IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0302131
(2005-12-14)
|
등록번호 |
US-7297967
(2007-11-20)
|
우선권정보 |
JP-2002-170778(2002-06-12) |
발명자
/ 주소 |
- Yanagisawa,Masaki
- Akiyama,Hiroshi
- Matsuda,Koji
- Fujimaki,Hisataka
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
119 인용 특허 :
8 |
초록
▼
The present invention provides an increased degree of uniformity of radiation dose distribution for the interior of a diseased part. A particle beam therapy system includes a charged particle beam generation apparatus and an irradiation apparatus. An ion beam is generated by the charged particle bea
The present invention provides an increased degree of uniformity of radiation dose distribution for the interior of a diseased part. A particle beam therapy system includes a charged particle beam generation apparatus and an irradiation apparatus. An ion beam is generated by the charged particle beam generation apparatus. The irradiation apparatus exposes a diseased part to the generated ion beam. A scattering device, a range adjustment device, and a Bragg peak spreading device are installed upstream of a first scanning magnet and a second scanning magnet. The scattering device and the range adjustment device are combined together and moved along a beam axis, whereas the Bragg peak spreading device is moved independently along the beam axis. The scattering device moves to adjust the degree of ion beam scattering. The range adjustment device moves to adjust ion beam scatter changes caused by an absorber thickness adjustment. The Bragg peak spreading device moves to adjust ion beam scatter changes arising out of an SOBP device. These adjustments provide uniformity of radiation dose distribution for the diseased part.
대표청구항
▼
What is claimed is: 1. A particle beam irradiation system comprising: a charged particle beam generation apparatus; and an irradiation apparatus for exposing an irradiation target to a charged particle beam emitted from the charged particle beam generation apparatus; wherein said irradiation appara
What is claimed is: 1. A particle beam irradiation system comprising: a charged particle beam generation apparatus; and an irradiation apparatus for exposing an irradiation target to a charged particle beam emitted from the charged particle beam generation apparatus; wherein said irradiation apparatus includes: a beam scanner for scanning said charged particle beam in such a manner as to draw a circle in a plane perpendicular to a propagation direction of said charged particle beam; a scattering device for increasing the size of said charged particle beam; a Bragg peak spreading device through which said charged particle beam passes; a collimator disposed downstream of said beam scanner, said scattering device and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough; and a plurality of drive devices including a first drive device for moving said scattering device in said propagation direction of said charged particle beam, and a second drive device for moving said Bragg peak spreading device in said propagation direction of said charged particle beam. 2. The particle beam irradiation system according to claim 1, further comprising a controller for controlling at least one of said first and second drive devices for controlling an amount of movement of at least one of said scattering device and said Bragg peak spreading device in said propagation direction of said charged particle beam in accordance with therapy plan information. 3. A particle beam irradiation system comprising: a charged particle beam generation apparatus; and an irradiation apparatus for exposing an irradiation target to a charged particle beam emitted from the charged particle beam generation apparatus; wherein said irradiation apparatus includes: a beam scanner for scanning said charged particle beam in such a manner as to draw a circle in a plane perpendicular to a propagation direction of said charged particle beam; a scattering device for increasing the size of said charged particle beam; a range adjustment device for varying the range of said charged particle beam; a Bragg peak spreading device through which said charged particle beam passes; a collimator disposed downstream of said beam scanner, said scattering device, said range adjustment and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough; and a plurality of drive devices including a first drive device for moving said scattering device in said propagation direction of said charged particle beam, a second drive device for moving said range adjustment device in said propagation direction of said charged particle beam, and a third drive device for moving said Bragg peak spreading device in said propagation direction of said charged particle beam. 4. The particle beam irradiation system according to claim 3, further comprising a beam scan controller for controlling said beam scanner for controlling the scan of said charged particle beam to which said irradiation target is exposed. 5. The particle beam irradiation system according to claim 3, further comprising a controller for controlling at least one of said first, second and third drive devices. 6. The particle beam irradiation system according to claim 3, wherein said scattering device and said range adjustment device are installed so as to move in combination in said propagation direction of the charged particle beam, and said combination of the scattering device and range adjustment device is positioned upstream of said beam scanner in said propagation direction of the charged particle beam. 7. The particle beam irradiation system according to claim 3, wherein said scattering device and said range adjustment device are installed so as to move in combination in said propagation direction of the charged particle beam, and said combination of the scattering device and range adjustment device is positioned downstream of said beam scanner in said propagation direction of the charged particle beam. 8. The particle beam irradiation system according to claim 3, wherein said Bragg peak spreading device is positioned upstream of said beam scanner in said propagation direction of the charged particle beam. 9. The particle beam irradiation system according to claim 3, wherein said Bragg peak spreading device is positioned most downstream in said propagation direction of the charged particle beam among said beam scanner, said scattering device, said range adjustment device and said Bragg peak spreading device. 10. The particle beam irradiation system according to claim 3, wherein said range adjustment device is positioned most downstream in said propagation direction of the charged particle beam among said beam scanner, said scattering device, said range adjustment device and said Bragg peak spreading device. 