TY  - JOUR
N2  - PURPOSE: Recent advances in diffusion-weighted MRI provide "restricted diffusion signal fraction" and restricting pore size estimates. Materials based on co-electrospun oriented hollow cylinders have been introduced to provide validation for such methods. This study extends this work, exploring accuracy and repeatability using an extended acquisition on a 300 mT/m gradient human MRI scanner, in substrates closely mimicking tissue, that is, non-circular cross-sections, intra-voxel fiber crossing, intra-voxel distributions of pore-sizes, and smaller pore-sizes overall. METHODS: In a single-blind experiment, diffusion-weighted data were collected from a biomimetic phantom on a 3T Connectom system using multiple gradient directions/diffusion times. Repeated scans established short-term and long-term repeatability. The total scan time (54 min) matched similar protocols used in human studies. The number of distinct fiber populations was estimated using spherical deconvolution, and median pore size estimated through the combination of CHARMED and AxCaliber3D framework. Diffusion-based estimates were compared with measurements derived from scanning electron microscopy. RESULTS: The phantom contained substrates with different orientations, fiber configurations, and pore size distributions. Irrespective of one or two populations within the voxel, the pore-size estimates (~5 ?m) and orientation-estimates showed excellent agreement with the median values of pore-size derived from scanning electron microscope and phantom configuration. Measurement repeatability depended on substrate complexity, with lower values seen in samples containing crossing-fibers. Sample-level repeatability was found to be good. CONCLUSION: While no phantom mimics tissue completely, this study takes a step closer to validating diffusion microstructure measurements for use in vivo by demonstrating the ability to quantify microgeometry in relatively complex configurations.
ID  - discovery10127663
UR  - https://doi.org/10.1002/mrm.28810
JF  - Magnetic Resonance in Medicine
A1  - Huang, C-C
A1  - Hsu, C-CH
A1  - Zhou, F-L
A1  - Kusmia, S
A1  - Drakesmith, M
A1  - Parker, GJM
A1  - Lin, C-P
A1  - Jones, DK
KW  - crossing fiber
KW  -  diameter
KW  -  diffusion MRI
KW  -  electron microscopy
KW  -  microstructure
KW  -  phantom
TI  - Validating pore size estimates in a complex microfiber environment on a human MRI system
Y1  - 2021/05/07/
AV  - public
N1  - © 2021 International Society for Magnetic Resonance in Medicine

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ER  -