IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0864002
(2010-01-28)
|
등록번호 |
US-8405042
(2013-03-26)
|
국제출원번호 |
PCT/JP2010/051121
(2010-01-28)
|
§371/§102 date |
20100722
(20100722)
|
국제공개번호 |
WO2011/092815
(2011-08-04)
|
발명자
/ 주소 |
- Honda, Taizo
- Harada, Hisashi
- Pu, Yuehu
- Yamamoto, Yuichi
- Iwata, Takaaki
|
출원인 / 주소 |
- Mitsubishi Electric Corporation
|
대리인 / 주소 |
Buchanan Ingersoll & Rooney PC
|
인용정보 |
피인용 횟수 :
26 인용 특허 :
3 |
초록
▼
The objective of the present invention is to reduce the effect of the hysteresis of a scanning electromagnet so as to obtain a particle beam therapy system that realizes high-accuracy beam irradiation. There are included an irradiation management apparatus (32) that controls the scanning electromagn
The objective of the present invention is to reduce the effect of the hysteresis of a scanning electromagnet so as to obtain a particle beam therapy system that realizes high-accuracy beam irradiation. There are included an irradiation management apparatus (32) that controls the scanning electromagnet (3), based on target irradiation position coordinates (Pi) of a charged particle beam (1b), and a position monitor (7) that measures measurement position coordinates (Ps) of the charged particle beam (1b). The irradiation management apparatus (32) has a command value creator (25) that outputs a control input (Io (Ir)) to the scanning electromagnet (3), based on the target irradiation position coordinates (Pi) and correction data (Ia) created on the basis of the measurement position coordinates (Ps), measured by the position monitor (7) in the preliminary irradiation in which the excitation pattern of the scanning electromagnet is the same as that of the main irradiation plan, and the target irradiation position coordinates (Pi).
대표청구항
▼
1. A particle beam therapy system that irradiates a charged particle beam, accelerated by an accelerator and scanned by a scanning electromagnet, onto an irradiation subject, the particle beam therapy system comprising: an irradiation management apparatus that controls the scanning electromagnet, ba
1. A particle beam therapy system that irradiates a charged particle beam, accelerated by an accelerator and scanned by a scanning electromagnet, onto an irradiation subject, the particle beam therapy system comprising: an irradiation management apparatus that controls the scanning electromagnet, based on target irradiation position coordinates of the charged particle beam; anda position monitor that measures measurement position coordinates of the charged particle beam, wherein the irradiation management apparatus has a command value creator that outputs a control input to the scanning electromagnet, for scanning the charged particle beam, based on the target irradiation position coordinates and correction data, said correction data having been created in a preliminary irradiation,wherein (i) said preliminary irradiation is performed prior to said irradiation of said subject and (ii) an excitation pattern of the scanning electromagnet of said preliminary irradiation is the same as an excitation pattern of the scanning electromagnet of a main irradiation plan for actual irradiation of the subject, andwherein the correction data is created on a basis of the target irradiation position coordinates and the measurement position coordinates measured by the position monitor in said preliminary irradiation. 2. The particle beam therapy system according to claim 1, wherein, the irradiation management apparatus includes (i) a correction data creator that creates the correction data in said preliminary irradiation and (ii) a scanning electromagnet command value creator that creates a basic control input from the measurement position coordinates, wherein the command value creator outputs, as the control input, a corrected control input obtained by correcting the basic control input, created by the scanning electromagnet command value creator, with the correction data created by the correction data creator. 3. The particle beam therapy system according to claim 2, wherein the correction data is created based on a value obtained by dividing by a coefficient K the difference ΔBL between the value BL(me) of a BL product of the scanning electromagnet calculated from the measurement position coordinates measured in the preliminary irradiation and the value BL(ex) of a BL product of the scanning electromagnet calculated from the target irradiation position coordinates; and the coefficient K is a gradient of a tangential line at a point, at which the value of the BL product is BL(ex), on the center line of the hysteresis loop configured with the BL product and the current of the scanning electromagnet. 4. The particle beam therapy system according to claim 3, wherein the irradiation management apparatus has a determination device that determines whether or not the position difference between the measurement position coordinates and the target irradiation position coordinates falls within a predetermined tolerance range; in the case where the position difference does not fall within the predetermined range, the irradiation management apparatus creates the correction data; and in the case where the position difference falls within the predetermined range, the irradiation management apparatus sets the control input to the scanning electromagnet to a value the same as a value in the preliminary irradiation. 5. The particle beam therapy system according to claim 2, wherein the irradiation management apparatus has a determination device that determines whether or not the position difference between the measurement position coordinates and the target irradiation position coordinates falls within a predetermined tolerance range; in the case where the position difference does not fall within the predetermined range, the irradiation management apparatus creates the correction data; and in the case where the position difference falls within the predetermined range, the irradiation management apparatus sets the control input to the scanning electromagnet to a value the same as a value in the preliminary irradiation. 6. The particle beam therapy system according to claim 1, wherein the correction data is created based on a value obtained by dividing by a coefficient K the difference ΔBL between the value BL(me) of a BL product of the scanning electromagnet calculated from the measurement position coordinates measured in the preliminary irradiation and the value BL(ex) of a BL product of the scanning electromagnet calculated from the target irradiation position coordinates; and the coefficient K is a gradient of a tangential line at a point, at which the value of the BL product is BL(ex), on the center line of the hysteresis loop configured with the BL product and the current of the scanning electromagnet. 7. The particle beam therapy system according to claim 6, wherein the irradiation management apparatus has a determination device that determines whether or not the position difference between the measurement position coordinates and the target irradiation position coordinates falls within a predetermined tolerance range; in the case where the position difference does not fall within the predetermined range, the irradiation management apparatus creates the correction data; and in the case where the position difference falls within the predetermined range, the irradiation management apparatus sets the control input to the scanning electromagnet to a value the same as a value in the preliminary irradiation. 8. The particle beam therapy system according to claim 1, wherein the irradiation management apparatus has a determination device that determines whether or not the position difference between the measurement position coordinates and the target irradiation position coordinates falls within a predetermined tolerance range; in the case where the position difference does not fall within the predetermined range, the irradiation management apparatus creates the correction data; and in the case where the position difference falls within the predetermined range, the irradiation management apparatus sets the control input to the scanning electromagnet to a value the same as a value in the preliminary irradiation. 9. An irradiation method for irradiating a charged particle beam onto an irradiation subject, the method comprising: creating irradiation setting data, said setting data including at least target irradiation position coordinates and dosage amounts;outputting a control input to a scanning electromagnet performing a preliminary irradiation according to said setting data, wherein (i) said preliminary irradiation is performed prior to performing an actual irradiation on a subject and (ii) a scanning-electromagnet excitation pattern of the preliminary irradiation is the same as a scanning-electromagnet excitation pattern of actual irradiation;recording, in said preliminary irradiation, measurement data including at least measurement position coordinates;creating correction data based on the target irradiation position coordinates and the measurement position coordinates measured in said preliminary irradiation; andcorrecting the control input to the scanning electromagnet based on the correction data created in preliminary irradiation to create a corrected control input for actual irradiation on a subject.
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