Method and apparatus to improve CT image acquisition using a displaced geometry
First Claim
1. An apparatus for acquiring tomographic projection data at a plurality of angular positions relative to an object disposed in an examination region, the apparatus comprising:
- a rotating gantry which rotates around a central axis of rotation, wherein the examination region lies within the rotating gantry and includes a transaxial plane which is perpendicular to the central axis of rotation;
a radiation source mounted on the rotating gantry for rotation about the examination region;
a radiation sensitive detector mounted on the rotating gantry for rotation about the examination region to detect radiation emitted by the source, wherein the radiation has traversed the examination region;
wherein at least one of the source and a transverse center of the detector is transversely displaced from a center of a transverse field of view in the transaxial plane during acquisition of the projection data by a variable amount of displacement; and
wherein the variable amount of transverse displacement is determined at least in part based on a size of the object in the transverse field of view.
1 Assignment
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Accused Products
Abstract
A method and apparatus are provided to improve CT image acquisition using a displaced acquisition geometry. A CT apparatus may be used having a source (102) and a detector (104) transversely displaced from a center (114) of a field of view (118) during acquisition of the projection data. The amount of transverse displacement may be determined based on the size of the object (108). The source and the detector may be adjusted to vary the size of the transverse field of view. The first data set acquired by the detector may be reconstructed and used to simulate missing projection data that could not be acquired by the detector at each projection angle. The measured projection data and the simulated projection data may be used to obtain a second data set. The second data set may be compared to the first data set to produce a corrected data set.
156 Citations
30 Claims
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1. An apparatus for acquiring tomographic projection data at a plurality of angular positions relative to an object disposed in an examination region, the apparatus comprising:
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a rotating gantry which rotates around a central axis of rotation, wherein the examination region lies within the rotating gantry and includes a transaxial plane which is perpendicular to the central axis of rotation; a radiation source mounted on the rotating gantry for rotation about the examination region; a radiation sensitive detector mounted on the rotating gantry for rotation about the examination region to detect radiation emitted by the source, wherein the radiation has traversed the examination region; wherein at least one of the source and a transverse center of the detector is transversely displaced from a center of a transverse field of view in the transaxial plane during acquisition of the projection data by a variable amount of displacement; and wherein the variable amount of transverse displacement is determined at least in part based on a size of the object in the transverse field of view. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. An apparatus for acquiring tomographic projection data at a plurality of angular positions relative to an object disposed in an examination region, the apparatus comprising:
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a radiation source; a radiation sensitive detector which detects radiation emitted by the source, wherein the radiation has traversed the examination region; wherein at least one of the source and a transverse center of the detector is transversely displaced from a center of a transverse field of view during acquisition of the projection data by a variable amount of displacement; wherein the variable amount of transverse displacement is determined at least in part based on a size of the object in the transverse field of view; and wherein the amount of transverse displacement is determined using a light source attached to a rotating gantry and a light detector attached to the radiation sensitive detector.
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17. A computed tomography method, comprising the steps of:
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acquiring tomographic projection data at a plurality of angular positions relative to an object disposed in an examination region, using a radiation source and a radiation sensitive detector to detect radiation emitted by the source, wherein the source and the detector are mounted on a rotating gantry which rotates around a central axis of rotation, and the examination region lies within the rotating gantry and includes a transaxial plane which is perpendicular to the central axis of rotation, and at least one of the source and a transverse center of the detector are transversely displaced from a center of a transverse field of view in the transaxial plane during acquisition of the projection data by a variable amount of displacement; determining the variable amount of transverse displacement based at least in part on a size of an imaged object in the transverse field of view; adjusting at least one of the source and the transverse center of the detector to correspond to the amount of determined transverse displacement; and using the acquired tomographic projection data to generate a CT image of the imaged object. - View Dependent Claims (18, 19, 20, 21, 22, 23, 24)
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25. A computed tomography method, comprising the steps of:
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acquiring tomographic projection data at a plurality of angular positions relative to an object disposed in an examination region, using a radiation source and a radiation sensitive detector to detect radiation emitted by the source, wherein at least one of the source and a transverse center of the detector are transversely displaced from a center of a transverse field of view during acquisition of the projection data by a variable amount of displacement; determining the variable amount of transverse displacement based at least in part on a size of an imaged object in the transverse field of view; adjusting at least one of the source and the transverse center of the detector to correspond to the amount of determined transverse displacement; using the acquired tomographic projection data to generate a CT image of the imaged object; and wherein the amount of transverse displacement is determined using a light source attached to a rotating gantry and a light detector attached to the radiation sensitive detector.
