SPINAL-CORD | NEUROSCIENCES | TRANSMISSION TIME | NERVE-CONDUCTION | EEG-ERP's | INTERHEMISPHERIC-TRANSFER TIME | WATER DIFFUSION | MULTIPLE-SCLEROSIS | EVENT-RELATED POTENTIALS | HUMAN CORPUS-CALLOSUM | Visual Perception - physiology | Brain - anatomy & histology | Humans | Male | Neural Conduction - physiology | Axons - physiology | Electroencephalography | Image Processing, Computer-Assisted - methods | Touch Perception - physiology | Brain - physiology | Young Adult | Algorithms | Diffusion Magnetic Resonance Imaging - instrumentation | Adult | Female | Diffusion Magnetic Resonance Imaging - methods | Brain | Nervous system diseases | Valuation | Physiological aspects | Real property | Neurophysiology | Nuclear magnetic resonance--NMR
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8. Full Text Assessing the feasibility of estimating axon diameter using diffusion models and machine learning
by Fick, Rutger H. J and Sepasian, Neda and Pizzolato, Marco and Ianus, Andrada and Deriche, Rachid
2017 IEEE 14th International Symposium on Biomedical Imaging (ISBI 2017), ISSN 1945-7928, 04/2017, pp. 766 - 769
Axon diameter estimation has been a focus of the diffusion MRI community for the past decade. The main argument has been that while diffusion models always... 
Validation | Correlation | Spinal cord | Estimation | Histology | AxCaliber | 1D-SHORE | Machine Learning | Diffusion tensor imaging | Random Forest | Radio frequency | Axons | Axon Diameter | MAP-MRI | Diffusion MRI
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9. Full Text Limitations of two-component diffusion models for axon diameter density estimation
by Taqdees, Syeda Warda and Moore, Stephen M and Wright, David K and Tolcos, Mary and Johnston, Leigh A
2015 IEEE 12th International Symposium on Biomedical Imaging (ISBI), ISSN 1945-7928, 04/2015, Volume 2015-, pp. 1176 - 1179
Two component models of diffusion-weighed signal decay in Magnetic Resonance Imaging have been advocated for use in the estimation of axon diameter... 
Nerve fibers | Magnetic resonance imaging | axon diameter distribution | Optical attenuators | Diffusion weighted MRI | Attenuation | Data models | AxCaliber | Erbium | CHARMED | Optical pulses | Axons | Utilities | Approximation | Mathematical analysis | Decay | Diffusion | Density
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