IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0774085
(2007-07-06)
|
등록번호 |
US-7692168
(2010-05-20)
|
우선권정보 |
JP-2006-187352(2006-07-07) |
발명자
/ 주소 |
- Moriyama, Kunio
- Ouchi, Noriaki
- Tadokoro, Masahiro
- Fujimaki, Hisataka
|
출원인 / 주소 |
- Hitachi, Ltd.
- Hitachi Information & Control Solutions, Ltd.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
122 인용 특허 :
5 |
초록
▼
The present invention improves the accuracy of therapy by checking in real time whether an spread-out Bragg peak (SOBP) width agrees with a desired width during irradiation with a beam. The device for outputting a charged particle beam includes a charged particle beam generator 1 including a synchro
The present invention improves the accuracy of therapy by checking in real time whether an spread-out Bragg peak (SOBP) width agrees with a desired width during irradiation with a beam. The device for outputting a charged particle beam includes a charged particle beam generator 1 including a synchrotron 4; a range modulation device such as a range modulation wheel (RMW) 28 which forms a Bragg peak of an ion beam extracted from this charged particle beam generator 1; an irradiation device 16 which is located in the direction of ion beam propagation of this RMW device 28 and includes a dose monitor 31 for detecting a dose of the ion beam; and an SOBP width calculation device 73 which calculates ion beam Bragg peak formed by the RMW device 28 based on a detection value of the dose monitor 31.
대표청구항
▼
What is claimed is: 1. A device for outputting a charged particle beam to irradiate the charged particle beam on a target, the device comprising: a charged particle beam generator which generates the charged particle beam; an irradiation device which includes a range modulation device having a thic
What is claimed is: 1. A device for outputting a charged particle beam to irradiate the charged particle beam on a target, the device comprising: a charged particle beam generator which generates the charged particle beam; an irradiation device which includes a range modulation device having a thickness varying in a direction of propagation of the charged particle beam outputted from the charged particle beam generator to change the energy of the passing charged particle beam so that a spread-out Bragg peak is formed in the target to be irradiated, and which outputs the charged particle beam which passed the range modulation device to the target to be irradiated; a dose measurement device which measures the dose of the charged particle beam at a position downstream of the range modulation device in the direction of charged particle beam propagation; and a spread-out Bragg peak calculation device which calculates a spread-out Bragg peak based on the dose value measured by the dose measurement device. 2. The device for outputting a charged particle beam according to claim 1, the device comprising: a spread-out Bragg peak calculation device which performs the dose-based calculation of spread-out Bragg peak based on an output ON/OFF time obtained from the dose value. 3. The device for outputting a charged particle beam according to claim 1, wherein the range modulation device has a thickness that varies in a rotational direction of the range modulation device to change the energy of the passing charged particle beam. 4. The device for outputting a charged particle beam according to claim 3, the device comprising: a control unit which controls the start and stop of extraction of the charged particle beam from the charged particle beam generator during rotation of the range modulation device. 5. The device for outputting a charged particle beam according to claim 4, the device comprising: the control unit which controls the start and stop of extracting of the charged particle beam based on a rotational angle of the range modulation device. 6. The device for outputting a charged particle beam according to claim 1, the device comprising: a display device which displays the spread-out Bragg peak. 7. A device for outputting a charged particle beam to irradiate the charged particle beam on a target, the device comprising: a charged particle beam generator which generates the charged particle beam; an irradiation device which includes a range modulation device having a thickness varying in a direction of propagation of the charged particle beam to change the energy of the passing charged particle beam so as to form a spread-out Bragg peak in the target to be irradiated, and outputs the charged particle beam which passed the range modulation device to the target to be irradiated; a dose measurement device located downstream of the range modulation device in the direction of charged particle beam propagation; and a spread-out Bragg peak judgment device which calculates a spread-out Bragg peak based on a dose measured by the dose measurement device, and determines whether the calculated spread-out Bragg peak agrees with a set width. 8. The device for outputting a charged particle beam according to claim 7, the device comprising: a first control unit which controls the charged particle beam generator so that extraction of the charged particle beam is stopped if the calculated spread-out Bragg peak does not agree with the set width. 9. The device for outputting a charged particle beam according to claim 7, the device comprising: a display device which displays the calculated spread-out Bragg peak. 10. The device for outputting a charged particle beam according to claim 7, the device comprising: the spread-out Bragg peak calculation device which performs the dose-based calculation of spread-out Bragg peak based on an output ON/OFF time obtained from the dose value. 