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26. A computed tomography method, comprising the steps of:
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acquiring tomographic projection data at a plurality of angular positions relative to an object disposed in an examination region to acquire a first CT data set, using a radiation source and a radiation sensitive detector to detect radiation emitted by the source, wherein the source and the detector are mounted on a rotating gantry which rotates around a central axis of rotation, and the examination region lies within the rotating gantry and includes a transaxial plane which is perpendicular to the central axis of rotation, and at least one of the source and a transverse center of the detector are transversely displaced from a center of a transverse field of view in the transaxial plane during acquisition of the projection data by a variable amount of displacement, as determined at least in part based on a size of the object in the transverse field of view; reconstructing the first CT data set to generate first volumetric data indicative of the object; using the first volumetric data to simulate missing projection data that could not be acquired by the detector at each angular position; using the simulated projection data to obtain a second CT data set for at least one of the plurality of angular positions; complementing the first CT data set with the second CT data set to produce an initial corrected CT data set; and reconstructing the initial corrected CT data set to generate first corrected volumetric data indicative of the object. - View Dependent Claims (27)
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28. A computed tomography method, comprising the steps of:
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acquiring tomographic projection data at a plurality of angular positions relative to an object disposed in an examination region to acquire a first CT data set, using a radiation source and a radiation sensitive detector to detect radiation emitted by the source, wherein the source and the detector are mounted on a rotating gantry which rotates around a central axis of rotation, and the examination region lies within the rotating gantry and includes a transaxial plane which is perpendicular to the central axis of rotation, and a transverse center of the detector is transversely displaced from a center of a transverse field of view in the transaxial plane during acquisition of the projection data by a variable amount of displacement, as determined at least in part based on a size of the object in the transverse field of view; reconstructing the first CT data set acquired by the transversely displaced detector to generate first volumetric data indicative of the object; using the first volumetric data to simulate missing projection data that could not be acquired by the transversely displaced detector at each angular position, wherein the simulated data set is rebinned to a flat detector having a transverse center substantially aligned with the center of the transverse field of view; extending the first CT data set acquired by the transversely displaced detector using the simulated projection data to obtain a second CT data set for at least one of the plurality of angular positions; complementing the first CT data set acquired by the transversely displaced detector with the second CT data set to produce an initial corrected CT data set; and reconstructing the initial corrected CT data set to generate first corrected volumetric data indicative of the object.
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29. An apparatus for acquiring tomographic projection data at a plurality of angular positions relative to an object disposed in an examination region, the apparatus comprising:
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a rotating gantry which rotates around a central axis of rotation, wherein the examination region lies within the rotating gantry and includes a transaxial plane which is perpendicular to the central axis of rotation; a radiation source mounted on the rotating gantry for rotation about the examination region; a radiation sensitive detector mounted on the rotating gantry for rotation about the examination region to detect radiation emitted by the source, wherein the radiation has traversed the examination region; wherein at least one of the source and a transverse center of the detector is transversely displaced from a center of a transverse field of view during acquisition of the projection data by a variable amount of displacement, as determined at least in part based on a size of the object in the transverse field of view; and a reconstructor that; reconstructs a first CT data set acquired by the detector to generate first volumetric data indicative of the object; uses the first volumetric data to simulate missing projection data that could not be acquired by the detector at each projection angle; uses the simulated projection data to obtain a second CT data set for at least one of the plurality of projection angles; complements the first CT data set with the second CT data set to produce an initial corrected CT data set; and reconstructs the initial corrected CT data set to generate first corrected volumetric data indicative of the object. - View Dependent Claims (30)
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Specification