中华放射肿瘤学杂志
中華放射腫瘤學雜誌
중화방사종류학잡지
CHINESE JOURNAL OF RADIATION ONCOLOGY
2008年
2期
117-119
,共3页
王丹%修霞%李雪楠%张绍刚%李高峰
王丹%脩霞%李雪楠%張紹剛%李高峰
왕단%수하%리설남%장소강%리고봉
调强放疗,静态%剂量率%叶片位置容差%剂量学
調彊放療,靜態%劑量率%葉片位置容差%劑量學
조강방료,정태%제량솔%협편위치용차%제량학
Intensity-modulated radiation therapy,step-and-shoot%Dose-rate%Leaf position tolerance%Dosimetry
目的 研究调强放疗中剂量率和多叶光栅的叶片位置容差对点吸收剂量(绝对剂量)的影响.方法 选取2例前列腺癌患者的调强治疗计划.将该计划移到封闭小水箱(水模)上,在剂量率分别为100、200、300、400、500 MU/min情况下,利用电离室测量点吸收剂量.调整水箱位置使电离室位于剂量梯度比较小区域,以使剂量梯度对测量结果的影响降到最低.在测量多叶光栅叶片位置容差对点吸收剂量影响时,剂量率不变,叶片位置容差分别为1、2、3、4 mm,调用该治疗计划进行实际测量.治疗计划系统为瓦里安Eclipse,实际测量用瓦里安加速器23EX.结果 随剂量率增大,点吸收剂量测量偏差也增大,最大值和最小值相差1.2%.在叶片控制系统正常工作情况下,叶片位置容差对点吸收剂量影响很小,测量结果相近.结论 因实际治疗时点吸收剂量(绝对剂量)偏差会随剂量率增大而增大,为提高治疗速度并考虑到剂量率对生物效应的影响,在提高剂量率同时也应尽量避免高剂量率所带来的误差,选择合适的剂量率进行治疗.叶片位置容差对点吸收剂量影响不大,但该数值不应设置太大,是为保证实际叶片位置尽可能接近于MLC文件中给出的数值,使实际剂量分布无论在剂量梯度大或剂量梯度小的区域都能与计划所给出的分布尽可能相近,如果叶片控制系统出现故障也可能尽早发现.
目的 研究調彊放療中劑量率和多葉光柵的葉片位置容差對點吸收劑量(絕對劑量)的影響.方法 選取2例前列腺癌患者的調彊治療計劃.將該計劃移到封閉小水箱(水模)上,在劑量率分彆為100、200、300、400、500 MU/min情況下,利用電離室測量點吸收劑量.調整水箱位置使電離室位于劑量梯度比較小區域,以使劑量梯度對測量結果的影響降到最低.在測量多葉光柵葉片位置容差對點吸收劑量影響時,劑量率不變,葉片位置容差分彆為1、2、3、4 mm,調用該治療計劃進行實際測量.治療計劃繫統為瓦裏安Eclipse,實際測量用瓦裏安加速器23EX.結果 隨劑量率增大,點吸收劑量測量偏差也增大,最大值和最小值相差1.2%.在葉片控製繫統正常工作情況下,葉片位置容差對點吸收劑量影響很小,測量結果相近.結論 因實際治療時點吸收劑量(絕對劑量)偏差會隨劑量率增大而增大,為提高治療速度併攷慮到劑量率對生物效應的影響,在提高劑量率同時也應儘量避免高劑量率所帶來的誤差,選擇閤適的劑量率進行治療.葉片位置容差對點吸收劑量影響不大,但該數值不應設置太大,是為保證實際葉片位置儘可能接近于MLC文件中給齣的數值,使實際劑量分佈無論在劑量梯度大或劑量梯度小的區域都能與計劃所給齣的分佈儘可能相近,如果葉片控製繫統齣現故障也可能儘早髮現.
목적 연구조강방료중제량솔화다협광책적협편위치용차대점흡수제량(절대제량)적영향.방법 선취2례전렬선암환자적조강치료계화.장해계화이도봉폐소수상(수모)상,재제량솔분별위100、200、300、400、500 MU/min정황하,이용전리실측량점흡수제량.조정수상위치사전리실위우제량제도비교소구역,이사제량제도대측량결과적영향강도최저.재측량다협광책협편위치용차대점흡수제량영향시,제량솔불변,협편위치용차분별위1、2、3、4 mm,조용해치료계화진행실제측량.치료계화계통위와리안Eclipse,실제측량용와리안가속기23EX.결과 수제량솔증대,점흡수제량측량편차야증대,최대치화최소치상차1.2%.재협편공제계통정상공작정황하,협편위치용차대점흡수제량영향흔소,측량결과상근.결론 인실제치료시점흡수제량(절대제량)편차회수제량솔증대이증대,위제고치료속도병고필도제량솔대생물효응적영향,재제고제량솔동시야응진량피면고제량솔소대래적오차,선택합괄적제량솔진행치료.협편위치용차대점흡수제량영향불대,단해수치불응설치태대,시위보증실제협편위치진가능접근우MLC문건중급출적수치,사실제제량분포무론재제량제도대혹제량제도소적구역도능여계화소급출적분포진가능상근,여과협편공제계통출현고장야가능진조발현.
Objective To evaluate the effect of dose-rate and leaf position tolerance on the point dose in step-and-shoot intensity-modulated radiotherapy(IMRT). Methods IMRT plans of 2 prostate cancer patients were selected and recalculated for a water phantom.An ionization chamber was used to measure the dose of some points in the phantom at five nominal dose-rates:100 MU/min,200 MU/min,300 MU/min,400 MU/min and 500 MU/min.It was necessary to adiust the position of the water phantom to locate the ionization chamber in region where the dose gradient was very low in order to minimize the effect of dose gradient on the measured results.When measuring the effect of leaf position tolerance on point dose,the dose-rate was kept constant and the values of tolerance were 1 mm,2 mm,3 mm and 4 mm.This work was conducted on a Varian 23EX equipped with a Millennium 120-leaf multi-leat collimator(MLC).The treatment planning system was Varian Eclipse. Results As the dose-rate increased,the error between the measured dose and the calculated dose also enlarged.The difference between the maximum and the minimum was 1.2%.When MLC control system was working normally,tlle effect of leaf position tolerance on the measured point dose was very little and negligible. Conclusions The dose-rate must be selected suitably to ensure that the delivery can be finished in a short time with the radiobiological effect taking into account.It should be noted that the error between the measured dose and the calculated dose increases with the trend of inereasing more rapidly at higher dose rates.The value of leaf position tolerance should not be set too large,in order to minimize the difference between the measured dose and the planned dose in the region of steep gradient and find as early as possible when the multi-leaf collimator control system performs improperly.
