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Rapid high‐fidelity T2* mapping using single‐shot overlapping‐echo acquisition and deep learning reconstruction

Qinqin Yang, Lingceng Ma, Zihan Zhou, Jianfeng Bao, Qizhi Yang, Haitao Huang, Shuhui Cai, Hongjian He, Zhong Chen, Jianhui Zhong, Congbo Cai

2023Magnetic Resonance in Medicine15 citationsDOIOpen Access PDF

Abstract

Purpose To develop and evaluate a single‐shot quantitative MRI technique called GRE‐MOLED (gradient‐echo multiple overlapping‐echo detachment) for rapid mapping. Methods In GRE‐MOLED, multiple echoes with different TEs are generated and captured in a single shot of the k‐space through MOLED encoding and EPI readout. A deep neural network, trained by synthetic data, was employed for end‐to‐end parametric mapping from overlapping‐echo signals. GRE‐MOLED uses pure GRE acquisition with a single echo train to deliver maps less than 90 ms per slice. The self‐registered B 0 information modulated in image phase was utilized for distortion‐corrected parametric mapping. The proposed method was evaluated in phantoms, healthy volunteers, and task‐based FMRI experiments. Results The quantitative results of GRE‐MOLED mapping demonstrated good agreement with those obtained from the multi‐echo GRE method (Pearson's correlation coefficient = 0.991 and 0.973 for phantom and in vivo brains, respectively). High intrasubject repeatability (coefficient of variation <1.0%) were also achieved in scan–rescan test. Enabled by deep learning reconstruction, GRE‐MOLED showed excellent robustness to geometric distortion, noise, and random subject motion. Compared to the conventional FMRI approach, GRE‐MOLED also achieved a higher temporal SNR and BOLD sensitivity in task‐based FMRI. Conclusion GRE‐MOLED is a new real‐time technique for quantification with high efficiency and quality, and it has the potential to be a better quantitative BOLD detection method.

Topics & Concepts

Artificial intelligenceImaging phantomComputer scienceRepeatabilitySingle shotParametric statisticsPattern recognition (psychology)Echo (communications protocol)Distortion (music)Computer visionMathematicsNuclear medicinePhysicsMedicineBandwidth (computing)StatisticsComputer networkAmplifierOpticsAdvanced MRI Techniques and ApplicationsUltrasound Imaging and ElastographyMedical Imaging Techniques and Applications