Parallel and partial Fourier imaging with prospective motion correction |
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Authors: | Suchandrima Banerjee Philip J. Beatty Jian Z. Zhang Ajit Shankaranarayanan |
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Affiliation: | 1. Global Applied Science Laboratory, GE Healthcare, Menlo Park, California, USA;2. Global Applied Science Laboratory, GE Healthcare, Toronto, Canada |
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Abstract: | Subject motion during scan is a major source of artifacts in MR examinations. Prospective motion correction is a promising technique that tracks subject motion and adjusts the imaging volume in real time; however, additional retrospective correction may be necessary to achieve robust image quality and compatibility with other imaging options. Real‐time realignment of the imaging volume by prospective motion correction changes the coil sensitivity weighting and the field inhomogeneity relative to the imaging volume. This can pose image reconstruction problems with parallel imaging and partial Fourier imaging, which rely on coil sensitivity and image phase information, respectively. This work presents a practical method for reconstructing images acquired using prospective motion correction with parallel imaging and/or partial Fourier imaging. Our proposed approach is data driven and noniterative; data are binned into several position bins based on motion measurements made during the prospective motion correction acquisition and the data in each bin are processed through intrabin operations such as parallel imaging reconstruction (in case of undersampling), phase correction, and coil combination before combination of the position bins. We demonstrate the effectiveness of our technique through simulation studies and in vivo experiments using a prospectively motion‐corrected three‐dimensional fast spin echo sequence. Magn Reson Med, 2013. © 2012 Wiley Periodicals, Inc. |
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Keywords: | prospective motion correction parallel imaging partial Fourier data driven |
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