中华放射肿瘤学杂志
中華放射腫瘤學雜誌
중화방사종류학잡지
CHINESE JOURNAL OF RADIATION ONCOLOGY
2009年
2期
130-133
,共4页
李洪升%李宝生%卢洁%尹勇%余宁莎%陈毅如
李洪升%李寶生%盧潔%尹勇%餘寧莎%陳毅如
리홍승%리보생%로길%윤용%여저사%진의여
肺肿瘤%计划靶体积%自适应放疗%图像引导放疗%锥形束CT
肺腫瘤%計劃靶體積%自適應放療%圖像引導放療%錐形束CT
폐종류%계화파체적%자괄응방료%도상인도방료%추형속CT
lung tumor%Planning target volume%Adaptive radiotherapy%Image-guided radio-therapy%Cone-beam CT
目的 探讨肺肿瘤在、离线结合锥形束CT(CBCT)图像引导放疗的可行性.方法 14例行三维适形放疗的肺肿瘤患者入组.放疗前后分别行在线CBCT扫描1次,并与计划CT图像配准,记录各个方向的配准差值.放疗前后配准获得的平移矢量分别作为分次间误差和分次内误差,利用CTV外放公式分别计算未行在线校正以及在线校正后的cTV外放.分别以0.5、1.5 mm为允许的最大残余系统摆位误差,计算预测总系统摆位误差所需的最少CBCT图像数以及离线校正系统摆位误差后的CTV外放.结果 未行在线校正时,左右、头脚、前后方向上群体化CTV外放分别为5.7、8.0、7.8 mm;每分次放疗均行在线校正时,3个方向上群体化CTV外放分别为2.4、2.4、2.3 mm.分别以0.5 mm或1.5 mm为允许的最大残余系统误差,计算预测系统摆位误差所需的最少CBCT图像数为9套或7套,对系统摆位误差进行离线校正后,左右、头脚和前后方向上群体化CTV外放分别为3.3 mm或3.9 mm、3.7 mm或4.3 mm和3.6 mm或4.3 mm.结论 基于CBCT图像分析的在线校正和离线校正均能明显减小摆位误差,并有助于缩小CTV外放.肺肿瘤患者进行在线、离线相结合的图像引导放疗是可行的.
目的 探討肺腫瘤在、離線結閤錐形束CT(CBCT)圖像引導放療的可行性.方法 14例行三維適形放療的肺腫瘤患者入組.放療前後分彆行在線CBCT掃描1次,併與計劃CT圖像配準,記錄各箇方嚮的配準差值.放療前後配準穫得的平移矢量分彆作為分次間誤差和分次內誤差,利用CTV外放公式分彆計算未行在線校正以及在線校正後的cTV外放.分彆以0.5、1.5 mm為允許的最大殘餘繫統襬位誤差,計算預測總繫統襬位誤差所需的最少CBCT圖像數以及離線校正繫統襬位誤差後的CTV外放.結果 未行在線校正時,左右、頭腳、前後方嚮上群體化CTV外放分彆為5.7、8.0、7.8 mm;每分次放療均行在線校正時,3箇方嚮上群體化CTV外放分彆為2.4、2.4、2.3 mm.分彆以0.5 mm或1.5 mm為允許的最大殘餘繫統誤差,計算預測繫統襬位誤差所需的最少CBCT圖像數為9套或7套,對繫統襬位誤差進行離線校正後,左右、頭腳和前後方嚮上群體化CTV外放分彆為3.3 mm或3.9 mm、3.7 mm或4.3 mm和3.6 mm或4.3 mm.結論 基于CBCT圖像分析的在線校正和離線校正均能明顯減小襬位誤差,併有助于縮小CTV外放.肺腫瘤患者進行在線、離線相結閤的圖像引導放療是可行的.
목적 탐토폐종류재、리선결합추형속CT(CBCT)도상인도방료적가행성.방법 14례행삼유괄형방료적폐종류환자입조.방료전후분별행재선CBCT소묘1차,병여계화CT도상배준,기록각개방향적배준차치.방료전후배준획득적평이시량분별작위분차간오차화분차내오차,이용CTV외방공식분별계산미행재선교정이급재선교정후적cTV외방.분별이0.5、1.5 mm위윤허적최대잔여계통파위오차,계산예측총계통파위오차소수적최소CBCT도상수이급리선교정계통파위오차후적CTV외방.결과 미행재선교정시,좌우、두각、전후방향상군체화CTV외방분별위5.7、8.0、7.8 mm;매분차방료균행재선교정시,3개방향상군체화CTV외방분별위2.4、2.4、2.3 mm.분별이0.5 mm혹1.5 mm위윤허적최대잔여계통오차,계산예측계통파위오차소수적최소CBCT도상수위9투혹7투,대계통파위오차진행리선교정후,좌우、두각화전후방향상군체화CTV외방분별위3.3 mm혹3.9 mm、3.7 mm혹4.3 mm화3.6 mm혹4.3 mm.결론 기우CBCT도상분석적재선교정화리선교정균능명현감소파위오차,병유조우축소CTV외방.폐종류환자진행재선、리선상결합적도상인도방료시가행적.
Objective To investigate the feasibility of online and offline cone-beam CT (CBCT) guided radiotherapy for lung cancer. Methods Fourteen patients with lung tumor treated by three-dimen-sional conformal radiotherapy were investigated. Online kV CBCT scan,image registration and setup correc-tion were performed before and immediately after radiotherapy. CBCT online-guided correction data were used to calculate the population-based CTV-PTV margins under the condition of non-correction and correction in every fraction respectively. The numbers of initial images and the population-based CTV-PTV margins af-ter the offline compensation of the system setup error were evaluated with the permission of 0.5 mm and 1.5 mm maximal residue error,respectively. Results Under the condition of non-correction,the required mar-gins for total error were 5.7 mm,8.0 mm and 7.8 mm in the left-right(x axis) ,cranio-caudal(y axis) and anterior-posterior(z axis) directions, respectively. When the tumor was corrected in every fraction, the re-quired margins for intra-fraction error were 2.4 mm,2.4 mm and 2.3 mm in x,y and z axes, respectively. To correct the systematic setup error,9 sets of CBCT images for 3.3 mm,3.7 mm and 3.6 mm PTV margins, and 7 sets of CBCT images for 3.9 mm,4.3 mm and 4.3 mm PTV margins in x,y and z axes were necessary when 0. 5 mm and 1.5 mm maximal residue errosr were permited respectively. Conclusions Both of the online CBCT correction and the offline adaptive correction can markedly reduce the impact of setup error and reduce the required PTV margins accordingly. It is feasible to deliver the online and offline image guided ra-diation for patients with lung tumor.
