中华放射肿瘤学杂志
中華放射腫瘤學雜誌
중화방사종류학잡지
CHINESE JOURNAL OF RADIATION ONCOLOGY
2014年
2期
165-168
,共4页
张梦龙%宋善军%王卫鹏%赵斌
張夢龍%宋善軍%王衛鵬%趙斌
장몽룡%송선군%왕위붕%조빈
碘-125粒子源%热释光剂量仪%体模%剂量学
碘-125粒子源%熱釋光劑量儀%體模%劑量學
전-125입자원%열석광제량의%체모%제량학
I-125 seed source%Thermoluminescent dosimeter%Phantom%Dosimetry
目的 探讨应用热释光剂量仪在体模中测量植入125I粒子源(型号Sinko BT-125-1)的剂量学参数可行性.方法 将测量体模进行改进使其可适用于剂量学测量.根据AAPM TG43建议测量的参数包括剂量率常数Λ、径向剂量函数gL(r)和各向异性函数F(r,θ)等,所测数据与文献中其他构造相似的125I粒子源数据进行比较.结果 125I粒子源的Λ为0.928 cGyh-1 U-1.所测得的gL(r)范围为径向距离在1.0~10.0cm内所对应的值.F(r,θ)范围为角度在0.~90.内所对应的值.与型号Amersham 6711 125I粒子源相比,二者gL(r)值的最大差异为9.6%.二者F(r=2 cm,θ=0)值的差异为10.2%.应用此体模进行测量总的不确定度<6.0%.结论 测量结果具备较小的不确定性和良好自洽性,故应用热释光剂量仪体模测量永久植入粒子源的剂量学参数是可行的.
目的 探討應用熱釋光劑量儀在體模中測量植入125I粒子源(型號Sinko BT-125-1)的劑量學參數可行性.方法 將測量體模進行改進使其可適用于劑量學測量.根據AAPM TG43建議測量的參數包括劑量率常數Λ、徑嚮劑量函數gL(r)和各嚮異性函數F(r,θ)等,所測數據與文獻中其他構造相似的125I粒子源數據進行比較.結果 125I粒子源的Λ為0.928 cGyh-1 U-1.所測得的gL(r)範圍為徑嚮距離在1.0~10.0cm內所對應的值.F(r,θ)範圍為角度在0.~90.內所對應的值.與型號Amersham 6711 125I粒子源相比,二者gL(r)值的最大差異為9.6%.二者F(r=2 cm,θ=0)值的差異為10.2%.應用此體模進行測量總的不確定度<6.0%.結論 測量結果具備較小的不確定性和良好自洽性,故應用熱釋光劑量儀體模測量永久植入粒子源的劑量學參數是可行的.
목적 탐토응용열석광제량의재체모중측량식입125I입자원(형호Sinko BT-125-1)적제량학삼수가행성.방법 장측량체모진행개진사기가괄용우제량학측량.근거AAPM TG43건의측량적삼수포괄제량솔상수Λ、경향제량함수gL(r)화각향이성함수F(r,θ)등,소측수거여문헌중기타구조상사적125I입자원수거진행비교.결과 125I입자원적Λ위0.928 cGyh-1 U-1.소측득적gL(r)범위위경향거리재1.0~10.0cm내소대응적치.F(r,θ)범위위각도재0.~90.내소대응적치.여형호Amersham 6711 125I입자원상비,이자gL(r)치적최대차이위9.6%.이자F(r=2 cm,θ=0)치적차이위10.2%.응용차체모진행측량총적불학정도<6.0%.결론 측량결과구비교소적불학정성화량호자흡성,고응용열석광제량의체모측량영구식입입자원적제량학삼수시가행적.
Objective To study the dosimetry parameters of 125I seed source (type Sinko BT-125-1) with thermoluminescent dosimeter (TLD) in the phantom.Methods The new type of phantom was modified to suit to measurement of a common type of 125I seed source.The AAPM TG43 protocol recommended measurements of dose-rate constant (Λ),radial dose function (gL (r)),and anisotropy function (F (r,θ)) have been performed in the phantom with TLD.Results The Λ was 0.928 cGyh-1 U-1.The gL(r) was determined at different radial distances r ranging from 1.0 to 10.0 cm with an interval of 1.0 cm ; and F (r,θ) at angles from 0° to 90° in 10° increments.The gL (r) of 125I seed source showed a difference of 9.6% at the most in comparison to the corresponding values of 125I seed source (type Amersham 6711).The difference in F(2 cm,θ) of 125I seed source and Amersham 6711 was up to 10.2% near the source end.With the phantom the combined standard uncertainty in the whole measurement was less than 6.0%.Conclusions The experimental results exhibit fairly small measurement uncertainties and good self-consistency.It's feasible to measure the dosimetry characters of permanent implant seeds in the modified phantom.