McDonald J C, Ma I C, Liang J, Eenmaa J, Awschalom M, Smathers J B, Graves R, August L S, Shapiro P
Med Phys. 1981 Jan-Feb;8(1):39-43. doi: 10.1118/1.594905.
In the U.S. neutron radiotherapy trial centers, absorbed dose is routinely measured using commercially available A-150 tissue equivalent (TE) plastic ionization chambers. The collecting volumes of these chambers are filled with either methane-based tissue equivalent gas or air. Absorbed dose in A-150 plastic, determined with these ionization chambers, was compared to that measured by an A-150 plastic calorimeter in an A-150 plastic phantom. These comparisons have yielded the following information: (1) Agreement of the total absorbed dose measured using the ionization chambers was within 2.5% of the calorimeter at all the centers visited to date. (2) For all the neutron fields measured, the product of the stopping power ratio (sw,g)N' between the A-150 plastic chamber wall and TE gas, and the average energy expended in the gas per ion pair formed, WN/e, was computed assuming Bragg-Gray theory and found to be 31.0 +/- 0.7 J/C. (3) The displacement correction factor employed to normalize measurements at a depth in a phantom using the type IC-17 ionization chamber was verified to be approximately 0.97 +/- 0.01.
在美国的中子放射治疗试验中心,吸收剂量通常使用市售的A - 150组织等效(TE)塑料电离室进行测量。这些电离室的收集体积填充有基于甲烷的组织等效气体或空气。用这些电离室测定的A - 150塑料中的吸收剂量与在A - 150塑料模体中用A - 150塑料量热计测量的吸收剂量进行了比较。这些比较得出了以下信息:(1)到目前为止,在所访问的所有中心,使用电离室测量的总吸收剂量与量热计测量值的一致性在2.5%以内。(2)对于所有测量的中子场,假设布拉格 - 格雷理论计算A - 150塑料室壁与TE气体之间的阻止本领比(sw,g)N'与每个形成的离子对在气体中消耗的平均能量WN/e的乘积,结果为31.0±0.7 J/C。(3)用于使用IC - 17型电离室对模体中某一深度处的测量进行归一化的位移校正因子经验证约为0.97±0.01。
