Non-circular emission computed tomography
First Claim
1. In a radiographic imaging device of the type having a circularly rotatable scintillation detector adapted for emission computed tomographic imaging of a subject by orbiting about the subject, the improvement comprising:
- (a) means for rotating said scintillation detector predetermined angular increments about the subject along said circular orbit such that a portion of said detector is maintained within a plane defined by said orbit;
(b) means for displacing the subject relative to the center of radius of said circular orbit during at least a portion of said orbit such that said orbit is maintained within said plane; and
(c) synchronous control means in communicating relationship with said rotating means and said displacing means for controlling the sequence and duration of said rotation and displacement until a prescribed non-circular planar orbit is circumscribed by said scintillation detector with respect to said subject.
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Accused Products
Abstract
A radiation imaging system including a rotatable scintillation detector for non-circular emission computed tomography. The radiation imaging system includes a rotatable scintillation detector and a linearly movable detector stand. With the stand stationary, the scintillation detector is capable of circularly orbiting about the longitudinal axis of the patient for emission computed tomography and with the detector stationary the detector stand may be linearly displaced for whole body scanning with the patient aligned parallel to the detector stand path in an orientation orthogonal to the tomographic orientation. The circular rotational motion is combined with the linear translation such that the detector orbits about a section of the patient in a non-circular path. The path assures a minimum distance between the face of the scintillation detector and the boundary of the patient during the entire tomographic orbit to thereby improve resolution of the tomogram.
100 Citations
12 Claims
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1. In a radiographic imaging device of the type having a circularly rotatable scintillation detector adapted for emission computed tomographic imaging of a subject by orbiting about the subject, the improvement comprising:
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(a) means for rotating said scintillation detector predetermined angular increments about the subject along said circular orbit such that a portion of said detector is maintained within a plane defined by said orbit; (b) means for displacing the subject relative to the center of radius of said circular orbit during at least a portion of said orbit such that said orbit is maintained within said plane; and (c) synchronous control means in communicating relationship with said rotating means and said displacing means for controlling the sequence and duration of said rotation and displacement until a prescribed non-circular planar orbit is circumscribed by said scintillation detector with respect to said subject.
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2. In a radiographic imaging device of the type having a circularly rotatable scintillation detector adapted for emission computed tomographic imaging of a subject and a movable base member for supporting said detector and adapted for area scanning studies, the improvement comprising:
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(a) means for rotating said scintillation detector predetermined angular increments along said circular orbit about a longitudinal axis such that a portion of said detector is maintained within a plane defined by said orbit; (b) means for moving said base member in directions transverse to said longitudinal axis and in a plane parallel to the plane of said circular orbit predetermined linear increments; and (c) synchronous control means in communicating relationship with said rotating means and said translating means for controlling the sequence and duration of said rotation and translation until a presecribed non-circular planar orbit is circumscribed by said portion of said scintillation detector. - View Dependent Claims (3, 4, 5)
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6. In an apparatus for supporting and positioning a scintillation detector to a locus of desirable locations relative to a subject to detect radiation emitted by said subject for subsequent reconstruction into a tomogram, said apparatus including a generally C-shaped support member having means for pivotally supporting the scintillation detector at one end portion thereof, a rotatable carrier member slidably engaging said support member for retaining said support member and permitting orbital movement of said support member along a circular path about a section of the subject, the radius of said circular path being determined by the position of said support member relative to said carrier member, a base member for rotatably supporting said carrier member and means for providing linear translation of said base member, the improvement comprising:
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(a) rotational control means coupled to said carrier member for rotating said scintillation detector about said subject along a circular orbit without changing the position of said support member relative to said carrier member; (b) translational control means coupled to said base member for translating said scintillation detector predetermined incremental linear distances between a first and a second end point; and (c) synchronous control means in communicating relationship with said rotational control means and said translational control means for coordinating said rotation and translation until a prescribed planar non-circular orbit is circumscribed by said scintillation detector. - View Dependent Claims (7, 8, 9, 10)
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11. A method of non-circular emission computed tomography with a radiographic apparatus having a circularly rotatable scintillation detector comprising the steps of:
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(a) positioning said scintillation detector to transverse in a circle of preselected radius at a desired location and orientation relative to a section of a patient undergoing a tomographic study, the patient having been administered a radionuclide; (b) moving said detector in increments along a path about said section, said path having a non-constant center of radius relative to the patient, each increment being the resultant of at least one of; (i) rotating said scintillation detector an angular increment along said circle, and (ii) displacing said scintillation detector relative to said patient a linear increment; and (c) detecting emissions from said patient while said scintillation detector completes a path about said patient at a rate that permits sufficient numbers of gamma rays to be accumulated for reconstructing a tomographic image of the section of the patient being studied. - View Dependent Claims (12)
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Specification