IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0763595
(2013-10-10)
|
등록번호 |
US-9492684
(2016-11-15)
|
우선권정보 |
JP-2013-014153 (2013-01-29) |
국제출원번호 |
PCT/JP2013/077640
(2013-10-10)
|
국제공개번호 |
WO2014/119050
(2014-08-07)
|
발명자
/ 주소 |
- Takayanagi, Taisuke
- Matsuda, Koji
- Shinagawa, Ryosuke
- Nakashima, Chihiro
- Nishimura, Arao
- Shirato, Hiroki
- Matsuura, Taeko
- Shimizu, Shinichi
- Onimaru, Rikiya
- Umegaki, Kikuo
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
2 |
초록
▼
The present invention provides a particle therapy system including an irradiation compensating device made up of an energy absorber, a first collimator, and a second collimator for use in a short-range region. The irradiation compensating device is characterized by a mechanism for attaching and deta
The present invention provides a particle therapy system including an irradiation compensating device made up of an energy absorber, a first collimator, and a second collimator for use in a short-range region. The irradiation compensating device is characterized by a mechanism for attaching and detaching the first energy absorber, first collimator, and second collimator. The first collimator is located upstream where the beam diameter is small with a view to suppressing the width of the compensating device, thereby contributing to making the compensating device small and lightweight. The second collimator is located downstream to improve penumbrae.
대표청구항
▼
1. A particle therapy system comprising: an irradiation nozzle forming an irradiation field using a scanning method;an irradiation compensating device used in a short-range region, the irradiation compensating device including a frame, an energy absorber, a first collimator, a second collimator, and
1. A particle therapy system comprising: an irradiation nozzle forming an irradiation field using a scanning method;an irradiation compensating device used in a short-range region, the irradiation compensating device including a frame, an energy absorber, a first collimator, a second collimator, and the energy absorber, the first collimator, and the second collimator are individually attachable to and detachable from the support frame, and the support frame of the irradiation compensating device is attachable to and detachable from the irradiation nozzle; anda treatment planning system configured to:select use or non-use of the irradiation compensating device and a type of the irradiation compensating device to be used at a time of optimized calculation in preparation of a prescription,record to the prescription the selected use or non-use of the irradiation compensating device and the selected type of the irradiation compensating device to be used, andoutput the prescription. 2. The particle therapy system according to claim 1, wherein: in the irradiation compensating device, lateral shapes of the energy absorber, the first collimator, and the second collimator are grouped into at least two types. 3. The particle therapy system according to claim 2, wherein: when the use of the irradiation compensating device is selected, the treatment planning system limits, for the selected irradiation compensating device in performing the optimized calculation, a range in which spots can be arranged and an energy of a usable extracted beam. 4. The particle therapy system according to claim 3, further comprising: a proton beam irradiation apparatus and an irradiation controller, wherein:the irradiation nozzle has a first sensor that monitors a status of the irradiation compensating device being attached or detached thereto and monitors the type of the irradiation compensating device, the first sensor outputting a monitored result to the irradiation controller,when the prescription output from the treatment planning system is input to the irradiation controller, the irradiation controller is configured to:compare first information recorded in the input prescription and second information output from the first sensor, the first information including whether the use or non-use of the irradiation compensating device is selected at the time of the optimized calculation and the selected type of the irradiation compensating device, and the second information including a status of the irradiation compensating device being attached to or detached from the irradiation nozzle and the type of the attached irradiation compensating device, andpermit the proton beam irradiation apparatus to emit a beam only when the first and second information match each other. 5. The particle therapy system according to claim 4, wherein: the irradiation compensating device has a plurality of second sensors that monitor statuses of the energy absorber, the first collimator, and the second collimator being attached or detached thereto, the second sensors outputting a monitored result to the irradiation controller, andthe irradiation controller permits the proton beam irradiation apparatus to emit the beam only when:the use of the irradiation compensating device is recorded in the prescription, andall of the energy absorber, the first collimator, and the second collimator are found to be attached to the irradiation compensating device on the basis of the information output from the second sensors. 