中华放射肿瘤学杂志
中華放射腫瘤學雜誌
중화방사종류학잡지
CHINESE JOURNAL OF RADIATION ONCOLOGY
2010年
5期
468-470
,共3页
张梦龙%孙尧%张良安%苑淑渝%戴光复
張夢龍%孫堯%張良安%苑淑渝%戴光複
장몽룡%손요%장량안%원숙투%대광복
铱-192新源%剂量学%聚苯树脂体模
銥-192新源%劑量學%聚苯樹脂體模
의-192신원%제량학%취분수지체모
Ir-192 new source%Dosimetry%Polystyrene phantom
目的 通过192Ir新源径向剂量函数gL(r)和各向异性函数F(r,θ)的测量值与计算值的比较建立剂量学参数评价方法 .方法 用聚苯树脂材料制成实验体模,其上包括放射源出入孔和各测量位置上用于盛放热释光剂量计(TLD)管的孔.用体模在192Ir辐射场中测量参考方向上1~14 cm半径的剂量,用以计算gL(r);测量1、3、5 cm半径圆周上各向(0°~165°,间隔15°)剂量,用以计算F(r,θ).上述测量值与蒙特卡罗(MC)模拟计算值进行配对t检验比较差异.结果 gL(r)在1~14cm半径计算值为1.007~0.681,测量值为1.007~0.598(t=0.00~2.89,P值均>0.05).F(r,θ)在1、3、5 cm半径圆周上0°~165°的计算值分别为0.631~1、0.660~1、0.696~1,测量值分别为0.701~1、0.668~1、0.629~1(t=0.40~1.63、0.02~2.10、0.08~2.03,P值均>0.05).结论 TLD测量的192Ir源gL(r)和F(r,θ)值与MC计算结果 一致,其数据均可用于治疗计划系统.
目的 通過192Ir新源徑嚮劑量函數gL(r)和各嚮異性函數F(r,θ)的測量值與計算值的比較建立劑量學參數評價方法 .方法 用聚苯樹脂材料製成實驗體模,其上包括放射源齣入孔和各測量位置上用于盛放熱釋光劑量計(TLD)管的孔.用體模在192Ir輻射場中測量參攷方嚮上1~14 cm半徑的劑量,用以計算gL(r);測量1、3、5 cm半徑圓週上各嚮(0°~165°,間隔15°)劑量,用以計算F(r,θ).上述測量值與矇特卡囉(MC)模擬計算值進行配對t檢驗比較差異.結果 gL(r)在1~14cm半徑計算值為1.007~0.681,測量值為1.007~0.598(t=0.00~2.89,P值均>0.05).F(r,θ)在1、3、5 cm半徑圓週上0°~165°的計算值分彆為0.631~1、0.660~1、0.696~1,測量值分彆為0.701~1、0.668~1、0.629~1(t=0.40~1.63、0.02~2.10、0.08~2.03,P值均>0.05).結論 TLD測量的192Ir源gL(r)和F(r,θ)值與MC計算結果 一緻,其數據均可用于治療計劃繫統.
목적 통과192Ir신원경향제량함수gL(r)화각향이성함수F(r,θ)적측량치여계산치적비교건립제량학삼수평개방법 .방법 용취분수지재료제성실험체모,기상포괄방사원출입공화각측량위치상용우성방열석광제량계(TLD)관적공.용체모재192Ir복사장중측량삼고방향상1~14 cm반경적제량,용이계산gL(r);측량1、3、5 cm반경원주상각향(0°~165°,간격15°)제량,용이계산F(r,θ).상술측량치여몽특잡라(MC)모의계산치진행배대t검험비교차이.결과 gL(r)재1~14cm반경계산치위1.007~0.681,측량치위1.007~0.598(t=0.00~2.89,P치균>0.05).F(r,θ)재1、3、5 cm반경원주상0°~165°적계산치분별위0.631~1、0.660~1、0.696~1,측량치분별위0.701~1、0.668~1、0.629~1(t=0.40~1.63、0.02~2.10、0.08~2.03,P치균>0.05).결론 TLD측량적192Ir원gL(r)화F(r,θ)치여MC계산결과 일치,기수거균가용우치료계화계통.
Objective To perform thermoluminescent measurements of radial dose function and anisotropy function of a newly designed 192Ir microSelectron-HDR source, and establish evaluation methods for HDR dosimetry.Methods A polystyrene phantom with sylindrical holes in different measure positions was designed to accommodate thermo luminescent dosimeter (TLD) rods and radiation source.TLD rods with similar sensitivity were placed on a semicircle around the source center which had been precisely localized by either radiographic means or dose measurement.Dose-rates were measured at θ = 90° and r = 1-14 cm to calculate radial dose function (gL (r)), while measured along polar angles θ = 0° -165°(interval 15°) at radial distances r = 1 cm, 3 cm and 5 cm to calculate anisotropy function (F(r,θ)).All data were compared with those calculated by Monte Carlo (MC) method.The t-test was used for the statistics.Results The values of gL (r) were 1.007 -0.681 by calculation and 1.007 -0.598 by measurement with r = 1 - 14 cm(t = 0.00 - 2.89, all P > 0.05).The values of F (r,θ) were 0.631 - 1,0.660 - 1 and 0.696 - 1 by calculation, while 0.701 - 1, 0.668 - 1 and 0.629 - 1 by measurement at 1 cm, 3 cm and 5 cm with θ=0° -165°(t=0.40 -1.63, 0.02 -2.10, 0.08 -2.03, all P>0.05).Conclusions The results of radial dose function and anisotropy function measured by TLD measurement are in consistent with those calculated by MC calculations, which can be applied in treatment planning system as original input.
