Cardiac fat navigator-gated steady-state free precession 3D magnetic resonance angiography of coronary arteries

## Abstract ## Purpose To compare the performance of the conventional diaphragm navigator (DNAV) and the recently developed cardiac fat navigator (FatNAV) in suppressing respiration‐induced cardiac motion in free‐breathing 3D balanced steady‐state free precession coronary MRA (SSFP CMRA). ## Mate

## Abstract The purpose of this work was to investigate a new magnetization preparation scheme for navigator steady‐state free precession (SSFP) 3D coronary MR angiography (MRA) that executes the navigator and fat saturation pulses in steady state after the dummy RFs in order to minimize the delay

## Abstract ## Purpose To assess the quality of a navigator‐gated, free breathing, steady‐state free precession (SSFP) technique in comparison to a single breathhold for pulmonary artery imaging in normal volunteers. ## Materials and Methods Sagittal sections of the left pulmonary arteries of 10

## Abstract ## Purpose To analyze the incremental diagnostic value of a combination of two approaches (free‐breathing and breathhold) vs. the sole free‐breathing approach to coronary magnetic resonance angiography (CMRA) for detection of significant stenoses. ## Materials and Methods Thirty pati

## Abstract ## Purpose To assess the usefulness of non–contrast‐enhanced MR angiography using cardiac and navigator‐gated magnetization‐prepared three‐dimensional (3D) steady‐state free precession (SSFP) imaging for the diagnosis of diseases of the thoracic aorta. ## Materials and Methods Twenty

## Abstract Coronary artery imaging data are conventionally acquired in a single imaging frame during mid‐diastole. The data acquisition window must be sufficiently short to avoid cardiac motion artifacts. A short data acquisition window results in decreased imaging efficiency and limited spatial r