11. A particle beam irradiation system comprising: a charged particle beam generation apparatus; and an irradiation apparatus for exposing an irradiation target to a charged particle beam emitted from the charged particle beam generation apparatus; wherein said irradiation apparatus includes: a first scattering device for increasing the size of said charged particle beam; a second scattering device through which said charged particle beam passing through said first scattering device passes; a Bragg peak spreading device through which said charged particle beam passes; a collimator disposed downstream of said first and second scattering devices and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough; and a plurality of drive devices including a first drive device for moving said first scattering device in said propagation direction of said charged particle beam, and a second drive device for moving said Bragg peak spreading device in said propagation direction of said charged particle beam. 12. The particle beam irradiation system according to claim 11, further comprising a controller for controlling at least one of said first and second drive devices for controlling an amount of movement of at least one of said first scattering device and said Bragg peak spreading device in said propagation direction of said charged particle beam in accordance with therapy plan information. 13. A particle beam irradiation system comprising: a charged particle beam generation apparatus; and an irradiation apparatus for exposing an irradiation target to a charged particle beam emitted from the charged particle beam generation apparatus; wherein said irradiation apparatus includes: a first scattering device for increasing the size of said charged particle beam; a second scattering device through which said charged particle beam passing through said first scattering device passes; a range adjustment device for varying the range of said charged particle beam; a Bragg peak spreading device through which said charged particle beam passes; a collimator disposed downstream of said first and second scattering devices, said range adjustment device and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough; and a plurality of drive devices including a first drive device for moving said first scattering device in said propagation direction of said charged particle beam, a second drive device for moving said range adjustment device in said propagation direction of said charged particle beam, and a third drive device for moving said Bragg peak spreading device in said propagation direction of said charged particle beam. 14. The particle beam irradiation system according to claim 13, further comprising a controller for controlling at least one of said first, second and third drive devices. 15. The particle beam irradiation system according to claim 13, wherein said first scattering device and said range adjustment device are installed so as to move in combination in said propagation direction of the charged particle beam, and said combination of the first scattering device and range adjustment device is positioned upstream of said second scattering device in said propagation direction of the charged particle beam. 16. A particle beam irradiation apparatus for exposing an irradiation target to a charged particle beam emitted from a charged particle beam generation apparatus; wherein said irradiation apparatus includes: a beam scanner for scanning said charged particle beam in such a manner as to draw a circle in a plane perpendicular to a propagation direction of said charged particle beam; a scattering device for increasing the size of said charged particle beam; a Bragg peak spreading device through which said charged particle beam passes; a collimator disposed downstream of said beam scanner, said scattering device and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough; and a plurality of drive devices including a first drive device for moving said scattering device in said propagation direction of said charged particle beam, and a second drive device for moving said Bragg peak spreading device in said propagation direction of said charged particle beam. 17. A particle beam irradiation apparatus for exposing an irradiation target to a charged particle beam emitted from a charged particle beam generation apparatus; wherein said irradiation apparatus includes: a beam scanner for scanning said charged particle beam in such a manner as to draw a circle in a plane perpendicular to a propagation direction of said charged particle beam; a scattering device for increasing the size of said charged particle beam; a range adjustment device for varying the range of said charged particle beam; a Bragg peak spreading device through which said charged particle beam passes; a collimator disposed downstream of said beam scanner, said scattering device, said range adjustment and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough; and a plurality of drive devices including a first drive device for moving said scattering device in said propagation direction of said charged particle beam, a second drive device for moving said range adjustment device in said propagation direction of said charged particle beam, and a third drive device for moving said Bragg peak spreading device in said propagation direction of said charged particle beam. 18. A particle beam irradiation apparatus for exposing an irradiation target to a charged particle beam emitted from a charged particle beam generation apparatus; wherein said irradiation apparatus includes: a first scattering device for increasing the size of said charged particle beam; a second scattering device through which said charged particle beam passing through said first scattering device passes; a Bragg peak spreading device through which said charged particle beam passes; a collimator disposed downstream of said first and second scattering devices and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough; and a plurality of drive devices including a first drive device for moving said first scattering device in said propagation direction of said charged particle beam, and a second drive device for moving said Bragg peak spreading device in said propagation direction of said charged particle beam. 19. A particle beam irradiation apparatus for exposing an irradiation target to a charged particle beam emitted from a charged particle beam generation apparatus; wherein said irradiation apparatus includes: a first scattering device for increasing the size of said charged particle beam; a second scattering device through which said charged particle beam passing through said first scattering device passes, a range adjustment device for varying the range of said charged particle beam; a Bragg peak spreading device through which said charged particle beam passes; a collimator disposed downstream of said first and second scattering devices, said range adjustment device