Applications of phase-contrast flow and velocity imaging in cardiovascular MRI

## Abstract ## Purpose To evaluate the feasibility of generalized phase‐contrast magnetic resonance imaging (PC‐MRI) for the noninvasive assessment of fluctuating velocities in cardiovascular blood flow. ## Materials and Methods Multidimensional PC‐MRI was used in a generalized manner to map mea

Velocity-encoded phase contrast magnetic resonance imaging (MRI) has the potential to quantify regional myocardial contractile function with a sensitivity to motion comparable to implanted ultrasonic crystals. An MRI sequence and postprocessing algorithm were developed to measure myocardial velocity

Cardiovascular MR imaging (CVMR) has become a valuable modality for the non-invasive detection and characterization of cardiovascular diseases. CVMR requires high imaging speed and efficiency, which is fundamentally limited in conventional cardiovascular MRI studies. With the introduction of paralle

## Abstract Contrast‐enhanced MR angiography is often combined with phase contrast (PC) flow measurement to answer a particular clinical question. The contrast agent that is administered during contrast‐enhanced MR angiography may still be present in the blood during the consecutive PC flow measure

An automated method was evaluated to detect blood flow in small pulmonary arteries and classify each as artery or vein, based on a temporal correlation analysis of their blood-flow velocity patterns. The method was evaluated using velocity-sensitive phase-contrast magnetic resonance data collected i