High Spatiotemporal Resolution Radial Encoding Single-Vessel fMRI.

Jiang, Y; Pais-Roldán, P; Pohmann, R; Yu, X

High Spatiotemporal Resolution Radial Encoding Single-Vessel fMRI.

Jiang, Y Pais-Roldán, P Pohmann, R Yu, X

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Publisher:: Wiley
Publication Type:: Journal Article
Citation:: Adv Sci (Weinh), 2024, 11, (26), pp. e2309218
Issue Date:: 2024-07

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Field	Value	Language
dc.contributor.author	Jiang, Y
dc.contributor.author	Pais-Roldán, P
dc.contributor.author	Pohmann, R
dc.contributor.author	Yu, X https://orcid.org/0000-0002-0269-5649
dc.date.accessioned	2024-08-06T01:36:23Z
dc.date.available	2024-08-06T01:36:23Z
dc.date.issued	2024-07
dc.identifier.citation	Adv Sci (Weinh), 2024, 11, (26), pp. e2309218
dc.identifier.issn	2198-3844
dc.identifier.issn	2198-3844
dc.identifier.uri	http://hdl.handle.net/10453/180040
dc.description.abstract	High-field preclinical functional MRI (fMRI) is enabled the high spatial resolution mapping of vessel-specific hemodynamic responses, that is single-vessel fMRI. In contrast to investigating the neuronal sources of the fMRI signal, single-vessel fMRI focuses on elucidating its vascular origin, which can be readily implemented to identify vascular changes relevant to vascular dementia or cognitive impairment. However, the limited spatial and temporal resolution of fMRI is hindered hemodynamic mapping of intracortical microvessels. Here, the radial encoding MRI scheme is implemented to measure BOLD signals of individual vessels penetrating the rat somatosensory cortex. Radial encoding MRI is employed to map cortical activation with a focal field of view (FOV), allowing vessel-specific functional mapping with 50 × 50 µm2 in-plane resolution at a 1 to 2 Hz sampling rate. Besides detecting refined hemodynamic responses of intracortical micro-venules, the radial encoding-based single-vessel fMRI enables the distinction of fMRI signals from vessel and peri-vessel voxels due to the different contribution of intravascular and extravascular effects.
dc.format	Print-Electronic
dc.language	eng
dc.publisher	Wiley
dc.relation.ispartof	Adv Sci (Weinh)
dc.relation.isbasedon	10.1002/advs.202309218
dc.rights	info:eu-repo/semantics/openAccess
dc.subject.mesh	Animals
dc.subject.mesh	Magnetic Resonance Imaging
dc.subject.mesh	Rats
dc.subject.mesh	Male
dc.subject.mesh	Brain Mapping
dc.subject.mesh	Somatosensory Cortex
dc.subject.mesh	Hemodynamics
dc.subject.mesh	Rats, Sprague-Dawley
dc.subject.mesh	Cerebrovascular Circulation
dc.subject.mesh	Image Processing, Computer-Assisted
dc.subject.mesh	Somatosensory Cortex
dc.subject.mesh	Animals
dc.subject.mesh	Rats
dc.subject.mesh	Rats, Sprague-Dawley
dc.subject.mesh	Magnetic Resonance Imaging
dc.subject.mesh	Brain Mapping
dc.subject.mesh	Cerebrovascular Circulation
dc.subject.mesh	Image Processing, Computer-Assisted
dc.subject.mesh	Male
dc.subject.mesh	Hemodynamics
dc.subject.mesh	Animals
dc.subject.mesh	Magnetic Resonance Imaging
dc.subject.mesh	Rats
dc.subject.mesh	Male
dc.subject.mesh	Brain Mapping
dc.subject.mesh	Somatosensory Cortex
dc.subject.mesh	Hemodynamics
dc.subject.mesh	Rats, Sprague-Dawley
dc.subject.mesh	Cerebrovascular Circulation
dc.subject.mesh	Image Processing, Computer-Assisted
dc.title	High Spatiotemporal Resolution Radial Encoding Single-Vessel fMRI.
dc.type	Journal Article
utslib.citation.volume	11
utslib.location.activity	Germany
pubs.organisational-group	University of Technology Sydney
pubs.organisational-group	University of Technology Sydney/Faculty of Engineering and Information Technology
pubs.organisational-group	University of Technology Sydney/Strength - AAII - Australian Artificial Intelligence Institute
utslib.copyright.status	open_access	*
dc.rights.license	This work is licensed under a Creative Commons Attribution 4.0 International License (CC BY 4.0). To view a copy of this license, visit https://creativecommons.org/licenses/by/4.0/
dc.date.updated	2024-08-06T01:36:14Z
pubs.issue	26
pubs.publication-status	Published
pubs.volume	11
utslib.citation.issue	26

Abstract:

High-field preclinical functional MRI (fMRI) is enabled the high spatial resolution mapping of vessel-specific hemodynamic responses, that is single-vessel fMRI. In contrast to investigating the neuronal sources of the fMRI signal, single-vessel fMRI focuses on elucidating its vascular origin, which can be readily implemented to identify vascular changes relevant to vascular dementia or cognitive impairment. However, the limited spatial and temporal resolution of fMRI is hindered hemodynamic mapping of intracortical microvessels. Here, the radial encoding MRI scheme is implemented to measure BOLD signals of individual vessels penetrating the rat somatosensory cortex. Radial encoding MRI is employed to map cortical activation with a focal field of view (FOV), allowing vessel-specific functional mapping with 50 × 50 µm2 in-plane resolution at a 1 to 2 Hz sampling rate. Besides detecting refined hemodynamic responses of intracortical micro-venules, the radial encoding-based single-vessel fMRI enables the distinction of fMRI signals from vessel and peri-vessel voxels due to the different contribution of intravascular and extravascular effects.

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http://hdl.handle.net/10453/180040