PROJECTION DATA ACQUISITION APPARATUS

US 20170172525A1
Filed: 07/13/2015
Published: 06/22/2017
Est. Priority Date: 07/15/2014
Status: Active Grant

First Claim

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1. A projection data acquisition apparatus for acquiring projection data, the projection data acquisition apparatus comprising:

a radiation device for generating a pulsed radiation beam for traversing an object,a detection device for generating projection data being indicative of the pulsed radiation beam after having traversed the object,a moving unit for moving the radiation device and the object relative to each other, in order to generate the projection data at different acquisition positions of the radiation device relative to the object,wherein the radiation device is adapted to generate the pulsed radiation beam such that at different acquisition positions the pulsed radiation beam has different shapes, and wherein the radiation device comprises a radiation source for generating a radiation beam and a collimator for partially blocking and/or attenuating the radiation beam, in order to generate the pulsed radiation beam such that at different acquisition positions the pulsed radiation beam has different shapes, wherein the collimator is adapted to partially block the radiation beam such that a shadowed region and a non-showed region are generated on the detection device, wherein the detection device is adapted to generate the projection data based on the pulsed radiation beam directed onto the non-shadowed region and to generate scatter data based on radiation, which has been scattered onto the shadowed region, wherein the projection data acquisition apparatus further comprises a correction unit for correcting the generated projection data based on the scatter data.

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Abstract

The invention relates to a projection data acquisition apparatus (31) for acquiring projection data. The projection data acquisition apparatus comprises a radiation device (32) for generating a pulsed radiation beam (4) for traversing an object and a detection device (6) for generating projection data being indicative of the pulsed radiation beam (4) at different acquisition positions, wherein the radiation device (32) is adapted to generate the pulsed radiation beam (4) such that at different acquisition positions the pulsed radiation beam (4) has different shapes, i.e. is differently blocked and/or attenuated. Thus, not the complete radiation providable by the radiation device is used at each acquisition position, but at least at some acquisition positions only a smaller pulsed radiation beam is used. This can lead to less scattered radiation and hence to improved projection data and an improved computed tomography image, which may be reconstructed based on the acquired projection data.

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15 Claims

1. A projection data acquisition apparatus for acquiring projection data, the projection data acquisition apparatus comprising:
- a radiation device for generating a pulsed radiation beam for traversing an object,a detection device for generating projection data being indicative of the pulsed radiation beam after having traversed the object,a moving unit for moving the radiation device and the object relative to each other, in order to generate the projection data at different acquisition positions of the radiation device relative to the object,wherein the radiation device is adapted to generate the pulsed radiation beam such that at different acquisition positions the pulsed radiation beam has different shapes, and wherein the radiation device comprises a radiation source for generating a radiation beam and a collimator for partially blocking and/or attenuating the radiation beam, in order to generate the pulsed radiation beam such that at different acquisition positions the pulsed radiation beam has different shapes, wherein the collimator is adapted to partially block the radiation beam such that a shadowed region and a non-showed region are generated on the detection device, wherein the detection device is adapted to generate the projection data based on the pulsed radiation beam directed onto the non-shadowed region and to generate scatter data based on radiation, which has been scattered onto the shadowed region, wherein the projection data acquisition apparatus further comprises a correction unit for correcting the generated projection data based on the scatter data.
- View Dependent Claims (3, 4, 5, 7, 8, 9, 10, 11)
- - 3. The projection data acquisition apparatus as defined in claim 1, wherein the radiation source is adapted to generate a pulsed radiation beam, wherein the collimator is adapted to partially block or attenuate the pulsed radiation beam for generating the pulsed radiation beam such that at different acquisition positions the pulsed radiation beam has different shapes.
  - 4. The projection data acquisition apparatus as defined in claim 1, wherein the collimator comprises a rotatable cylinder with several openings, wherein the collimator is adapted to rotate the cylinder such that the openings are arranged at different rotational positions relative to the radiation source at the different acquisition positions, in order to generate the pulsed radiation beam such that at the different acquisition positions the pulsed radiation beam has different shapes.
  - 5. The projection data acquisition apparatus as defined in claim 4, wherein the openings of the cylinder include first openings arranged at a first position along a longitudinal axis of the cylinder and second openings arranged at a second position along the longitudinal axis of the cylinder wherein the first openings and the second openings have a circumferential offset relative to each other.
  - 7. The projection data acquisition apparatus as defined in claim 1, wherein the projection data acquisition apparatus further comprises a radiation dose constraints providing unit for providing spatial radiation dose constraints defining upper radiation dose limits for different spatial regions within the object, wherein the radiation device, the detection device and the moving unit are adapted to generate the projection data such that the provided spatial radiation dose constraints are fulfilled.
  - 8. The projection data acquisition apparatus as defined in claim 1, wherein the radiation device is adapted such that the pulse duration of the pulsed radiation beam is different at different acquisition positions.
  - 9. The projection data acquisition apparatus as defined in claim 1, wherein the moving unit is adapted to move the radiation device relative to the object along an acquisition trajectory during the acquisition of the projection data, wherein the radiation device and the detection device are adapted to allow an acquisition of projection data at a group of different acquisition positions along the acquisition trajectory and to actually generate the pulsed radiation beam and detect the pulsed radiation beam, after having traversed the object, only at a subgroup of the group of different acquisition positions.
  - 10. A Use of a collimator for collimating radiation generated by a radiation source of a projection data acquisition apparatus as defined in claim 1, wherein the collimator comprises a rotatable cylinder with several openings which include first openings arranged at a first position along a longitudinal axis of the cylinder and second openings arranged at a second position along the longitudinal axis of the cylinder, wherein the first openings and the second openings have a circumferential offset relative to each other.
  - 11. A computed tomography system for generating a computed tomography image of an object, the computed tomography system comprising:
    - a projection data acquisition apparatus for acquiring projection data of the object as defined in claim 1,a reconstruction unit for reconstructing a computed tomography image of the object based on the acquired projection data.

