Nationwide survey on the operational status of electron accelerators for radiation therapy in Japan
A nationwide survey was conducted on electron accelerators for radiation therapy in Japan for obtaining fundamental data on the actual operational situation of these accelerators. The research subjects were all medical institutions equipped with electron accelerators for radiation therapy (874 accel...
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| Published in | Radiological physics and technology Vol. 3; no. 2; pp. 98 - 103 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Japan
Springer Japan
01.07.2010
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1865-0333 1865-0341 1865-0341 |
| DOI | 10.1007/s12194-010-0083-0 |
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| Abstract | A nationwide survey was conducted on electron accelerators for radiation therapy in Japan for obtaining fundamental data on the actual operational situation of these accelerators. The research subjects were all medical institutions equipped with electron accelerators for radiation therapy (874 accelerators) in Japan. Postcards explaining the purpose and procedure of the survey were sent to each institution. Each institution was requested to download a questionnaire from the website and return it by e-mail. We obtained the following results. Energy: about 90% of the accelerators did not exceed 10 MeV as the permitted maximum energy. Beam intensity: a total of 94% of the accelerators did not exceed 4 Gy/min as the mean exposure dose rate. Beam time: a total of 74% of the accelerators were below half of the permitted maximum beam time. However, 2% of the accelerators exceeded 90% of the permitted maximum time. Cumulative dose: about 10% of institutions obtained permission not to use the maximum beam time, but to use the maximum cumulative dose to secure sufficient beam time. From these results, it became clear that the induced radioactivity based on the maximum beam current and the maximum operating time under an official permit would be overestimated. Therefore, the neutron dose should be assessed by use of a daily operational record, not from an official permit. |
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| AbstractList | A nationwide survey was conducted on electron accelerators for radiation therapy in Japan for obtaining fundamental data on the actual operational situation of these accelerators. The research subjects were all medical institutions equipped with electron accelerators for radiation therapy (874 accelerators) in Japan. Postcards explaining the purpose and procedure of the survey were sent to each institution. Each institution was requested to download a questionnaire from the website and return it by e-mail. We obtained the following results. Energy: about 90% of the accelerators did not exceed 10 MeV as the permitted maximum energy. Beam intensity: a total of 94% of the accelerators did not exceed 4 Gy/min as the mean exposure dose rate. Beam time: a total of 74% of the accelerators were below half of the permitted maximum beam time. However, 2% of the accelerators exceeded 90% of the permitted maximum time. Cumulative dose: about 10% of institutions obtained permission not to use the maximum beam time, but to use the maximum cumulative dose to secure sufficient beam time. From these results, it became clear that the induced radioactivity based on the maximum beam current and the maximum operating time under an official permit would be overestimated. Therefore, the neutron dose should be assessed by use of a daily operational record, not from an official permit.A nationwide survey was conducted on electron accelerators for radiation therapy in Japan for obtaining fundamental data on the actual operational situation of these accelerators. The research subjects were all medical institutions equipped with electron accelerators for radiation therapy (874 accelerators) in Japan. Postcards explaining the purpose and procedure of the survey were sent to each institution. Each institution was requested to download a questionnaire from the website and return it by e-mail. We obtained the following results. Energy: about 90% of the accelerators did not exceed 10 MeV as the permitted maximum energy. Beam intensity: a total of 94% of the accelerators did not exceed 4 Gy/min as the mean exposure dose rate. Beam time: a total of 74% of the accelerators were below half of the permitted maximum beam time. However, 2% of the accelerators exceeded 90% of the permitted maximum time. Cumulative dose: about 10% of institutions obtained permission not to use the maximum beam time, but to use the maximum cumulative dose to secure sufficient beam time. From these results, it became clear that the induced radioactivity based on the maximum beam current and the maximum operating time under an official permit would be overestimated. Therefore, the neutron dose should be assessed by use of a daily operational record, not from an official permit. A