陽子線治療向け超電導加速器の技術動向
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| Published in | 低温工学 Vol. 60; no. 3; pp. 60 - 67 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | Japanese |
| Published |
公益社団法人 低温工学・超電導学会 (旧 社団法人 低温工学協会)
20.05.2025
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0389-2441 1880-0408 |
| DOI | 10.2221/jcsj.60.60 |
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| Author | 江原, 悠太 筒井, 裕士 |
|---|---|
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| EndPage | 67 |
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| References | 26)H. Tsutsui, et al.: “Design study of a superconducting AVF cyclotron for proton therapy,” proc. CYC2013 (2013 7)S. Kojima and M. Hata: “Laser-driven ion accelerator,” in “Advances in Accelerators and Medical Physics,” Academic Press, (2023), pp.343-352 27)J. Yoshida, et al.: “Excitation test of superconducting magnet in 230-MeV isochronous cyclotron for proton therapy,” IEEE Transactions on Applied Superconductivity 30 (2019) 1-5 34)Leo Cancer Care: https://leocancercare.com/(Accessed 2025-1-31 28)Y. Ebara, et al.: “Field mapping system and field adjustment for a 230-MeV proton cyclotron,” Nuclear Instruments and Methods in Physics Research Section A 953 (2020) 163186 10)Y. Ebara, et al.: “First beam extraction from a superconducting azimuthally varying field cyclotron for proton therapy,” Nuclear Instruments and Methods in Physics Research Section A 1056 (2023) 168629 18)V. P. Derenchuk: “Application of Superconducting Technology for Proton Therapy,” Presented at NAPAC 2016 (Chicago, IL, USA 21)H. G. Blosser, et al.: “Proposal for a manufacturing prototype superconducting cyclotron for advanced cancer therapy,” MSUCL-874, Michigan State University (1993 32)B dot Medical: https://bdotmed.co.jp/(Accessed 2025-1-31 15)J. E. Jedediah, et al.: “Optimization of motion management parameters in a synchrotron-based spot scanning system,” Journal of Applied Clinical Medical Physics 20 (2019) 9 17)J. V. Minervini, et al.: “Compact, Low-Cost, Light-Weight, Superconducting, Ironless Cyclotrons for Hadron Radiotherapy,” Massachusetts Inst. of Technology, (2019 1)R. R. Wilson: “Radiological use of fast protons,” Radiology 47 (1946) 487-491 24)C. Wang, et al.: “The Commissioning of a 230 MeV Superconducting Cyclotron CYCIAE-230,” proc. CYC2022(2023 14)M. Umezawa, et al.: “Development of compact proton beam therapy system for moving organs,” Hitachi Review 64506 (2015 31)L. Brouwer, et al.: “Design of an achromatic superconducting magnet for a proton therapy gantry,” IEEE Transactions on Applied Superconductivity 27 (2016) 1-6 25)Y. Ebara, et al.: “Performance of cryogen-free superconducting magnet in isochronous cyclotron for proton therapy,” IEEE Transactions on Applied Superconductivity 33 (2023) 1-4 16)Hefei CIM-A: http://www.hfcim.com/ (Accessed 2025-1-31 筒井裕士ら:「粒子加速器のIEC規格化についての最近の動向」 35)P-Cure: https://www.p-cure.com/(Accessed 2025-01-31 20)T. A. Antaya: “Isochronous cyclotron with superconducting flutter coils and non-magnetic reinforcement,” U.S. Patent No. 9, 895, 552 (2018-02-20 11)F. Jiang, et al.: “Design study of a compact superconducting cyclotron SC240 for proton therapy,” proc. IPAC19 (2019 13)W. Kleeven, et al.: “The IBA superconducting synchrocyclotron project S2C2,” proc. CYC2013 (2013 19)H. Ueda, et al.: “Conceptual design of next generation HTS cyclotron,” IEEE Transactions on Applied Superconductivity 23 (2012) 4100205 22)T. A. Antaya: “High-field superconducting synchrocyclotron,” U.S. Patent. No. 7, 541, 905 (2009-1-2 30)J. Saini, et al.: “Commissioning a clinical proton pencil beam