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Motion-corrected model-based reconstruction for 2D myocardial T1 mapping

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Item Type:Article
Title:Motion-corrected model-based reconstruction for 2D myocardial T1 mapping
Creators Name:Kerkering, K.M., Schulz-Menger, J., Schaeffter, T. and Kolbitsch, C.
Abstract:PURPOSE: To allow for T1 mapping of the myocardium within 2.3 s for a 2D slice utilizing cardiac motion-corrected, model-based image reconstruction. METHODS: Golden radial data acquisition is continuously carried out for 2.3 s after an inversion pulse. In a first step, dynamic images are reconstructed which show both contrast changes due to T1 recovery and anatomical changes due to the heartbeat. An image registration algorithm with a signal model for T1 recovery is applied to estimate non-rigid cardiac motion. In a second step, estimated motion fields are applied during an iterative model-based T1 reconstruction. The approach was evaluated in numerical simulations, phantom experiments and in in-vivo scans in healthy volunteers. RESULTS: The accuracy of cardiac motion estimation was shown in numerical simulations with an average motion field error of 0.7 ± 0.6 mm for a motion amplitude of 5.1 mm. The accuracy of T1 estimation was demonstrated in phantom experiments, with no significant difference (p = 0.13) in T1 estimated by the proposed approach compared to an inversion-recovery reference method. In vivo, the proposed approach yielded 1.3 × 1.3 mm T1 maps with no significant difference (p = 0.77) in T1 and SDs in comparison to a cardiac-gated approach requiring 16 s scan time (i.e., seven times longer than the proposed approach). Cardiac motion correction improved the precision of T1 maps, shown by a 40% reduced SD. CONCLUSION: We have presented an approach that provides T1 maps of the myocardium in 2.3 s by utilizing both cardiac motion correction and model-based T1 reconstruction.
Keywords:Model-Based Reconstruction, Motion Correction, Multiparametric Acquisition, Myocardial, Tissue Characterization, T1 Mapping
Source:Magnetic Resonance in Medicine
ISSN:0740-3194
Publisher:Wiley
Volume:90
Number:3
Page Range:1086-1100
Date:September 2023
Official Publication:https://doi.org/10.1002/mrm.29699
PubMed:View item in PubMed

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