4D Flow MRI provides unique capabilities for 3D visualization and quantification of intra-cardiac blood flow, showing promise for further clinical and research applications.
PURPOSE OF THE REVIEW: Time-resolved 3D velocity-encoded MR imaging with velocity encoding in three directions (4D Flow) has emerged as a novel MR acquisition technique providing detailed information on flow in the cardiovascular system. In contrast to other clinically available imaging techniques such as echo-Doppler, 4D Flow MRI provides the 3D Flow velocity field within a volumetric region of interest over the cardiac cycle. This work reviews the most recent advances in the development and application of dedicated image analysis techniques for the assessment of intra-cardiac flow features from 4D Flow MRI. RECENT FINDINGS: Novel image analysis techniques have been developed for extraction of relevant intra-cardiac flow features from 4D Flow MRI, which have been successfully applied in various patient cohorts and volunteer studies. Disturbed flow patterns have been linked with valvular abnormalities and ventricular dysfunction. Recent technical advances have resulted in reduced scan times and improvements in image quality, increasing the potential clinical applicability of 4D Flow MRI. SUMMARY: 4D Flow MRI provides unique capabilities for 3D visualization and quantification of intra-cardiac blood flow. Contemporary knowledge on 4D Flow MRI shows promise for further exploration of the potential use of the technique in research and clinical applications.
Geest et al. (Fri,) conducted a review in Intra-cardiac flow evaluation. 4D Flow MRI vs. 2D phase-contrast MRI was evaluated. 4D Flow MRI provides unique capabilities for 3D visualization and quantification of intra-cardiac blood flow, showing promise for further clinical and research applications.