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Bibliographic Details
Main Authors: Yao, Jingting, Kaso, Artan, Patel, Nikhil, Chen, Yin-Ching Iris, van der Kouwe, Andre, Merfeld, Daniel M., Ackerman, Jerome L.
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2605.09267
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author Yao, Jingting
Kaso, Artan
Patel, Nikhil
Chen, Yin-Ching Iris
van der Kouwe, Andre
Merfeld, Daniel M.
Ackerman, Jerome L.
author_facet Yao, Jingting
Kaso, Artan
Patel, Nikhil
Chen, Yin-Ching Iris
van der Kouwe, Andre
Merfeld, Daniel M.
Ackerman, Jerome L.
contents Current magnetic resonance imaging (MRI) requires the subject to remain stationary to limit motion artifacts and avoid unwanted field-induced brain stimulation. However, imaging during large-scale motion could enable studies in which motion itself is central. One example is the study of brain networks involved in vestibular function, which senses head motion. Here, we demonstrate Moving MRI (mMRI), a system that enables imaging during large-scale motion by moving the subject and scanner together to minimize relative motion. We implemented a proof-of-concept platform using a compact, cryogen-free superconducting magnet mounted on a pneumatically actuated tilt mechanism that moves the magnet, gradients, and RF coil as a unit during scanning. Phantom and in vivo rat brain scans were acquired during repetitive tilting. We characterized artifacts arising from tilt-induced field shifts and residual subject-scanner motion, and partially reduced these effects. mMRI enables imaging during large-scale movement and may broaden access to naturalistic vestibular paradigms while providing a foundation for future human systems.
format Preprint
id arxiv_https___arxiv_org_abs_2605_09267
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Moving MRI: Imaging a moving body with a moving magnet
Yao, Jingting
Kaso, Artan
Patel, Nikhil
Chen, Yin-Ching Iris
van der Kouwe, Andre
Merfeld, Daniel M.
Ackerman, Jerome L.
Medical Physics
Systems and Control
Current magnetic resonance imaging (MRI) requires the subject to remain stationary to limit motion artifacts and avoid unwanted field-induced brain stimulation. However, imaging during large-scale motion could enable studies in which motion itself is central. One example is the study of brain networks involved in vestibular function, which senses head motion. Here, we demonstrate Moving MRI (mMRI), a system that enables imaging during large-scale motion by moving the subject and scanner together to minimize relative motion. We implemented a proof-of-concept platform using a compact, cryogen-free superconducting magnet mounted on a pneumatically actuated tilt mechanism that moves the magnet, gradients, and RF coil as a unit during scanning. Phantom and in vivo rat brain scans were acquired during repetitive tilting. We characterized artifacts arising from tilt-induced field shifts and residual subject-scanner motion, and partially reduced these effects. mMRI enables imaging during large-scale movement and may broaden access to naturalistic vestibular paradigms while providing a foundation for future human systems.
title Moving MRI: Imaging a moving body with a moving magnet
topic Medical Physics
Systems and Control
url https://arxiv.org/abs/2605.09267