Abstract #1238

High-Resolution motion-corrected 2D Myocardial Perfusion MRI using Locally Low Rank and Wavelet Sparsity Constraints

Joao Tourais^1,2, Torben Schneider³, Xenios Milidonis⁴, David Higgins⁵, Javier Sanchez-Gonzalez⁶, Gastao Cruz⁴, Claudia Prieto⁴, Chris Saunderson⁷, Louise Brown⁷, Sven Plein⁷, Amedeo Chiribiri⁴, Jouke Smink¹, and Teresa Correia⁴

¹Division MR Clinical Science, Philips, Best, Netherlands, ²Dept. of Biomedical Engineering, Eindhoven University of Technology, Eindhoven, Netherlands, ³Philips Health Systems, London, United Kingdom, ⁴School of Biomedical Engineering and Imaging Sciences, King's College London, London, United Kingdom, ⁵Philips Healthcare, Guildford, United Kingdom, ⁶Philips Healthcare Iberia, Madrid, Spain, ⁷University of Leeds, Leeds, United Kingdom

First-pass perfusion cardiac MR (FPP-CMR) allows the assessment of ischemic heart disease. However, conventional FPP-CMR has limited spatial resolution and requires breath-holding. Moreover, diagnostic accuracy may be compromised due to dark-rim artifacts. Here, we propose a free-breathing quantitative high-resolution FPP-CMR framework that combines dynamically variable undersampling with a motion-corrected reconstruction approach that uses spatial and temporal constraints. The proposed motion-corrected strategy improves image sharpness and quantification of myocardial blood flow from free-breathing acquisitions. The highly undersampled acquisitions allow short acquisition windows and facilitate higher spatial resolution images, which are less sensitive to dark-rim artifacts, thus improving the diagnostic accuracy of FPP-CMR.

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