and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough; and a plurality of drive devices including first drive device for moving said first scattering device in said propagation direction of said charged particle beam, a second drive device for moving said range adjustment device in said propagation direction of said charged particle beam, and third drive device for moving said Bragg peak spreading device in said propagation direction of said charged particle beam. 20. A method of adjusting an irradiation apparatus which includes a beam scanner for scanning a charged particle beam emitted from a charged particle beam generation apparatus in such a manner as to draw a circle in a plane perpendicular to a propagation direction of said charged particle beam; a scattering device for increasing the size of said charged particle beam; a Bragg peak spreading device through which said charged particle beam passes; and a collimator disposed downstream of said beam scanner, said scattering device and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough; the method comprising the step of: moving at least one of said scattering device and said Bragg peak spreading device in a propagation direction of said charged particle beam and placing said at least one of said devices at a predetermined position before said charged particle beam is emitted form the charged particle beam generation apparatus. 21. The method according to claim 20, wherein said scattering device is allowed to move in said propagation direction of the charged particle beam in accordance with the irradiation target size in a direction perpendicular to said propagation direction. 22. A method of adjusting an irradiation apparatus which includes a beam scanner for scanning a charged particle beam emitted from a charged particle beam generation apparatus in such a manner as to draw a circle in a plane perpendicular to a propagation direction of said charged particle beam; a scattering device for increasing the size of said charged particle beam; a range adjustment device for varying the range of said charged particle beam; a Bragg peak spreading device through which said charged particle beam passes; and a collimator disposed downstream of said beam scanner, said scattering device, said range adjustment and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough; the method comprising the step of: moving at least one of said scattering device, said range adjustment device and said Bragg peak spreading device in a propagation direction of said charged particle beam and placing said at least one of said devices at a predetermined position before said charged particle beam is emitted form the charged particle beam generation apparatus. 23. The method according to claim 22, wherein said scattering device is allowed to move in said propagation direction of the charged particle beam in accordance with the irradiation target size in a direction perpendicular to said propagation direction. 24. A method of adjusting an irradiation apparatus which includes a first scattering device for increasing the size of a charged particle beam emitted from a charged particle beam generation apparatus; a second scattering device through which said charged particle beam passing through said first scattering device passes; a Bragg peak spreading device through which said charged particle beam passes; and a collimator disposed downstream of said first and second scattering devices and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough; the method comprising the step of: moving at least one of said first scattering device and said Bragg peak spreading device in a propagation direction of said charged particle beam and placing said at least one of said devices at a predetermined position before said charged particle beam is emitted form the charged particle beam generation apparatus. 25. The method according to claim 24, wherein said first scattering device is allowed to move in said propagation direction of the charged particle beam in accordance with the irradiation target size in a direction perpendicular to said propagation direction. 26. A method of adjusting an irradiation apparatus which includes a first scattering device for increasing the size of a charged particle beam emitted from a charged particle beam generation apparatus; a second scattering device through which said charged particle beam passing through said first scattering device passes; a range adjustment device for varying the range of said charged particle beam; a Bragg peak spreading device through which said charged particle beam passes; and a collimator disposed downstream of said first and second scattering devices, said range adjustment device and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough; the method comprising the step of: moving at least one of said first scattering device, said range adjustment device and said Bragg peak spreading device in a propagation direction of said charged particle beam and placing said at least one of said devices at a predetermined position before said charged particle beam is emitted form the charged particle beam generation apparatus. 27. The method according to claim 26, wherein said first scattering device is allowed to move in said propagation direction of the charged particle beam in accordance with the irradiation target size in a direction perpendicular to said propagation direction. 28. A method of exposing an irradiation target to a charged particle beam emitted from a charged particle beam generation apparatus using an irradiation apparatus which includes a beam scanner for scanning said charged particle beam in such a manner as to draw a circle in a plane perpendicular to a propagation direction of said charged particle beam; a scattering device for increasing the size of said charged particle beam; a Bragg peak spreading device through which said charged particle beam passes; and a collimator disposed downstream of said beam scanner, said scattering device and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough; the method comprising the steps of: moving at least one of said scattering device and said Bragg peak spreading device in a propagation direction of said charged particle beam and placing said at least one of said devices at a predetermined position; and thereafter exposing said irradiation target to said charged particle beam by delivering said charged particle beam which has passed through said scattering device, said Bragg peak spreading device and said collimator, from said irradiation apparatus. 