Motion‐resolved fat‐fraction mapping with whole‐heart free‐running multiecho GRE and pilot tone
Purpose To develop a free‐running 3D radial whole‐heart multiecho gradient echo (ME‐
GRE) framework for cardiac‐and respiratory‐motion‐resolved fat fraction (FF) quantification …
GRE) framework for cardiac‐and respiratory‐motion‐resolved fat fraction (FF) quantification …
Motion‐compensated fat‐water imaging for 3D cardiac MRI at ultra‐high fields
S Dietrich, CS Aigner, J Mayer… - Magnetic …, 2022 - Wiley Online Library
Purpose Respiratory motion‐compensated (MC) 3D cardiac fat‐water imaging at 7T.
Methods Free‐breathing bipolar 3D triple‐echo gradient‐recalled‐echo (GRE) data with …
Methods Free‐breathing bipolar 3D triple‐echo gradient‐recalled‐echo (GRE) data with …
Myocardial fat quantification in humans: evaluation by two‐point water‐fat imaging and localized proton spectroscopy
CY Liu, A Redheuil, R Ouwerkerk… - … in Medicine: An …, 2010 - Wiley Online Library
Abstract Proton MR spectroscopy (1H‐MRS) has been used for in vivo quantification of
intracellular triglycerides within the sarcolemma. The purpose of this study was to assess …
intracellular triglycerides within the sarcolemma. The purpose of this study was to assess …
Whole‐heart chemical shift encoded water–fat MRI
Purpose To develop and evaluate a free‐breathing chemical‐shift‐encoded (CSE) spoiled
gradient‐recalled echo (SPGR) technique for whole‐heart water–fat imaging at 3 Tesla (T) …
gradient‐recalled echo (SPGR) technique for whole‐heart water–fat imaging at 3 Tesla (T) …
Free‐breathing, non‐ECG, simultaneous myocardial T1, T2, T2*, and fat‐fraction mapping 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) mapping in a single scan. Methods The MR …
myocardial T1, T2, T2*, and fat‐fraction (FF) mapping in a single scan. Methods The MR …
Reliability and agreement of adipose tissue fat fraction measurements with water–fat MRI in patients with manifest cardiovascular disease
BT Franssens, AL Eikendal, T Leiner… - NMR in …, 2016 - Wiley Online Library
The supraclavicular fat depot is known for brown adipose tissue presence. To unravel
adipose tissue physiology and metabolism, high quality and reproducible imaging is …
adipose tissue physiology and metabolism, high quality and reproducible imaging is …
Natively fat‐suppressed 5D whole‐heart MRI with a radial free‐running fast‐interrupted steady‐state (FISS) sequence at 1.5 T and 3T
JAM Bastiaansen, D Piccini, L Di Sopra… - Magnetic resonance …, 2020 - Wiley Online Library
Purpose To implement, optimize, and test fast interrupted steady‐state (FISS) for natively fat‐
suppressed free‐running 5D whole‐heart MRI at 1.5 tesla (T) and 3T. Methods FISS was …
suppressed free‐running 5D whole‐heart MRI at 1.5 tesla (T) and 3T. Methods FISS was …
Self‐gated fat‐suppressed cardiac cine MRI
RR Ingle, JM Santos, WR Overall… - Magnetic …, 2015 - Wiley Online Library
Purpose To develop a self‐gated alternating repetition time balanced steady‐state free
precession (ATR‐SSFP) pulse sequence for fat‐suppressed cardiac cine imaging. Methods …
precession (ATR‐SSFP) pulse sequence for fat‐suppressed cardiac cine imaging. Methods …
Cardio‐respiratory motion‐corrected 3D cardiac water‐fat MRI using model‐based image reconstruction
J Mayer, E Blaszczyk, A Cipriani… - Magnetic …, 2022 - Wiley Online Library
Purpose Myocardial fat infiltrations are associated with a range of cardiomyopathies. The
purpose of this study was to perform cardio‐respiratory motion‐correction for model‐based …
purpose of this study was to perform cardio‐respiratory motion‐correction for model‐based …
3D whole‐heart isotropic‐resolution motion‐compensated joint T1/T2 mapping and water/fat imaging
Purpose To develop a free‐breathing isotropic‐resolution whole‐heart joint T1 and T2
mapping sequence with Dixon‐encoding that provides coregistered 3D T1 and T2 maps and …
mapping sequence with Dixon‐encoding that provides coregistered 3D T1 and T2 maps and …