Abstract: A system includes acquisition of a predetermined number of three-dimensional sub-frames from patient tissue using a T1-weighted radial sampling sequence and without contrast agent, determination of a matching one of a plurality of the three-dimensional images reconstructed from respective subsets of the predetermined number of three-dimensional sub-frames, based on a first three-dimensional image reconstructed from a first-acquired one of the predetermined number of three-dimensional sub-frames, and subtraction of the matching one of the plurality of the three-dimensional images from the first three-dimensional image to generate a second three-dimensional image.

Abstract: A system includes a chassis defining a bore, a main magnet to generate a polarizing magnetic field within the bore, a gradient system to apply a gradient magnetic field to the polarizing magnetic field, a radio frequency system to apply an excitation pulse to patient tissue disposed within the bore and to receive signals from the patient tissue, and a computing system to receive the signals from the RF system.

Abstract: A system and method for non-contrast imaging of pulmonary blood flow in a subject are described. In some aspects, the method includes acquiring, using a magnetic resonance imaging (“MRI”) system, image data from at least the subject's lungs during which little to no respiratory motion occurs in the subject, such as during a breath-hold. The method also includes assembling the image data into a plurality of time-series datasets representing temporal variations of magnetic resonance signals in a region of interest that contains all or part of the subject's lungs. The method further includes computing a statistical blood flow metric for each voxel in the region of interest, using respective time-series datasets, and generating at least one image representative of pulmonary blood flow in the subject using the computed statistical blood flow metrics.