scanning beamline for pre-clinical ultra-high dose rate irradiations on a cyclotron-based system,” Frontiers in Oncology 14 (2024 36)H. Tsutsui, et al.,” Recent trends in IEC standardization of particle accelerators,” submitted. (in Japanese 3)Particle Therapy Co-Operative Group, https://www.ptcog.ch (Accessed 2025-1-31 33)L. Bottura, et al.: “Magnetic design of a compact GaToroid for very high energy electron and pre-clinical hadron beams,” IEEE Transactions on Applied Superconductivity 34.5 (2024) 1-5 5)A. Goto, T. Tachikawa, Y. Jongen, M. Schillo: “Comprehensive Biomedical Physics 8.12 Cyclotrons,” Elsevier, (2014) 179–195 23)G. Karamysheva, et al.: “Compact superconducting cyclotron SC200 for proton therapy,” proc. CYC2016 (2016 6)A. Degiovanni, et al.: “Design, integration, and commissioning of the first linac for image-guided hadron therapy prototype,” Physical Review Accelerators and Beams 27 (2024) 054701 4)J. M. Slater, et al: “The proton treatment center at Loma Linda University Medical Center: rationale for and description of its development,” International Journal of Radiation Oncology* Biology* Physics 22.2 (1992): 383-389 9)H. U. Klein, et al.: “Design, manufacturing and commissioning of compact superconducting 250 MeV cyclotrons for proton therapy: A short report from the field,” IEEE/CSC & ESAS European Superconductivity News Forum 2 (2007 12)Mevion Medical Systems: https://www.mevion.com (Accessed 2025-1-31 29)S. Jolly, et al.: “Technical challenges for FLASH proton therapy,” Physica Medica 78 (2020) 71-82 2)C. A. Tobias, et al.: “Pituitary irradiation with high-energy proton beams: A preliminary report,” Cancer Research 18 (1958) 121-134 8)T. Aoki, et al.: “Concept of frequency modulated variable-energy accelerator,” (2017 |
| References_xml | – reference: 34)Leo Cancer Care: https://leocancercare.com/(Accessed 2025-1-31) – reference: 8)T. Aoki, et al.: “Concept of frequency modulated variable-energy accelerator,” (2017) – reference: 5)A. Goto, T. Tachikawa, Y. Jongen, M. Schillo: “Comprehensive Biomedical Physics 8.12 Cyclotrons,” Elsevier, (2014) 179–195 – reference: 29)S. Jolly, et al.: “Technical challenges for FLASH proton therapy,” Physica Medica 78 (2020) 71-82 – reference: 11)F. Jiang, et al.: “Design study of a compact superconducting cyclotron SC240 for proton therapy,” proc. IPAC19 (2019) – reference: 17)J. V. Minervini, et al.: “Compact, Low-Cost, Light-Weight, Superconducting, Ironless Cyclotrons for Hadron Radiotherapy,” Massachusetts Inst. of Technology, (2019) – reference: 16)Hefei CIM-A: http://www.hfcim.com/ (Accessed 2025-1-31) – reference: 4)J. M. Slater, et al: “The proton treatment center at Loma Linda University Medical Center: rationale for and description of its development,” International Journal of Radiation Oncology* Biology* Physics 22.2 (1992): 383-389 – reference: 1)R. R. Wilson: “Radiological use of fast protons,” Radiology 47 (1946) 487-491 – reference: 19)H. Ueda, et al.: “Conceptual design of next generation HTS cyclotron,” IEEE Transactions on Applied Superconductivity 23 (2012) 4100205 – reference: 14)M. Umezawa, et al.: “Development of compact proton beam therapy system for moving organs,” Hitachi Review 64506 (2015) – reference: 33)L. Bottura, et al.: “Magnetic design of a compact GaToroid for very high energy electron and pre-clinical hadron beams,” IEEE Transactions on Applied Superconductivity 34.5 (2024) 1-5 – reference: 3)Particle Therapy Co-Operative Group, https://www.ptcog.ch (Accessed 2025-1-31) – reference: 7)S. Kojima and M. Hata: “Laser-driven ion accelerator,” in “Advances in Accelerators and