Abstract: A system and method for system for performing a magnetic resonance imaging (MRI) process using an MRI system is provided. A coil system includes a substrate configured to follow a contour of a portion of a subject to be imaged by the MRI system and at least one coil coupled to the substrate and forming a spiral pattern.

Abstract: A system and method for performing a medical imaging process includes arranging a subject to be imaged in a magnetic resonance imaging (MRI) system and performing, using the MRI system, a magnetic resonance (MR) imaging pulse sequence. While performing the MR pulse sequence, electron paramagnetic resonance (EPR) pulses are performed at least during the application of the phase encoding gradients or only during the MR pulse sequence. Data is acquired that corresponds to signals from the subject excited by the MR pulse sequence and the EPR pulses. At least one image of the subject is reconstructed from the data.

Abstract: A system and method a for local coil system for performing a magnetic resonance imaging (MRI) process using an MRI system is provided. The local coil system includes a conductor extending in a spiral path along a single plane and forming a variable spiral extending from inner spirals proximate a center of the spiral path having a first density to outer spirals proximate a perimeter of the spiral path having a second density. The first density and the second density are different densities.

Abstract: A system and method performing a medical imaging process includes arranging a subject to receive an exogenously administered free radical probe, performing an Overhauser-enhanced MRI (OMRI) imaging process to acquire data from the subject, and reconstructing the data to generate a report indicating a spatial distribution of free radicals in the subject.

Abstract: A system and method for generating a report about a subject positioned within a bore of a magnetic resonance imaging (MRI) system includes controlling the MRI system to perform a magnetic resonance fingerprinting (MRF) pulse sequence that at least partially samples k-space using either fractional Cartesian or non-Cartesian sequential sampling pattern to acquire imaging data from the subject. The process also includes estimating quantitative parameters by comparing the acquired imaging data with at least one database comprising a plurality signal templates.

Abstract: Provided is a system and method for performing a magnetic resonance fingerprinting imaging process. The process includes determining acquisition parameters including at least one of repetition time (TR) or flip angle (FA), selected to control one of a duration and a number of repetitions of for a pulse sequence that samples k-space in a Cartesian acquisition pattern by acquiring an echo train. The process also includes controlling a magnetic resonance imaging (MRI) system to perform the pulse sequence a plurality of times to acquire magnetic resonance fingerprinting (MRF) data corresponding to signals from the subject excited by the pulse sequence. The process also includes estimating quantitative tissue properties of the subject by comparing the MRF data to a database and reconstructing, from the MRF data, at least one image of the subject indicating the estimated quantitative tissue properties.

Abstract: Methods and systems for Nuclear Magnetic Resonance (NMR) spectra of samples having unresolved peaks are described. The methods and systems allow for the creation nuclear spin singlet states in nearly-equivalent spin pairs, for example, using continuous spin-locking with a nutation frequency matched to the coupling strength between spins. The invention relates generally to the field Nuclear Magnetic Resonance (NMR). Nuclear magnetic resonance (NMR) spectroscopy can be used as a tool for determining the chemical structure and/or geometry of a molecule in a sample. In many samples, however, resonance frequencies of different nuclei fully or partially overlap, which makes chemical identification of molecule(s) in a sample difficult or impossible.

Abstract: Methods and systems for Nuclear Magnetic Resonance (NMR) spectra of complex chemical mixtures are described. The methods and systems allow undesired NMR spectral background to be removed or suppressed and target spectral peaks to be uncovered, for example, when strong background signals overlap weaker peaks. In some embodiments, the methods and systems employ a quantum filter utilizing nuclear spin singlet states.

Abstract: A system, and corresponding method, that interfaces with a gas polarization system to deliver a polarized noble gas to a subject for inhalation. Large volumes of polarized noble gas are obtained by repeated production/freezing cycles of a spin-exchange system. A storage cylinder is provided for storing a polarized noble gas. A gas delivery line is coupled to the storage cylinder and selectively delivers the polarized noble gas to the storage cylinder, and from the storage cylinder to the subject. A vacuum means is in communication with the gas delivery line for evacuating the storage cylinder in the gas delivery line prior to the noble gas being delivered thereto.