6. The particle therapy system according to claim 1, wherein: when the use of the irradiation compensating device is selected, the treatment planning system is configured to:limit, for the selected type irradiation compensating device in performing optimized calculation, a range in which spots can be arranged and an energy of a usable extracted beam. 7. The particle therapy system according to claim 1, further comprising: a proton beam irradiation apparatus and an irradiation controller, wherein:the irradiation nozzle has a first sensor that monitors a status of the irradiation compensating device being attached or detached to the frame and monitors the type of the irradiation compensating device, the first sensor outputting a monitored result to the irradiation controller,when the prescription output from the treatment planning system is input to the irradiation controller, the irradiation controller is configured to:compare first information recorded in the input prescription and second information output from the first sensor, the first information including whether the use or non-use of the irradiation compensating device is selected at the time of the optimized calculation and the selected type of the irradiation compensating device, and the second information including a status of the irradiation compensating device being attached to or detached from the irradiation nozzle and the type of the attached irradiation compensating device, andpermit the proton beam irradiation apparatus to emit a beam only when the first and second information match each other. 8. The particle therapy system according to claim 7, wherein: the irradiation compensating device has a plurality of second sensors that monitor statuses of the energy absorber, the first collimator, and the second collimator being attached or detached to the frame, the second sensors outputting the monitored result to the irradiation controller, andthe irradiation controller permits the proton beam irradiation apparatus to emit the beam only when:the use of the irradiation compensating device is recorded in the prescription, andall of the energy absorber, the first collimator, and the second collimator are found to be attached to the irradiation compensating device on the basis of the information output from the second sensors. 9. The particle therapy system according to claim 1, wherein: each of the energy absorber, the first collimator, and the second collimator are divided into multiple parts which are separately attachable to and detachable from the support frame. 10. A particle therapy system comprising: an irradiation nozzle forming an irradiation field using a scanning method;an irradiation compensating device used in a short-range region, the irradiation compensating device including a frame, an energy absorber, a first collimator, a second collimator, and the energy absorber, the first collimator, and the second collimator are individually attachable to and detachable from the support frame, and the support frame of the irradiation compensating device is attachable to and detachable from the irradiation nozzle;a treatment planning system configured to:select use or non-use of the irradiation compensating device and a type of the irradiation compensating device to be used at a time of optimized calculation in preparation of a prescription,record to the prescription the selected use or non-use of the irradiation compensating device and the selected type of the irradiation compensating device to be used, andoutput the prescription; anda proton beam irradiation apparatus and an irradiation controller, wherein:the irradiation nozzle has a first sensor that monitors a status of the irradiation compensating device being attached or detached thereto and monitors the type of the irradiation compensating device, the first sensor outputting a monitored result to an irradiation controller, andwhen the prescription output from the treatment planning system is input to the irradiation controller, the irradiation controller configured to:compare first information recorded in the input prescription and second information output from the first sensor, the first information including whether the use or non-use of the irradiation compensating device is selected at the time of the optimized calculation and the type of the irradiation compensating device, and the second information including a status of the irradiation compensating device being attached to or detached from the irradiation nozzle and the type of the attached irradiation compensating device, andpermit the proton beam irradiation apparatus to emit a beam only when the first and second information match each other. 11. The particle therapy system according to claim 10, wherein: the irradiation compensating device has a plurality of second sensors that monitor statuses of the energy absorber, the first collimator, and the second collimator being attached or detached to the frame, the second sensors outputting a monitored result to the irradiation controller, andthe irradiation controller permits the proton beam irradiation apparatus to emit the beam only when:the use of the irradiation compensating device is recorded in the prescription, andall of the energy absorber, the first collimator, and the second collimator are found to be attached to the irradiation compensating device on the basis of the information output from the second sensors. 12. The particle therapy system according to claim 10, wherein: each of the energy absorber, the first collimator, and the second collimator are divided into multiple parts which are separately attachable to and detachable from the support frame.
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