29. A method of exposing an irradiation target to a charged particle beam using an irradiation apparatus which includes a beam scanner for scanning a charged particle beam emitted from a charged particle beam generation apparatus in such a manner as to draw a circle in a plane perpendicular to a propagation direction of said charged particle beam; a scattering device for increasing the size of said charged particle beam; a Bragg peak spreading device through which said charged particle beam passes; and a collimator disposed downstream of said beam scanner, said scattering device and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough; wherein the method comprising the steps of: increasing the size of said charged particle beam by passing through said scattering device; and causing said charged particle beam having the increased size to pass through said Bragg peak spreading device and said collimator before said irradiation target is exposed to said charged particle beam; and wherein the method further comprising the steps of: moving at least one of said scattering device and said Bragg peak spreading device in a propagation direction of said charged particle beam and placing said at least one of said devices at a predetermined position before said charged particle beam is emitted form the charged particle beam generation apparatus; and thereafter exposing said irradiation target to said charged particle beam by delivering said charged particle beam which has passed through said scattering device, said Bragg peak spreading device and said collimator, from said irradiation apparatus. 30. A method of exposing an irradiation target to a charged particle beam using an irradiation apparatus which includes a beam scanner for scanning a charged particle beam emitted from a charged particle beam generation apparatus in such a manner as to draw a circle in a plane perpendicular to a propagation direction of said charged particle beam; a scattering device for increasing the size of said charged particle beam; a Bragg peak spreading device through which said charged particle beam passes; and a collimator disposed downstream of said beam scanner, said scattering device and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough, wherein the method comprising the steps of: causing said charged particle beam to pass through said Bragg peak spreading device; increasing the size of said charged particle beam which has passed through said Bragg peak spreading device by passing through said scattering device; then causing the charged particle beam having the increased size to pass through said collimator before said irradiation target is exposed to said charged particle beam; moving at least one of said scattering device and said Bragg peak spreading device in a propagation direction of said charged particle beam and placing said at least one of said devices at a predetermined position before said charged particle beam is emitted form the charged particle beam generation apparatus; and thereafter exposing said irradiation target to said charged particle beam by delivering said charged particle beam which has passed through said scattering device, said Bragg peak spreading device and said collimator, from said irradiation apparatus. 31. A method of exposing an irradiation target to a charged particle beam emitted from a charged particle beam generation apparatus using an irradiation apparatus which includes a beam scanner for scanning said charged particle beam in such a manner as to draw a circle in a plane perpendicular to a propagation direction of said charged particle beam; a scattering device for increasing the size of said charged particle beam; a range adjustment device for varying the range of said charged particle beam; a Bragg peak spreading device through which said charged particle beam passes; and a collimator disposed downstream of said beam scanner, said scattering device, said range adjustment device and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass there through; the method comprising the steps of: moving at least one of said scattering device, said range adjustment device and said Bragg peak spreading device in a propagation direction of said charged particle beam and placing said at least one of said devices at a predetermined position; and thereafter exposing said irradiation target to said charged particle beam by delivering said charged particle beam which has passed through said scattering device, said range adjustment device, said Bragg peak spreading device and said collimator, from said irradiation apparatus. 32. A method of exposing an irradiation target to a charged particle beam emitted from a charged particle beam generation apparatus using an irradiation apparatus which includes a first scattering device for increasing the size of said charged particle beam; a second scattering device through which said charged particle beam passing through said first scattering device passes; a Bragg peak spreading device through which said charged particle beam passes; and a collimator disposed downstream of said first and second scattering devices and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough; the method comprising the steps of: moving at least one of said first scattering device and said Bragg peak spreading device in a propagation direction of said charged particle beam and placing said at least one of said devices at a predetermined position; and thereafter exposing said irradiation target to said charged particle beam by delivering said charged particle beam which has passed through said first and second scattering devices, said Bragg peak spreading device and said collimator, from said irradiation apparatus. 33. A method of exposing an irradiation target to a charged particle beam emitted from a charged particle beam generation apparatus using an irradiation apparatus which includes a first scattering device for increasing the size of said charged particle beam; a second scattering device through which said charged particle beam passing through said first scattering device passes; a range adjustment device for varying the range of said charged particle beam; a Bragg peak spreading device through which said charged particle beam passes; and a collimator disposed downstream of said first and second scattering devices, said range adjustment device and said Bragg peak spreading device in the propagation direction of said charged particle beam for eliminating the charged particle beams other than those which pass therethrough; the method comprising the steps of: moving at least one of said first scattering device, said range adjustment device and said Bragg peak spreading device in a propagation direction of said charged particle beam and placing said at least one of said devices at a predetermined position; and thereafter exposing said irradiation target to said charged particle beam by delivering said charged particle beam which has passed through said first and second scattering devices, said range adjustment device, said Bragg peak spreading device and said collimator, from said irradiation apparatus.
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