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Clinical recommendations for cardiovascular magnetic resonance mapping of T1, T2, T2* and extracellular volume: A consensus statement by the Society for Cardiovascular Magnetic Resonance (SCMR)…
- D. Messroghli, J. Moon, M. Friedrich
- Medicine, BiologyJournal of Cardiovascular Magnetic Resonance
- 9 October 2017
This document provides a summary of the existing evidence for the clinical value of parametric mapping in the heart as of mid 2017, and gives recommendations for practical use in different clinical scenarios for scientists, clinicians, and CMR manufacturers.
Cardiovascular magnetic resonance characterization of mitral valve prolapse.
Long-term adaptation to dynamics of reaching movements: a PET study
Abstract. Positron emission tomography (PET) was used to examine changes in the cerebellum as subjects learned to make movements with their right arm while holding the handle of a robot that produced…
Accuracy, precision, and reproducibility of four T1 mapping sequences: a head-to-head comparison of MOLLI, ShMOLLI, SASHA, and SAPPHIRE.
SASHA and SAPPHIRE yield higher accuracy, lower precision, and similar reproducibility compared with MOLLI and ShMOLLI for T1 measurement and different sequences yield different ECV values; however, all sequences have similar Reproducibility for ECV quantification.
Combined saturation/inversion recovery sequences for improved evaluation of scar and diffuse fibrosis in patients with arrhythmia or heart rate variability
To develop arrhythmia‐insensitive inversion recovery sequences for improved visualization of myocardial scar and quantification of diffuse fibrosis.
B1‐insensitive T2 preparation for improved coronary magnetic resonance angiography at 3 T
- R. Nezafat, M. Stuber, R. Ouwerkerk, A. Gharib, M. Desai, R. Pettigrew
- PhysicsMagnetic resonance in medicine
- 1 April 2006
Improved quantitative and qualitative coronary MRA image measurement was achieved using the adiabatic T2 Prep at 3 T, predicting an excellent suppression of artifacts originating from B1 inhomogeneity while achieving good contrast enhancement between coronary arteries and surrounding tissue.
Low‐dimensional‐structure self‐learning and thresholding: Regularization beyond compressed sensing for MRI Reconstruction
An improved image reconstruction method from undersampled k‐space data, low‐dimensional‐structure self‐learning and thresholding (LOST), which utilizes the structure from the underlying image to improve image reconstruction for accelerated coronary MRI acquisitions is presented.
Left ventricular infarct size, peri‐infarct zone, and papillary scar measurements: A comparison of high‐resolution 3D and conventional 2D late gadolinium enhancement cardiac MR
- D. Peters, E. Appelbaum, W. Manning
- MedicineJournal of magnetic resonance imaging : JMRI
- 1 October 2009
To compare higher spatial resolution 3D late gadolinium enhancement (LGE) cardiovascular magnetic resonance (Cardiac MR) with 2D LGE in patients with prior myocardial infarction.
Automated analysis of cardiovascular magnetic resonance myocardial native T1 mapping images using fully convolutional neural networks
- A. Fahmy, Hossam El-Rewaidy, M. Nezafat, S. Nakamori, R. Nezafat
- MedicineJournal of Cardiovascular Magnetic Resonance
- 14 January 2019
The proposed FCN-based image processing platform allows fast and automatic analysis of myocardial native T1 mapping images mitigating the burden and observer-related variability of manual analysis.