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Cardiac MRI: state of the art
Cardiac MRI plays an important role in the evaluation of cardiovascular diseases (CVDs),
including ischemic heart disease, cardiomyopathy, valvular disease, congenital disease …
including ischemic heart disease, cardiomyopathy, valvular disease, congenital disease …
Deep learning-based reconstruction for cardiac MRI: a review
Cardiac magnetic resonance (CMR) is an essential clinical tool for the assessment of
cardiovascular disease. Deep learning (DL) has recently revolutionized the field through …
cardiovascular disease. Deep learning (DL) has recently revolutionized the field through …
[HTML][HTML] Improving the efficiency and accuracy of cardiovascular magnetic resonance with artificial intelligence—review of evidence and proposition of a roadmap to …
Background Cardiovascular magnetic resonance (CMR) is an important imaging modality
for the assessment of heart disease; however, limitations of CMR include long exam times …
for the assessment of heart disease; however, limitations of CMR include long exam times …
Primer and historical review on rapid cardiac CINE MRI
AD Curtis, HLM Cheng - Journal of Magnetic Resonance …, 2022 - Wiley Online Library
Acceleration is an important consideration when imaging moving organs such as the heart.
Not only does acceleration enable motion‐free scans but, more importantly, it lies at the …
Not only does acceleration enable motion‐free scans but, more importantly, it lies at the …
Simultaneous multi-slice cardiac MR multitasking for motion-resolved, non-ECG, free-breathing T1–T2 map**
The aim of this study is to simultaneously quantify T1/T2 across three slices of the left-
ventricular myocardium without breath-holds or ECG monitoring, all within a 3 min scan …
ventricular myocardium without breath-holds or ECG monitoring, all within a 3 min scan …
Free‐breathing, non‐ECG, simultaneous myocardial T1, T2, T2*, and fat‐fraction map** with motion‐resolved cardiovascular MR multitasking
Purpose To develop a free‐breathing, non‐electrocardiogram technique for simultaneous
myocardial T1, T2, T2*, and fat‐fraction (FF) map** in a single scan. Methods The MR …
myocardial T1, T2, T2*, and fat‐fraction (FF) map** in a single scan. Methods The MR …
Data-consistent non-Cartesian deep subspace learning for efficient dynamic MR image reconstruction
Z Chen, Y Chen, Y ** with cardiovascular MR multitasking
Purpose To develop a novel low‐rank tensor reconstruction approach leveraging the
complete acquired data set to improve precision and repeatability of multiparametric …
complete acquired data set to improve precision and repeatability of multiparametric …