Single photon emission computed tomography system

US 20030136912A1
Filed: 02/05/2003
Published: 07/24/2003
Est. Priority Date: 04/14/1999
Status: Active Grant

First Claim

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1. A single photon emission computed tomography system for producing multiple tomographic images of the type representing a three-dimensional distribution of a photon-emitting radioisotope, said system comprising:

a base including a patient support for supporting a human patient such that a portion of the patient'"'"'s torso is located in a field of view, a longitudinal axis being defined through the field of view;

a detector assembly adjacent the field of view, said detector assembly including a photon-responsive detector operable to detect if a photon strikes the detector, said detector assembly operable to scan for photons emitted from the portion of the patient'"'"'s torso located in the field of view;

a photon-blocking member disposed between the field of view and said detector, said blocking member having an aperture slot defined therethrough for passage of photons aligned with said aperture slot, a line of response being defined from said detector through said aperture;

a collimating assembly including a plurality of generally parallel collimating vanes formed of photon-attenuating material, said vanes being spaced apart so as to define a plurality of gaps, the gaps each having a height, each of said vanes having a front edge directed toward the field of view and a back edge directed towards said detector, the front to back depth of each of said vanes being greater than 10 times the height of each of the gaps, said plurality of vanes being disposed between said detector and the field of view such that only photons passing through one of the gaps can travel from the field of view to said detector; and

a displacement actuator operable to move one of said detector and said photon-blocking member relative to the other of said detector and said photon-blocking member such that said aperture is displaced relative to said detector and the line of response is swept across at least a portion of the field of view.

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Abstract

A single photon emission computed tomography system produces multiple tomographic images of the type representing a three-dimensional distribution of a photon-emitting radioisotope. The system has a base including a patient support for supporting a patient such that a portion of the patient is located in a field of view. A longitudinal axis is defined through the field of view. A detector module is adjacent the field of view and includes a photon-responsive detector. The detector is operable to detect if a photon strikes the detector. A photon-blocking member is positioned between the field of view and the detector. The blocking member has an aperture slot for passage of photons aligned with the aperture slot. A line of response is defined from the detector through the aperture. A collimating assembly includes a plurality of generally parallel collimating vanes formed of a photon attenuating material. The vanes are spaced apart so as to find a plurality of gaps, with the gaps each having a height. Each of the vanes has a front edge directed toward the field of view and a back edge directed towards the detector. The front-to-back depth of each of the vanes is greater than 10 times the height of the gaps. The plurality of vanes is disposed between the detector and the field of view such that only photons passing through one of the gaps can travel from the field of view to the detector. A displacement device moves either the detector module or the photon-blocking member relative to the other so that the aperture is displaced relative to the detector and the line of response is swept across at least a portion of the field of view.

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20 Claims

1. A single photon emission computed tomography system for producing multiple tomographic images of the type representing a three-dimensional distribution of a photon-emitting radioisotope, said system comprising:
- a base including a patient support for supporting a human patient such that a portion of the patient'"'"'s torso is located in a field of view, a longitudinal axis being defined through the field of view;
  
  a detector assembly adjacent the field of view, said detector assembly including a photon-responsive detector operable to detect if a photon strikes the detector, said detector assembly operable to scan for photons emitted from the portion of the patient'"'"'s torso located in the field of view;
  
  a photon-blocking member disposed between the field of view and said detector, said blocking member having an aperture slot defined therethrough for passage of photons aligned with said aperture slot, a line of response being defined from said detector through said aperture;
  
  a collimating assembly including a plurality of generally parallel collimating vanes formed of photon-attenuating material, said vanes being spaced apart so as to define a plurality of gaps, the gaps each having a height, each of said vanes having a front edge directed toward the field of view and a back edge directed towards said detector, the front to back depth of each of said vanes being greater than 10 times the height of each of the gaps, said plurality of vanes being disposed between said detector and the field of view such that only photons passing through one of the gaps can travel from the field of view to said detector; and
  
