Automated slice-specific z-shimming for fMRI of the human spinal cord

Kaptan, Merve; Vannesjo, S. Johanna; Mildner, Toralf; Horn, Ulrike; Hartley-Davies, R.; Oliva, Valéria Nobre Leal de Souza; Brooks, Jonathan; Weiskopf, Nikolaus; Finsterbusch, Jürgen; Eippert, Falk

doi:10.1101/2021.07.27.454049

Cited by 2 publications

(1 citation statement)

References 72 publications

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“…Regarding the optimizer module, other solvers (e.g., global minimum solvers, faster solvers) could offer better solutions for specific applications. Other shimming techniques that maximize signal intensity 38 could also be implemented.…”

Section: Discussionmentioning

confidence: 99%

Shimming toolbox: An open‐source software toolbox for B0 and B1 shimming in MRI

D'Astous

Cereza

Papp

et al. 2022

Magnetic Resonance in Med

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Purpose: Introduce Shimming Toolbox (https://shimming-toolbox.org), an open-source software package for prototyping new methods and performing static, dynamic, and real-time B0 shimming as well as B1 shimming experiments. Methods: Shimming Toolbox features various field mapping techniques, manual and automatic masking for the brain and spinal cord, B0 and B1 shimming capabilities accessible through a user-friendly graphical user interface. Validation of Shimming Toolbox was demonstrated in three scenarios: (i) B0 dynamic shimming in the brain at 7T using custom AC/DC coils, (ii) B0 real-time shimming in the spinal cord at 3T, and (iii) B1 static shimming in the spinal cord at 7T. Results: The B0 dynamic shimming of the brain at 7T took about 10 min to perform. It showed a 47% reduction in the standard deviation of the B0 field, associated with noticeable improvements in geometric distortions in EPI images. Real-time dynamic xyz-shimming in the spinal cord took about 5 min and showed a 30% reduction in the standard deviation of the signal distribution. B1 static shimming experiments in the spinal cord took about 10 min to perform and showed a 40% reduction in the coefficient of variation of the B1 field. Conclusion: Shimming Toolbox provides an open-source platform where researchers can collaborate, prototype and conveniently test B0 and B1 shimming experiments. Future versions will include additional field map preprocessing techniques, optimization algorithms, and compatibility across multiple MRI manufacturers.

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Section: Discussionmentioning

confidence: 99%

Shimming toolbox: An open‐source software toolbox for B0 and B1 shimming in MRI

D'Astous

Cereza

Papp

et al. 2022

Magnetic Resonance in Med

View full text Add to dashboard Cite

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Reliability of task-based fMRI in the dorsal horn of the human spinal cord

Dabbagh,

Horn,

Kaptan

et al. 2023

Preprint

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The application of functional magnetic resonance imaging (fMRI) to the human spinal cord is still a relatively small field of research and faces many challenges. Here we aimed to probe the limitations of task-based spinal fMRI at 3T by investigating the reliability of spinal cord blood oxygen level dependent (BOLD) responses to repeated nociceptive stimulation across two consecutive days in 40 healthy volunteers. We assessed the test-retest reliability of subjective ratings, autonomic responses, and spinal cord BOLD responses to short heat pain stimuli (1s duration) using the intraclass correlation coefficient (ICC). At the group level, we observed robust autonomic responses as well as spatially specific spinal cord BOLD responses at the expected location, but no spatial overlap in BOLD response patterns across days. While autonomic indicators of pain processing showed good-to-excellent reliability, both β-estimates and z-scores of task-related BOLD responses showed poor reliability across days in the target region (gray matter of the ipsilateral dorsal horn). When taking into account the sensitivity of gradient-echo echo planar imaging (GE-EPI) to draining vein signals by including the venous plexus in the analysis, we observed BOLD responses with good reliability across days. Taken together, these results demonstrate that heat pain stimuli as short as one second are able to evoke a robust and spatially specific BOLD response, which is however strongly variable within participants across time, resulting in low reliability in the dorsal horn gray matter. Further improvements in data acquisition and analysis techniques are thus necessary before event-related spinal cord fMRI as used here can be reliably employed in longitudinal designs or clinical settings.

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Automated slice-specific z-shimming for fMRI of the human spinal cord

Cited by 2 publications

References 72 publications

Shimming toolbox: An open‐source software toolbox for B0 and B1 shimming in MRI

Shimming toolbox: An open‐source software toolbox for B0 and B1 shimming in MRI

Reliability of task-based fMRI in the dorsal horn of the human spinal cord

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