11. The device for outputting a charged particle beam according to claim 7, wherein the range modulation device has a thickness that varies in a rotational direction of the range modulation device to change the energy of the passing charged particle beam. 12. The device for outputting a charged particle beam according to claim 11, the device comprising: a second control unit which controls the start and stop of extraction of the charged particle beam from the charged particle beam generator during rotation of the range modulation device. 13. The device for outputting a charged particle beam according to claim 12, the device comprising: the second control unit which controls the start and stop of extraction of the charged particle beam based on a rotational angle of the range modulation device. 14. The device for outputting a charged particle beam according to claim 11, wherein the range modulation device includes a plurality of blades whose thickness varies in the rotational direction to change the energy of the charged particle beam. 15. The device for outputting a charged particle beam according to claim 1, wherein the charged particle beam generator includes either a synchrotron or a cyclotron. 16. The device for outputting a charged particle beam according to claim 8, the device comprising: the charged particle beam generator including a synchrotron having an RF knockout electrode; and the first control unit which stops application of RF power to the RF knockout electrode to stop extraction of the charged particle beam from the synchrotron if the calculated spread-out Bragg peak does not agree with the set width. 17. The device for outputting a charged particle beam according to claim 16, wherein the range modulation device has a thickness that varies in the rotational direction of the range modulation device to change the energy of the passing charged particle beam; and a second control unit which controls the start and stop of extraction of the charged particle beam from the synchrotron during rotation of the range modulation device, wherein the second control unit controls the start and stop of extraction of the charged particle beam by controlling the start and stop of RF power supply to the RF knockout electrode. 18. The device for outputting a charged particle beam according to claim 8, the device comprising: the charged particle beam generator including a cyclotron and an ion source which inputs the charged particle beam to the cyclotron; and the first control unit which stops power supply to the ion source to stop extraction of the charged particle beam from the cyclotron if the calculated spread-out Bragg peak does not agree with the set width. 19. The device for outputting a charged particle beam according to claim 8, the device comprising: the charged particle beam generator including a cyclotron and an ion source which inputs the charged particle beam to the cyclotron; an energy changer which changes the energy of the charged particle beam extracted from the cyclotron; and the first control unit which closes a shutter prepared in the energy changer to stop transport of the charged particle beam to the irradiation device if the calculated spread-out Bragg peak does not agree with the set width. 20. A method for outputting a charged particle beam by use of a charged particle beam generator and an irradiation device including a range modulation device, the range modulation device having a thickness varying in a direction of propagation of the charged particle beam extracted from the charged particle beam generator to change the energy of the passing charged particle beam so that a spread-out Bragg peak is formed in the target to be irradiated, the method comprising the steps of: measuring a dose of the charged particle beam at a position downstream of the range modulation device in the direction of the propagation of the charged particle beam; and calculating the spread-out Bragg peak based on the dose. 21. The method for outputting a charged particle beam according to claim 20, wherein the dose-based calculation of spread-out Bragg peak is performed based on an output ON/OFF time obtained from the dose value. 22. The method for outputting a charged particle beam according to claim 20, wherein when the range modulation device has a thickness varying in a rotational direction of the range modulation device to change the energy of the passing charged particle beam, and is being rotated, extraction of the charged particle beam from the charged particle beam generator is started and stopped. 23. The method for outputting a charged particle beam according to claim 22, wherein extraction of the charged particle beam is started and stopped based on a rotational angle of the range modulation device. 24. A method for outputting a charged particle beam by use of a charged particle beam generator and an irradiation device including a range modulation device, the range modulation device having a thickness varying in a direction of propagation of the charged particle beam extracted from the charged particle beam generator to change the energy of the passing charged particle beam so that a spread-out Bragg peak is formed in the target to be irradiated, the method comprising the steps of: measuring a dose of the charged particle beam at a position downstream of the range modulation device in the direction of the propagation of the charged particle beam; and calculating the spread-out Bragg peak based on the dose and determine whether the calculated spread-out Bragg peak agrees with a set width. 