2. (canceled)

6. (canceled)

12. A projection data acquisition method for acquiring projection data, the projection data acquisition method comprising:
- generating a pulsed radiation beam for traversing an object by a radiation device,generating projection data being indicative of the pulsed radiation beam after having traversed the object by a detection device,moving the radiation device and the object relative to each other by a moving unit, in order to generate the projection data at different acquisition positions of the radiation device relative to the object,wherein the radiation device generates the pulsed radiation beam such that at different acquisition positions the pulsed radiation beam has different shapes,wherein the collimator partially blocks the radiation beam such that a shadowed region and a non-shadowed region are generated on the detection device, wherein the detection device generates the projection data based on the pulsed radiation beam directed onto the non-shadowed region and to generate scatter data based on radiation, which has been scattered onto the shadowed region, wherein the generated projection data are corrected based on the scatter data by using a correction unit.
- View Dependent Claims (13, 14, 15)
- - 13. A computed tomography method for generating a computed tomography image of an object, the computed tomography method comprising:
    - acquiring projection data of the object as defined in claim 12 by a projection data acquisition apparatus,reconstructing a computed tomography image of the object based on the acquired projection data by a reconstruction unit.
  - 14. A computer program for acquiring projection data, the computer program comprising program code means for causing a projection data acquisition apparatus to carry out the steps of the projection data acquisition method as defined in claim 12, when the computer program is run on a computer controlling the projection data acquisition apparatus.
  - 15. A computer program for generating a computed tomography image of an object, the computer program comprising program code means for causing a computed tomography system to carry out the steps of the computed tomography method as defined in claim 13, when the computer program is run on a computer controlling the computed tomography system.

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Current Assignee
Koninklijke Philips N.V.
Original Assignee
Koninklijke Philips N.V.
Inventors
PROKSA, Roland, GRASS, Michael

Granted Patent

US 10,441,230 B2
Time in Patent Office

Days
Field of Search
US Class Current
CPC Class Codes

A61B 6/032   Transmission computed tomog...

A61B 6/06   Diaphragms

A61B 6/405   Source units specially adap...

A61B 6/4429   related to the mounting of ...

A61B 6/5282   due to scatter

A61B 6/542   involving control of exposure

G01N 23/046   using tomography, e.g. comp...

PROJECTION DATA ACQUISITION APPARATUS

First Claim

1 Assignment

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Abstract

9 Citations

15 Claims

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PROJECTION DATA ACQUISITION APPARATUS

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

9 Citations

15 Claims

Specification

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Solutions

Use Cases

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