Method of multiplanar emission tomography and apparatus therefor
First Claim
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1. An apparatus for producing a multiplanar representation of a radioisotope distribution within a volume of interest comprising:
- (a) a planar imaging device disposed adjacent said volume of interest for detecting photons emitting from said volume of interest;
(b) a rotatable collimator interposed between said planar imaging device and said volume of interest having a multiplicity of apertures to permit the passage of photons therethrough, said apertures being nonperpendicular in relation to the face of said planar imaging device;
(c) means for successively recording a plurality of projections of said volume of interest, each projection acquired from the photons detected by said imaging device associated with an angular orientation assumed by the rotatable collimator;
(d) reconstruction means for generating a three-dimensional array from said plurality of projections, said three-dimensional array simulating the radioisotope distribution within the volume of interest; and
(e) means for separating said three-dimensional array into a plurality of discrete planar sections, each such planar section of the volume of interest representing the radioisotope distribution in a planar section of said volume of interest corresponding to a specific normal distance from the collimator, thus corresponding to a specific depth range within said volume of interest, such that the aggregate of said discrete planar sections represents in three dimensions the radioisotope distribution within said volume of interest.
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Abstract
A method of emission tomography using a gamma camera and a rotating collimator having an array of a large number of slanted, small diameter holes. A planar projection corresponding to each angular orientation assumed by the collimator is recorded. From these series of planar projections, a three-dimensional simulation model is reconstructed by an iterative algorithm which approximates the emitting object. The simulated model comprises multiple separable planes.
53 Citations
13 Claims
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1. An apparatus for producing a multiplanar representation of a radioisotope distribution within a volume of interest comprising:
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(a) a planar imaging device disposed adjacent said volume of interest for detecting photons emitting from said volume of interest; (b) a rotatable collimator interposed between said planar imaging device and said volume of interest having a multiplicity of apertures to permit the passage of photons therethrough, said apertures being nonperpendicular in relation to the face of said planar imaging device; (c) means for successively recording a plurality of projections of said volume of interest, each projection acquired from the photons detected by said imaging device associated with an angular orientation assumed by the rotatable collimator; (d) reconstruction means for generating a three-dimensional array from said plurality of projections, said three-dimensional array simulating the radioisotope distribution within the volume of interest; and (e) means for separating said three-dimensional array into a plurality of discrete planar sections, each such planar section of the volume of interest representing the radioisotope distribution in a planar section of said volume of interest corresponding to a specific normal distance from the collimator, thus corresponding to a specific depth range within said volume of interest, such that the aggregate of said discrete planar sections represents in three dimensions the radioisotope distribution within said volume of interest.
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2. An apparatus for producing a multiplanar representation of a radioisotope distribution within a volume of interest comprising:
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(a) a rotatable collimator having a multiplicity of apertures to permit the passage of photons therethrough, said apertures being slanted relative to the axis of rotation of the collimator; (b) a planar imaging device disposed adjacent said collimator for detecting the photons passing through said apertures from said volume of interest; (c) means for successively recording a plurality of projections of said volume of interest, each projection acquired from the photons detected by said imaging device during each angular orientation assumed by the rotated collimator; (d) reconstruction means for generating a three-dimensional array from said plurality of projections, said three-dimensional array simulating the radioisotope distribution within the volume of interest; and (e) means for separating said three-dimensional array into a plurality of discrete planar sections, each such planar section of the volume of interest representing the radioisotope distribution in a planar section of said volume of interest corresponding to a specific normal distance from the collimator, thus corresponding to a specific depth range within said volume of interest, such that the aggregate of said discrete planar sections represents in three dimensions the radioisotope distribution within said volume of interest. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9)
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10. An apparatus for producing a multiplanar representation of a radioisotope distribution within a body comprising:
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(a) a rotatable collimator having a multiplicity of apertures to permit the passage of protons therethrough, a first plurality of said apertures being aligned generally parallel to each other and at a predetermined angle to the axis of rotation of the collimator; (b) means for intermittently rotating said collimator at preselected time intervals to one of a plurality of predetermined angular orientations of the collimator; (c) a planar imaging device disposed adjacent said collimator and generally parallel to the axis of rotation of the collimator for detecting the photons passing through the angled apertures of the collimator; (d) means for recording a plurality of planar projections, each planar projection corresponding to an angular orientation assumed by the collimator, each planar projection resulting from the photons acquired while said collimator assumed the angular orientation associated therewith; (e) means for generating from said plurality of planar projections, a three-dimensional array simulating the radioisotope distribution within the body; (f) means for comparing the recorded planar projections with the simulated three-dimensional array and for iteratively correcting said simulated array until a predetermined degree of accuracy is achieved; and (g) means for separating said three-dimensional array into a plurality of planar sections each section representing a discrete depth section of the body.
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11. A method of multiplanar emission tomography comprising:
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(a) directing a collimator having a multiplicity of slanted apertures toward a photon emitting volume of interest having a radioisotope distribution; (b) acquiring photons passing through said slanted apertures from the emitting volume of interest by a detector positioned adjacent said collimator such that that collimator is interposed between said detector and the volume of interest; (c) rotating said collimator during photon acquisition to record a plurality of projections, each corresponding to a particular angular orientation of said collimator; (d) reconstructing a simulated three-dimensional array of said radioisotope distribution within the volume of interest; and (e) iteratively correcting said simulated array by comparison with the recorded projections until the simulated array achieves a predetermined degree of accuracy. - View Dependent Claims (12, 13)
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Specification
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Current AssigneeTechnicare Corporation (General Electric Company)
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Original AssigneeTechnicare Corporation (General Electric Company)
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InventorsWake, Robert H., Gottschalk, Stephen C., Smith, Kendall A.
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Primary Examiner(s)Willis, Davis L.
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Assistant Examiner(s)Howell, Janice A.
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Application NumberUS06/113,871Time in Patent Office673 DaysField of Search250/360, 250/363 S, 250/366, 250/367, 250/369, 250/445 T, 250/505, 250/511, 250/513US Class Current250/363.04CPC Class CodesA61B 6/037 Emission tomographyG01T 1/2985 In depth localisation, e.g....
