Butler D J, Ramanathan G, Oliver C, Cole A, Lye J, Harty P D, Wright T, Webb D V, Followill D S
Australian Radiation Protection and Nuclear Safety Agency, 619 Lower Plenty Road, Yallambie, VIC, 3085, Australia,
Australas Phys Eng Sci Med. 2014 Dec;37(4):753-61. doi: 10.1007/s13246-014-0293-6. Epub 2014 Aug 22.
The Australian Radiation Protection and Nuclear Safety Agency (ARPANSA) maintains the Australian primary standard of absorbed dose. Until recently, the standard was used to calibrate ionisation chambers only in (60)Co gamma rays. These chambers are then used by radiotherapy clinics to determine linac output, using a correction factor (k Q) to take into account the different spectra of (60)Co and the linac. Over the period 2010-2013, ARPANSA adapted the primary standard to work in megavoltage linac beams, and has developed a calibration service at three photon beams (6, 10 and 18 MV) from an Elekta Synergy linac. We describe the details of the new calibration service, the method validation and the use of the new calibration factors with the International Atomic Energy Agency's TRS-398 dosimetry Code of Practice. The expected changes in absorbed dose measurements in the clinic when shifting from (60)Co to the direct calibration are determined. For a Farmer chamber (model 2571), the measured chamber calibration coefficient is expected to be reduced by 0.4, 1.0 and 1.1 % respectively for these three beams when compared to the factor derived from (60)Co. These results are in overall agreement with international absorbed dose standards and calculations by Muir and Rogers in 2010 of k Q factors using Monte Carlo techniques. The reasons for and against moving to the new service are discussed in the light of the requirements of clinical dosimetry.
澳大利亚辐射防护与核安全局(ARPANSA)维护着澳大利亚吸收剂量的主要标准。直到最近,该标准仅用于校准钴 - 60(⁶⁰Co)γ射线中的电离室。然后放射治疗诊所使用这些电离室来确定直线加速器的输出,使用校正因子(kQ)来考虑钴 - 60和直线加速器不同的能谱。在2010 - 2013年期间,ARPANSA对主要标准进行了调整,使其能在兆伏级直线加速器束流中工作,并开发了一项针对医科达Synergy直线加速器的三种光子束(6、10和18兆伏)的校准服务。我们描述了新校准服务的细节、方法验证以及新校准因子与国际原子能机构TRS - 398剂量测定实践准则的使用情况。确定了从钴 - 60转换为直接校准后临床中吸收剂量测量的预期变化。对于一个 Farmer 电离室(型号2571),与从钴 - 60得出的因子相比,预计这三种束流的测量电离室校准系数分别会降低0.4%、1.0%和1.1%。这些结果与国际吸收剂量标准以及缪尔和罗杰斯在2010年使用蒙特卡罗技术计算的kQ因子总体一致。根据临床剂量测定的要求,讨论了采用新服务的利弊。