| 摘要 |
Example apparatus and methods order projections in a 3D MRI acquisition to achieve improved equidistant spacing or to achieve improved adherence to a target distribution. The equidistant or target spacing may exist in k-space and/or in kt-space. In one embodiment, the improved equidistant spacing is a substantially uniform spacing. The substantially uniform spacing may be achieved using a modification of a charge repulsion analysis that treats points of projections that intersect the surface of a 3D volume to be imaged as point charges distributed on the 3D volume. In another embodiment, the target spacing may be uniform, non-uniform, uniform in parts and non-uniform in other parts, and other combinations. |
| 主权项 |
1. A non-transitory computer-readable storage medium storing computer executable instructions that when executed by a computer control the computer to perform a method for controlling a magnetic resonance (MR) apparatus, comprising:
accessing shot data that describes a plurality of shots to be employed through time in a three dimensional (3D) acquisition by the MR apparatus, where a shot comprises a plurality of radial projections, bent projections, or multi-echo projections, where a member of the plurality of shots is configured to sample a 3D volume, and where a member of the plurality of shots is defined, at least in part, by one or more end points that are locations where a projection intersects the surface of the 3D volume, and where the end points are modeled as point charges; determining a configuration for the plurality of shots that will produce a distribution in k-space that satisfies a target k-space distribution uniformity threshold by:
repeating, until a termination condition is satisfied:
selecting a shot to be adjusted from the plurality of shots;establishing an origin for a set of related end points for the shot by logically fixing the relative locations of the end points in the shot to be adjusted;computing an influence on the end points in the shot to be adjusted, where the influence is produced by end points in shots other than the shot to be adjusted, where the influence is determined by a charge repulsion approach for determining optimal low energy packing of charges on the surface of the 3D volume, and where the influence is modeled after a net Coulomb force that would exist between point charges on the surface of the 3D volume;determining, for the shot to be adjusted, as a function of the influence, an axis of rotation about the origin for the set of related end points that will improve the distribution uniformity in k-space,determining, for the shot to be adjusted, as a function of the influence, a rotation magnitude for the set of related end points that will improve the distribution uniformity in k-space; and adjusting the shot to be adjusted by rotating the set of related end points about its origin along the axis of rotation by the rotation magnitude; and controlling the MR apparatus to perform the 3D acquisition according to the configuration , where performing the 3D acquisition according to the configuration produces a distribution in kt-space that satisfies a kt-space distribution uniformity threshold of at least ninety percent. |
