Medical Imaging 2022: Physics of Medical Imaging 2022
DOI: 10.1117/12.2609876
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Deep MRI reconstruction with radial subsampling

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Cited by 7 publications
(8 citation statements)
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“…More precisely, we repeated the scheme-specific experiments on the CC dataset by replacing the RecurrentVarNet with a RIM. The choice of hyper-parameters for each RIM was identical as in [19].…”
Section: Results -Model Dependencementioning
confidence: 99%
See 1 more Smart Citation
“…More precisely, we repeated the scheme-specific experiments on the CC dataset by replacing the RecurrentVarNet with a RIM. The choice of hyper-parameters for each RIM was identical as in [19].…”
Section: Results -Model Dependencementioning
confidence: 99%
“…For instance, non-Cartesian patterns such as radial or spiral have been shown to be applied in real-time MRI acquisitions due to the fact that they are less susceptible to motion compared to Cartesian ones [18]. The authors in [19] by employing a deep neural network architecture, namely the Recurrent Inference Machine (RIM) [13], explored the effects of training RIMs by applying either rectilinear or radial retrospective subsampling and concluded that the RIM trained using the latter can produce higher-fidelity reconstructions.…”
Section: Introductionmentioning
confidence: 99%
“…In some papers, it is either the case that the relevance of the incoherence of a measurement matrix required for subsampling is watered down like in [6], or as observed in [5] the subsampling techniques largely proposed for signal reconstruction still have an implicit significant probability of coherence within the sensing matrix, with an insufficient theoretical framework to provide certainty of a successful CS method. In [4] and [12] The rest of the paper is organized as follows;…”
Section: Review Of Related Papersmentioning
confidence: 99%
“…DL has also been applied to reconstruct undersampled non‐Cartesian acquisitions, particularly radial trajectories. For nondynamic anatomical imaging, AUTOmated transform by Manifold APproximation (AUTOMAP) 10 was employed to directly map undersampled radial k‐space to unaliased image space, and Recurrent Inference Machine (RIM) architecture was used as an unrolled‐loop network with data consistency to reconstruct undersampled radial data 13 . For dynamic radial MRI, DL was employed to reconstruct 4D images, where the fourth dimension is respiratory motion 14–16 .…”
Section: Introductionmentioning
confidence: 99%
“…For nondynamic anatomical imaging, AUTOmated transform by Manifold APproximation (AUTOMAP) 10 was employed to directly map undersampled radial k-space to unaliased image space, and Recurrent Inference Machine (RIM) architecture was used as an unrolled-loop network with data consistency to reconstruct undersampled radial data. 13 For dynamic radial MRI, DL was employed to reconstruct 4D images, where the fourth dimension is respiratory motion. [14][15][16] Imaging of respiratory motion also allows for the acquisition of a reference image during multiple respiratory cycles.…”
mentioning
confidence: 99%