nationwide survey was conducted on electron accelerators for radiation therapy in Japan for obtaining fundamental data on the actual operational situation of these accelerators. The research subjects were all medical institutions equipped with electron accelerators for radiation therapy (874 accelerators) in Japan. Postcards explaining the purpose and procedure of the survey were sent to each institution. Each institution was requested to download a questionnaire from the website and return it by e-mail. We obtained the following results. Energy: about 90% of the accelerators did not exceed 10 MeV as the permitted maximum energy. Beam intensity: a total of 94% of the accelerators did not exceed 4 Gy/min as the mean exposure dose rate. Beam time: a total of 74% of the accelerators were below half of the permitted maximum beam time. However, 2% of the accelerators exceeded 90% of the permitted maximum time. Cumulative dose: about 10% of institutions obtained permission not to use the maximum beam time, but to use the maximum cumulative dose to secure sufficient beam time. From these results, it became clear that the induced radioactivity based on the maximum beam current and the maximum operating time under an official permit would be overestimated. Therefore, the neutron dose should be assessed by use of a daily operational record, not from an official permit. A nationwide survey was conducted on electron accelerators for radiation therapy in Japan for obtaining fundamental data on the actual operational situation of these accelerators. The research subjects were all medical institutions equipped with electron accelerators for radiation therapy (874 accelerators) in Japan. Postcards explaining the purpose and procedure of the survey were sent to each institution. Each institution was requested to download a questionnaire from the website and return it by e-mail. We obtained the following results. Energy: about 90% of the accelerators did not exceed 10 MeV as the permitted maximum energy. Beam intensity: a total of 94% of the accelerators did not exceed 4 Gy/min as the mean exposure dose rate. Beam time: a total of 74% of the accelerators were below half of the permitted maximum beam time. However, 2% of the accelerators exceeded 90% of the permitted maximum time. Cumulative dose: about 10% of institutions obtained permission not to use the maximum beam time, but to use the maximum cumulative dose to secure sufficient beam time. From these results, it became clear that the induced radioactivity based on the maximum beam current and the maximum operating time under an official permit would be overestimated. Therefore, the neutron dose should be assessed by use of a daily operational record, not from an official permit. |
| Author | Fujibuchi, Toshioh Tanaka, Shinji Yamaguchi, Ichiro Nagaoka, Hiroaki Watanabe, Hiroshi Kida, Tetsuo |
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| Keywords | Induced radioactivity Radiation safety Electron accelerators for radiation therapy Regulatory science |
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| References | AhlgrenLOlssonLEInduced activity in a high-energy linear acceleratorPhys Med Biol198833351410.1088/0031-9155/33/3/0041:STN:280:DyaL1c3gtlyqsA%3D%3D3362973 ChibaniOMaCMPhotonuclear dose calculations for high-energy photon beams from Siemens and Varian linacsMed Phys2003301990200010.1118/1.159043612945965 KimHSParkYHKooBCKwonJWLeeJSChoiHSEvaluation of the photoneutron field produced in a medical linear acceleratorRadiat Prot Dosim2007123323810.1093/rpd/ncl1621:CAS:528:DC%2BD2sXnvVGitLY%3D The interim report of the MEXT radiation safety regulation committee. 2006 (in Japanese). RawlinsonJAIslamMKGalbraithDMDose to radiation therapists from activation at high-energy accelerators used for conventional and intensity-modulated radiation therapyMed Phys20022959860810.1118/1.14630631:CAS:528:DC%2BD38XisFymurs%3D11991132 OhishiKKosakoKKobayashiYSonokiINakamuraTConsideration to shielding design calculation of radiation oncology. Electron linac facility whose energy is greater than 10 MeVRadioisotopes2008572778610.3769/radioisotopes.57.277(in Japanese) IAEA Safety Reports Series No. 47. Radiation protection in the design of radiotherapy facilities. 2006. PowellNLNewingABullenMASimsCLeatonSFA radiation safety survey on a Clinac-20 linear acceleratorPhys Med Biol1987327071810.1088/0031-9155/32/6/0041:CAS:528:DyaL2sXksVOktrY%3D3615576 FalcãoRCFacureASilvaAXNeutron dose calculation at the maze entrance of medical linear accelerator roomsRadiat Prot Dosim2007123283710.1093/rpd/ncl144 FollowillDSStovallMSKrySFIbbottGSNeutron source strength measurements for Varian, Siemens, Elekta, and General Electric linear acceleratorsJ Appl Clin Med Phys200341899410.1120/1.157167112841788 PerrinBWalkerAMackayRA model to calculate the induced dose rate around an 18 MV ELEKTA linear acceleratorPhys Med Biol200348N758110.1088/0031-9155/48/5/40212696804 MEXT. About improper use of the radiation generator. (in Japanese). Available at: http://www.mext.go.jp/a_menu/anzenkakuho/news/trouble/1268641.htm (2006). Japan Radioisotope Association. Statistics on the use of radiation in Japan. Tokyo: Japan Radioisotope Association; 2008. p. 9. K Ohishi (83_CR10) 2008; 57 B Perrin (83_CR4) 2003; 48 83_CR12 83_CR13 83_CR9 NL Powell (83_CR7) 1987; 32 HS Kim (83_CR5) 2007; 123 O Chibani (83_CR3) 2003; 30 DS Followill (83_CR2) 2003; 4 83_CR1 L Ahlgren (83_CR8) 1988; 33 JA Rawlinson (83_CR11) 2002; 29 RC Falcão (83_CR6) 2007; 123 12696804 - Phys Med Biol. 2003 Mar 7;48(5):N75-81 17005540 - Radiat Prot Dosimetry. 