25. The method for outputting a charged particle beam according to claim 24, wherein extraction of the charged particle beam is stopped if the calculated spread-out Bragg peak does not agree with the width setting. 26. The method for outputting a charged particle beam according to claim 24, wherein the calculated spread-out Bragg peak is displayed on a display device. 27. The method for outputting a charged particle beam according to claim 24, wherein the dose-based calculation of spread-out Bragg peak is performed based on a dose rate per unit time of a value of the dose. 28. The method for outputting a charged particle beam according to claim 24, wherein when the range modulation device has a thickness that varies in the rotational direction to change the energy of the passing charged particle beam, and is being rotated, extraction of the charged particle beam from the charged particle beam generator is started and stopped. 29. The method for outputting a charged particle beam according to claim 28, wherein extraction of the charged particle beam is started and stopped based on a rotational angle of the range modulation device. 30. A device for outputting a charged particle beam to irradiate the charged particle beam on a target, the device comprising: a charged particle beam generator which generates the charged particle beam; an irradiation device having a range modulation device which outputs the charged particle beam, which has passed through the range modulation device, to the target to be irradiated; a time calculation device which calculates a time when the charged particle beam passes the range modulation wheel; and a spread-out Bragg peak calculation device which calculates a spread-out Bragg peak width based on the time when the charged particle beam passes the range modulation device calculated by the time calculation device. 31. The device for outputting a charged particle beam according to claim 30, wherein the time calculation device includes a dose measurement device which measures a dose value of the charged particle beam at a position downstream of the range modulation device in a direction of charged particle beam propagation, and wherein the time when the charged particle beam passes the range modulation device is calculated based on the dose value measured by the dose measurement device. 32. The device for outputting a charged particle beam according to claim 30, wherein the spread-out Bragg peak calculation device calculates the spread-out Bragg peak width based on a duty cycle according to the following formula: duty cycle=TON/(TON+TOFF) wherein TON represents the time when the charged particle beam passes the range modulation device calculated by the time calculation device, and TOFF represents the time when the charged particle beam does not pass the range modulation device. 33. The device of claim 30, wherein the range modulation device has a thickness varying in a direction of propagation of the charged particle beam outputted from the charged particle beam generator to change the energy of the passing charged particle beam so that the spread-out Bragg peak is formed in the target to be irradiated. 34. A method for outputting a charged particle beam by use of a charged particle beam generator and an irradiation device including a range modulation device, the method comprising the steps of: calculating a time when the charged particle beam passes the range modulation device; and calculating a spread-out Bragg peak width based on the time when the charged particle beam passes the beam energy moderator. 35. The method for outputting a charged particle beam according to claim 34, wherein the time when the charged particle beam passes the range modulation device is calculated based on a dose value of the charged particle beam measured at a position downstream of the range modulation device in a direction of charged particle beam propagation. 36. The method for outputting a charged particle beam according to claim 34, wherein the spread-out Bragg peak width is calculated by a duty cycle according to the following formula: duty cycle=TON/(TON+TOFF) wherein TON represents the time when the charged particle beam passes the range modulation device calculated by the time calculation device, and TOFF represents the time when the charged particle beam does not pass the range modulation device. 37. The method according to claim 34, wherein the range modulation device has a thickness varying in a direction of propagation of the charged particle beam extracted from the charged particle beam generator to change the energy of the passing charged particle beam so that a spread-out Bragg peak is formed in the target to be irradiated. 38. The method according to claim 34, further comprising the steps of: comparing the calculated spread-out Bragg peak with a preset spread-out Bragg peak that is previously determined for the target; and determining, based upon the result of the comparing step, whether or not the calculated spread-out Bragg peak is appropriate for the target. 39. The method according to claim 34, further comprising the steps of: comparing the calculated spread-out Bragg peak with a preset spread-out Bragg peak that is previously determined for the target; and outputting the result of comparing step so that it can be determined whether or not the calculated spread-out Bragg peak is appropriate for the target.
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