Rapid Free‐Breathing and Automated 2D Shimming of the Lung at 3T
Pavlos Panos, Grzegorz Bauman, Oliver Bieri

TL;DR
This paper introduces a fast, automated method for improving lung MRI image quality at 3T using advanced shimming techniques.
Contribution
A novel rapid and fully automated 2D shimming method for lung imaging at 3T is developed and validated.
Findings
The automated shimming method reduced mean frequency offset in the lung by up to 45 Hz.
The technique improved bSSFP signal homogeneity, resulting in more uniform functional images.
Shim currents were derived in under 10 seconds and integrated into clinical workflows.
Abstract
To develop and validate a rapid, fully automated method for shimming of the lung. For field mapping of the lung, a custom 2D RF spoiled gradient echo sequence was used offering sub‐millisecond echo times. At 3T, four echo‐shifted coronal images were acquired with a minimum TE of 0.57 ms and an inter‐echo spacing of 0.1 ms. Imaging was performed in free‐breathing using three repetitions with a total scan time of 4.2 s. Subsequently, motion correction, field mapping, lung segmentation, and lung shim currents were calculated inline. Finally, the derived shim currents were saved locally, accessible by any custom sequence for application during scan preparation. The shimming method's performance was compared against the vendor's default settings in five healthy volunteers for functional lung imaging with matrix pencil decomposition using balanced steady‐state free precession (bSSFP). Field…
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Taxonomy
TopicsAtomic and Subatomic Physics Research · Advanced MRI Techniques and Applications · Advanced Radiotherapy Techniques