2007;123(3):283-7 3362973 - Phys Med Biol. 1988 Mar;33(3):351-4 11991132 - Med Phys. 2002 Apr;29(4):598-608 12841788 - J Appl Clin Med Phys. 2003 Summer;4(3):189-94 3615576 - Phys Med Biol. 1987 Jun;32(6):707-18 12945965 - Med Phys. 2003 Aug;30(8):1990-2000 17077093 - Radiat Prot Dosimetry. 2007;123(3):323-8 |
| References_xml | – reference: KimHSParkYHKooBCKwonJWLeeJSChoiHSEvaluation of the photoneutron field produced in a medical linear acceleratorRadiat Prot Dosim2007123323810.1093/rpd/ncl1621:CAS:528:DC%2BD2sXnvVGitLY%3D – reference: MEXT. About improper use of the radiation generator. (in Japanese). Available at: http://www.mext.go.jp/a_menu/anzenkakuho/news/trouble/1268641.htm (2006). – reference: FollowillDSStovallMSKrySFIbbottGSNeutron source strength measurements for Varian, Siemens, Elekta, and General Electric linear acceleratorsJ Appl Clin Med Phys200341899410.1120/1.157167112841788 – reference: AhlgrenLOlssonLEInduced activity in a high-energy linear acceleratorPhys Med Biol198833351410.1088/0031-9155/33/3/0041:STN:280:DyaL1c3gtlyqsA%3D%3D3362973 – reference: The interim report of the MEXT radiation safety regulation committee. 2006 (in Japanese). – reference: Japan Radioisotope Association. Statistics on the use of radiation in Japan. Tokyo: Japan Radioisotope Association; 2008. p. 9. – reference: OhishiKKosakoKKobayashiYSonokiINakamuraTConsideration to shielding design calculation of radiation oncology. Electron linac facility whose energy is greater than 10 MeVRadioisotopes2008572778610.3769/radioisotopes.57.277(in Japanese) – reference: FalcãoRCFacureASilvaAXNeutron dose calculation at the maze entrance of medical linear accelerator roomsRadiat Prot Dosim2007123283710.1093/rpd/ncl144 – reference: ChibaniOMaCMPhotonuclear dose calculations for high-energy photon beams from Siemens and Varian linacsMed Phys2003301990200010.1118/1.159043612945965 – reference: IAEA Safety Reports Series No. 47. Radiation protection in the design of radiotherapy facilities. 2006. – reference: RawlinsonJAIslamMKGalbraithDMDose to radiation therapists from activation at high-energy accelerators used for conventional and intensity-modulated radiation therapyMed Phys20022959860810.1118/1.14630631:CAS:528:DC%2BD38XisFymurs%3D11991132 – reference: PerrinBWalkerAMackayRA model to calculate the induced dose rate around an 18 MV ELEKTA linear acceleratorPhys Med Biol200348N758110.1088/0031-9155/48/5/40212696804 – reference: PowellNLNewingABullenMASimsCLeatonSFA radiation safety survey on a Clinac-20 linear acceleratorPhys Med Biol1987327071810.1088/0031-9155/32/6/0041:CAS:528:DyaL2sXksVOktrY%3D3615576 – ident: 83_CR12 – ident: 83_CR13 – volume: 57 start-page: 277 year: 2008 ident: 83_CR10 publication-title: Radioisotopes doi: 10.3769/radioisotopes.57.277 – ident: 83_CR1 – ident: 83_CR9 – volume: 123 start-page: 283 year: 2007 ident: 83_CR6 publication-title: Radiat Prot Dosim doi: 10.1093/rpd/ncl144 – volume: 123 start-page: 323 year: 2007 ident: 83_CR5 publication-title: Radiat Prot Dosim doi: 10.1093/rpd/ncl162 – volume: 30 start-page: 1990 year: 2003 ident: 83_CR3 publication-title: Med Phys doi: 10.1118/1.1590436 – volume: 33 start-page: 351 year: 1988 ident: 83_CR8 publication-title: Phys Med Biol doi: 10.1088/0031-9155/33/3/004 – volume: 4 start-page: 189 year: 2003 ident: 83_CR2 publication-title: J Appl Clin Med Phys doi: 10.1120/1.1571671 – volume: 48 start-page: N75 year: 2003 ident: 83_CR4 publication-title: Phys Med Biol doi: 10.1088/0031-9155/48/5/402 – volume: 32 start-page: 707 year: 1987 ident: 83_CR7 publication-title: Phys Med Biol doi: 10.1088/0031-9155/32/6/004 – volume: 29 start-page: 598 year: 2002 ident: 83_CR11 publication-title: Med Phys doi: 10.1118/1.1463063 – reference: 11991132 - Med Phys. 2002 Apr;29(4):598-608 – reference: 12945965 - Med Phys. 2003 Aug;30(8):1990-2000 – reference: 3615576 - Phys Med Biol. 1987 Jun;32(6):707-18 – reference: 3362973 - Phys Med Biol. 1988 Mar;33(3):351-4 – reference: 17005540 - Radiat Prot Dosimetry. 2007;123(3):283-7 – reference: 12696804 - Phys Med Biol. 2003 Mar 7;48(5):N75-81 – reference: 17077093 - Radiat Prot Dosimetry. 2007;123(3):323-8 – reference: 12841788 - J Appl Clin Med Phys. 2003 Summer;4(3):189-94 |
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| Title | Nationwide survey on the operational status of electron accelerators for radiation therapy in Japan |
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