Accelerated RAKI reconstruction for multi‐slice cardiac cine applications
Lucile Quillien, Julien Oster, Pierre‐André Vuissoz

TL;DR
This paper introduces a faster version of the RAKI MRI reconstruction method for cardiac imaging, achieving similar image quality with significantly reduced reconstruction time.
Contribution
The novel contribution is an optimized RAKI reconstruction strategy for cardiac cine MRI that reduces reconstruction time by 40% while maintaining image quality.
Findings
The proposed method achieved comparable image quality to standard techniques like GRAPPA and RAKI.
Reconstruction time was reduced by an average of 40% compared to existing methods.
Some striping artifacts were observed, likely due to the k-space-based optimization process.
Abstract
Accelerated MRI reconstruction techniques are necessary to avoid long cardiac exams. K‐space‐based parallel imaging (PI) reconstruction has recently been adapted to deep learning with a scan‐specific training technique entitled scan‐specific robust artificial neural‐networks for k‐space interpolation (RAKI), which incorporates nonlinearity by applying convolutional neural networks. While the scan‐specific aspect alleviates the need for a large training database, as it consists of a single‐shot training, it consequently increases the overall reconstruction time. The aim of this study is to adapt RAKI reconstruction to cardiac cine acquisitions by optimizing the training strategy and exploiting the spatio‐temporal redundancy while ensuring image quality. Ten fully sampled multi‐slice cine data from the public cardiac OCMR database were used to compare the proposed method to standard…
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Taxonomy
TopicsMedical Imaging Techniques and Applications · Cardiac Imaging and Diagnostics · Advanced MRI Techniques and Applications
