Abstract: The present invention is directed to compositions useful as imaging agents for use in MRI, CT, Gamma-scintigraphy, or optical imaging techniques. Methods and compositions of using the same are described.

Abstract: A multicontrast-weighted acquisition of three images is performed with an MRI system. Each image is normalized and then mapped to a separate color channel. A composite color image is formed by combining all the color channels, and this image is displayed or analyzed to identify different tissue types therein.

Abstract: The present invention is directed to compositions useful as imaging agents for use in monitoring atherosclerotic plaque regression using, for example, MRI, CT, Gamma-scintigraphy, or optical imaging techniques. Methods and compositions of using the same are described.

Abstract: The magnetic resonance catheter antenna includes a first tube having a proximal end and a distal end. A litz wire has a first end and a second end and is looped within the first tube such that the first end and the second end are disposed at the proximal end. A guide wire is disposed within the first tube. A multifilament or solid wire may be used instead of a litz wire. At least the looped portion of the wire is insulated.

Abstract: DIR imaging of blood vessels by administering a series of DIR preparation pulse modules at a repetition interval short enough that at least two DIR preparation pulse modules generally occur within each RR interval, and by acquiring image data for a plurality of slices following each DIR module.

Abstract: The magnetic resonance catheter antenna includes a first tube having a proximal end and a distal end. A litz wire has a first end and a second end and is looped within the first tube such that the first end and the second end are disposed at the proximal end. A guide wire is disposed within the first tube. A multifilament or solid wire may be used instead of a litz wire. At least the looped portion of the wire is insulated.

Abstract: The invention includes a technique for efficient multi-slice fast spin echo image acquisition with black blood contrast in cardiac imaging. The technique includes applying a non-selective inversion pulse, followed by a re-inversion pulse that is slice-selective over a region encompassing a plurality of slice selections. Execution of a series of RF excitation pulses with fast spin echo readout is timed such that signal from blood is near a null point before acquiring data for each spatial slice. For greater contrast consistency, the flip angles for the excitation pulses occurring before the null point can be reduced, and those occurring after the null point can be increased.

Abstract: A magnetic resonance image receiving coil includes a first balloon having a longitudinal axis. An internal surface of the first balloon defines an internal inflatable chamber. A second balloon has a longitudinal axis. The second balloon is disposed about the first balloon. A plurality of longitudinally extending grooves are disposed in one of an external surface of the first balloon and the internal surface of the second balloon. A first wire is disposed in at least one of the grooves. A second wire is disposed in at least a second one of the grooves. Each of the first wire and the second wire is adapted to be electrically connected to an MRI apparatus. In accordance with an alternate embodiment, the first and second wires are disposed in grooves in a sheath which is disposed between the first and second balloons. In accordance with a further alternate embodiment, the first and second wires are disposed in guide tubes that are connected to the external surface of a balloon.

Abstract: A magnetic resonance image receiving coil includes a first balloon having a longitudinal axis. An internal surface of the first balloon defines an internal inflatable chamber. A second balloon has a longitudinal axis. The second balloon is disposed about the first balloon. A plurality of longitudinally extending grooves are disposed in one of an external surface of the first balloon and the internal surface of the second balloon. A first wire is disposed in at least one of the grooves. A second wire is disposed in at least a second one of the grooves. Each of the first wire and the second wire is adapted to be electrically connected to an MRI apparatus. In accordance with an alternate embodiment, the first and second wires are disposed in grooves in a sheath which is disposed between the first and second balloons. In accordance with a further alternate embodiment, the first and second wires are disposed in guide tubes that are connected to the external surface of a balloon.