Undersampled Magnetic Resonance Image Reconstruction based on Support Prior and Deep Image Prior without Pre-Training release_r45lxemqs5c7rafwcg4iop4y74

by Di Zhao, Lizhi Zhao, Yongjin Gan, Binyi Qin, Key Laboratory of Complex System Optimization and Big Data Processing, Guangxi Colleges and Universities, Yulin Normal University, Yulin 537000, China, School of Information Engineering, Minzu University of China, Beijing 10081, China, School of Physics and Telecommunication Engineering, Yulin Normal University, Yulin 537000, China

Published in Wuli xuebao by Acta Physica Sinica, Chinese Physical Society and Institute of Physics, Chinese Academy of Sciences.

2022   Volume 71

Abstract

<jats:p xml:lang="en">Magnetic resonance imaging (MRI) method based on deep learning needs large, high-quality patient-based datasets for pre-training. However, this is a challenge in clinical applications because it is difficult to obtain sufficient amounts of patient-based MR datasets due to the equipment and patient privacy concerns. In this paper, we propose a novel undersampled MR image reconstruction method based on deep learning. This method does not require any pre-training procedures and does not depend on training datasets. The proposed method is inspired by traditional deep image prior (DIP) framework, and integrates the structure prior and support prior of the target MR image to improve the efficiency of learning. Based on the similarity between the reference image and the target image, the high-resolution reference image obtained in advance is used as the network input, thereby the structural prior information is incorporated into network. By taking the coefficient index set of the reference image with large amplitude in the wavelet domain as the known support of the target image, the regularization constraint term is constructed, and the network training is transformed into the optimization process of network parameters. Experimental results show that the proposed method can obtain more accurate reconstructions from undersampled &lt;i&gt;k&lt;/i&gt;-space data, and has obvious advantages in preserving tissue features and detailed texture.
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