Li Xia,Ma Yongzhong,Wang Shijin.Estimating and analysis of personnel doses from activated nuclides in radiotherapy place of a proton accelerator[J].Chinese Journal of Radiological Medicine and Protection,2016,36(8):630-633
Estimating and analysis of personnel doses from activated nuclides in radiotherapy place of a proton accelerator
Received:March 15, 2016  
DOI:10.3760/cma.j.issn.0254-5098.2016.08.015
KeyWords:Proton acceterator  Radiotherapy  Activation nuclides  Radioactive activity concentration  Doses estimation
FundProject:
Author NameAffiliationE-mail
Li Xia China Institute of Atomic Energy, Beijing 102413, China  
Ma Yongzhong Beijing Center for Disease Control and Prevention, Beijing 100013, China myz0905@126.com 
Wang Shijin Beijing Center for Disease Control and Prevention, Beijing 100013, China  
Hits: 3122
Download times: 2533
Abstract::
      Objective To ascertain the dose levels to personnel from the activation products in the radiotherapy place of a proton acceterator and to provide technical basis for protection design of the treatment place and the personnel's radiation protection. Methods A PROTEUS 235 proton therapy system was analyzed for the potentials to produce activated nuclides in the air during its operation. The concentrations of the main radionuclides and the resultant personnel doses were estimated. Results The activity concentrations of activated nuclides were 15O 4.1×10-2, 13N 3.3×10-2,41Ar 6.2×10-3 and 11C 2.0×10-2 Bq\5cm-3, respectively, in proton accelerator hall, whereas those in the proton beam radiotherapy room were only about 5% of the corresponding values in the proton accelerator hall. The annual doses to the radiation workers from immersion external exposure due to air activation were less than 1 and 0.1 mSv, respectively, when entering the proton accelerator hall 5 and 30 min after beam stopping; whereas those were 1.3-2.0, 0.7-1.2 and 0.3-0.6 mSv, respectively, when entering the therapy hall 0, 5 and 15 min after beam stopping. Conclusions The personnel doses received from activated nuclides in the air in the radiotherapy place of a proton acceterator are unignorable. The contribution to doses from immersed external exposure of 15O, 13N, 41Ar and 11C should be taken into full considerations, with necessary protection measures needed.
HTML  View Full Text  View/Add Comment  Download reader
Close

Copyright©    Editorial Office of Chinese Journal of Radiological Medicine and Protection    

Beijing ICP No. 05020547 -2

Address: 2 Xinkang Street, Dewai, Beijing 100088, China

Telephone:010-62389620; Email:cjrmp@cjrmp.sina.net

Technical Support:Beijing E-tiller CO.,LTD.

Visitors:9073396  On-line:0

v
Scan QR Code
&et=EC9A7F1C2771EE507F1A23C1E03ED82068A78AB6291958BE89DC22509E3F43BDBC5C8949C46470194F43C42F9361E9092A8CED91488370E0975197CE7C63E36B417B2E6FCC67A7A149735DDC843A5063F6AFBDB9E1587FB7631C4BB607223CDE663B17ABDCF2795B530AE9E586119098F3BCCAEAF7507130&pcid=A9DB1C13C87CE289EA38239A9433C9DC&cid=D4D466D60FDC1A5A&jid=5E4353813E091AB841B02B880782B82C&yid=9F915C6F01DE79C5&aid=B25A86971E857B04BB50DB22F6EBA863&vid=&iid=5D311CA918CA9A03&sid=039DCCB9394D9766&eid=06F643376BC2509E&fileno=20160815&flag=1&is_more=0"> var my_pcid="A9DB1C13C87CE289EA38239A9433C9DC"; var my_cid="D4D466D60FDC1A5A"; var my_jid="5E4353813E091AB841B02B880782B82C"; var my_yid="9F915C6F01DE79C5"; var my_aid="B25A86971E857B04BB50DB22F6EBA863";