  a displacement actuator operable to move one of said detector and said photon-blocking member relative to the other of said detector and said photon-blocking member such that said aperture is displaced relative to said detector and the line of response is swept across at least a portion of the field of view.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
- - 2. The system according to claim 1, wherein the depth of each of said vanes is greater than 20 times the height of each of the gaps.
  - 3. The system according to claim 1, wherein the depth of each of said vanes is greater than 30 times the height of each of the gaps.
  - 4. The system according to claim 1, wherein the depth of each of said vanes is greater than or equal to 33 times the height of each of the gaps.
  - 5. The system according to claim 1, wherein each of said vanes has a thickness greater than equal to 1 mm.
  - 6. The system according to claim 1, wherein the depth of each of said vanes is greater than or equal to 100 mm.
  - 7. The system according to claim 1;
    - wherein the depth of each of said vanes is greater than or equal to 150 mm.
  - 8. The system according to claim 1, wherein the longitudinal axis is generally vertical, such that the patient'"'"'s torso extends generally vertically with the patient'"'"'s head substantially higher than the patient'"'"'s hips.
  - 9. The system according to claim 8, wherein said base comprises a chair-like structure having a generally horizontal bottom portion for supporting the patient'"'"'s hips and a generally vertical back portion of supporting the patient'"'"'s back.
  - 10. The system according to claim 9, wherein said detector assembly comprises a generally arcuate housing at least partially surrounding the field of view.
  - 11. The system according to claim 10, wherein said arcuate housing is interconnected with said back portion of said base such that said housing partially surrounds the patient'"'"'s torso when the patient is seated on said bottom portion, said housing extending generally arcuately between a pair of ends that are spaced apart so as to define an entry opening to the field of view.
  - 12. The system according to claim 1, wherein said collimating vanes are disposed between said photon-blocking member and said detector.
  - 13. The system according to claim 1, wherein a radiolucent material is disposed in the gaps between said vanes.
  - 14. The system according to claim 1, wherein said collimating vanes are generally perpendicular to the longitudinal axis.
  - 15. The system according to claim 1, wherein said collimating vanes are angled with respect to the longitudinal axis.
  - 16. The system according to claim 1 wherein the aperture slot is generally parallel to longitudinal axis.
  - 17. The system according to claim 1, wherein the aperture slot is generally perpendicular to at least some of said vanes.

18. A single photon emission computed tomography system for producing multiple tomographic images of the type representing a three-dimensional distribution of a photon-emitting radioisotope, said system comprising:
- a base including a patient support for supporting a human patient such that a portion of the patient'"'"'s torso is located in a field of view, a longitudinal axis being defined through the field of view;
  
  a detector assembly adjacent the field of view, said detector assembly including a photon-responsive detector operable to detect if a photon strikes the detector, said detector assembly operable to scan for photons emitted from the portion of the patient'"'"'s torso located in the field of view;
  
  a photon-blocking member disposed between the field of view and said detector, said blocking member having an aperture slot defined therethrough for passage of photons aligned with said aperture slot, a line of response being defined from said detector through said aperture;
  
  a collimating assembly including a plurality of generally parallel collimating vanes formed of photon-attenuating material, said vanes being spaced apart so as to define a plurality of gaps, each of said vanes having a front edge directed toward the field of view and a back edge directed towards said detector, the front to back depth of each of said vanes being greater than or equal to 100 mm, said plurality of vanes being disposed between said detector and the field of view such that only photons passing through one of the gaps can travel from the field of view to said detector; and
  
  a displacement actuator operable to move one of said detectors and said photon-blocking member relative to the other of said detector and said photon-blocking member such that said aperture is displaced relative to said detector and the line of response is swept across at least a portion of the field of view.

19. A single photon emission computed tomography system for producing multiple tomographic images of the type representing a three-dimensional distribution of a photon-emitting radioisotope, said system comprising:
- a base including a patient support for supporting a human patient such that a portion of the patient'"'"'s torso is located in a field of view, a longitudinal axis being defined through the field of view;
  
  a detector assembly adjacent the field of view, said detector assembly including a photon-responsive detector operable to detect if a photon strikes the detector, said detector assembly operable to scan for photons emitted from the portion of the patient'"'"'s torso located in the field of view; and
  
  a collimating assembly including a plurality of collimating vanes formed of photon-attenuating material, said vanes being spaced apart so as to define a plurality of gaps, the gaps each having a height, each of said vanes having a front edge directed toward the field of view and a back edge directed towards said detector, the front to back depth of each of said vanes being greater than 10 times the height of each of the gaps, said plurality of vanes being disposed between said detector and the field of view such that photons traveling from the field of view to said detector may pass through one of the gaps.

20. A single photon emission computed tomography system for producing multiple tomographic images of the type representing a three-dimensional distribution of a photon-emitting radioisotope, said system comprising:
- a base including a patient support for supporting a human patient such that a portion of the patient'"'"'s torso is located in a field of view, a longitudinal axis being defined through the field of view;
  
  a detector assembly adjacent the field of view, said detector assembly including a photon-responsive detector operable to detect if a photon strikes the detector, said detector assembly operable to scan for photons emitted from the portion of the patient'"'"'s torso located in the field of view; and
  
  a collimating assembly including a plurality of collimating vanes formed of photon-attenuating material, said vanes being spaced apart so as to define a plurality of gaps, the gaps each having a height, each of said vanes having a front edge directed toward the field of view and a back edge directed towards said detector, the front to back depth of each of said vanes being greater than or equal to 100 mm, said plurality of vanes being disposed between said detector and the field of view such that photons traveling from the field of view to said detector may pass through one of the gaps.

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Current Assignee
HighBrook Holdings, LLC
Original Assignee
Jack E. Juni
Inventors
Juni, Jack E.

Granted Patent

US 7,015,476 B2
Time in Patent Office

Days
Field of Search
US Class Current

250/363.04
CPC Class Codes

A61B 6/037 Emission tomography

G01T 1/1642 using a scintillation cryst...

Single photon emission computed tomography system

First Claim

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Abstract

61 Citations

20 Claims

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Single photon emission computed tomography system

First Claim

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Abstract

61 Citations

20 Claims

Specification

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