Medical Physics,” Academic Press, (2023), pp.343-352 – reference: 32)B dot Medical: https://bdotmed.co.jp/(Accessed 2025-1-31) – reference: 18)V. P. Derenchuk: “Application of Superconducting Technology for Proton Therapy,” Presented at NAPAC 2016 (Chicago, IL, USA) – reference: 22)T. A. Antaya: “High-field superconducting synchrocyclotron,” U.S. Patent. No. 7, 541, 905 (2009-1-2) – reference: 25)Y. Ebara, et al.: “Performance of cryogen-free superconducting magnet in isochronous cyclotron for proton therapy,” IEEE Transactions on Applied Superconductivity 33 (2023) 1-4 – reference: 21)H. G. Blosser, et al.: “Proposal for a manufacturing prototype superconducting cyclotron for advanced cancer therapy,” MSUCL-874, Michigan State University (1993) – reference: 15)J. E. Jedediah, et al.: “Optimization of motion management parameters in a synchrotron-based spot scanning system,” Journal of Applied Clinical Medical Physics 20 (2019) 9 – reference: 23)G. Karamysheva, et al.: “Compact superconducting cyclotron SC200 for proton therapy,” proc. CYC2016 (2016) – reference: 10)Y. Ebara, et al.: “First beam extraction from a superconducting azimuthally varying field cyclotron for proton therapy,” Nuclear Instruments and Methods in Physics Research Section A 1056 (2023) 168629 – reference: 35)P-Cure: https://www.p-cure.com/(Accessed 2025-01-31) – reference: 31)L. Brouwer, et al.: “Design of an achromatic superconducting magnet for a proton therapy gantry,” IEEE Transactions on Applied Superconductivity 27 (2016) 1-6 – reference: 36)H. Tsutsui, et al.,” Recent trends in IEC standardization of particle accelerators,” submitted. (in Japanese) – reference: 12)Mevion Medical Systems: https://www.mevion.com (Accessed 2025-1-31) – reference: 9)H. U. Klein, et al.: “Design, manufacturing and commissioning of compact superconducting 250 MeV cyclotrons for proton therapy: A short report from the field,” IEEE/CSC & ESAS European Superconductivity News Forum 2 (2007) – reference: 26)H. Tsutsui, et al.: “Design study of a superconducting AVF cyclotron for proton therapy,” proc. CYC2013 (2013) – reference: 28)Y. Ebara, et al.: “Field mapping system and field adjustment for a 230-MeV proton cyclotron,” Nuclear Instruments and Methods in Physics Research Section A 953 (2020) 163186 – reference: 20)T. A. Antaya: “Isochronous cyclotron with superconducting flutter coils and non-magnetic reinforcement,” U.S. Patent No. 9, 895, 552 (2018-02-20) – reference: 24)C. Wang, et al.: “The Commissioning of a 230 MeV Superconducting Cyclotron CYCIAE-230,” proc. CYC2022(2023) – reference: 27)J. Yoshida, et al.: “Excitation test of superconducting magnet in 230-MeV isochronous cyclotron for proton therapy,” IEEE Transactions on Applied Superconductivity 30 (2019) 1-5 – reference: 30)J. Saini, et al.: “Commissioning a clinical proton pencil beam scanning beamline for pre-clinical ultra-high dose rate irradiations on a cyclotron-based system,” Frontiers in Oncology 14 (2024) – reference: 2)C. A. Tobias, et al.: “Pituitary irradiation with high-energy proton beams: A preliminary report,” Cancer Research 18 (1958) 121-134 – reference: 筒井裕士ら:「粒子加速器のIEC規格化についての最近の動向」 – reference: 6)A. Degiovanni, et al.: “Design, integration, and commissioning of the first linac for image-guided hadron therapy prototype,” Physical Review Accelerators and Beams 27 (2024) 054701 – reference: 13)W. Kleeven, et al.: “The IBA superconducting synchrocyclotron project S2C2,” proc. CYC2013 (2013) |
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| Title | 陽子線治療向け超電導加速器の技術動向 |
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