鼻咽癌图像引导放射治疗期间颈部淋巴结分区的几何变异分析:推荐的计划靶区边界
Analysis of geometric variation of neck node levels during image-guided radiotherapy for nasopharyngeal carcinoma: recommended planning margins.
作者信息
Tan Wenyong, Wang Yingjie, Yang Ming, Amos Richard A, Li Weihao, Ye Jianzeng, Gary Royle, Shen Weixi, Hu Desheng
机构信息
Department of Oncology, Shenzhen Hospital of Southern Medical University, Shenzhen 518101, China.
Clinical Research Center, The Second Clinical College (Shenzhen People Hospital), Jinan University, Shenzhen 518020, China.
出版信息
Quant Imaging Med Surg. 2018 Aug;8(7):637-647. doi: 10.21037/qims.2018.08.03.
BACKGROUND
To quantify the geometrical changes of each neck nodal level (NNL) and estimate the geometric planning target volume (PTV) margin during image-guided radiotherapy (IGRT) for nasopharyngeal cancer (NPC).
METHODS
Twenty patients with locally advanced NPC underwent one planning computed tomography (CT) and 6 weekly repeat CT (CT) scans during chemoradiotherapy. Each CT was rigidly registered to the CT. All the NNLs were manually delineated in each transverse CT section. When comparing the NNL in CT with CT, their volumes, displacement of the center of the mass, and the shortest perpendicular distance (SPD) were automatically calculated. This was followed by calculation of the systematic and random errors, overlapping index (OI), and dice similarity coefficient (DSC). With PTVs isotropically expanded from NNL by 1, 2, 3, 4, and 5 mm, they were compared with NNL itself; OI >0.95 was defined as the acceptable geometrical coverage. The Mann-Whitney test was used for statistical analysis.
RESULTS
All volumes, OI, and DSC of the NNLs (not including level IA) showed a linear decrease over time throughout the treatment course. The volume of NNLs decreased by 1-6% in the first week and 10-21% in the sixth week. The mean SPD was 1.3-1.7 and 1.9-3.5 mm in the first and sixth week respectively. The DSCs for nodal level IB, II, III, and IV were >0.7 and that of level V was <0.7 throughout the treatment course. For level IA and VI, DSC was <0.7 after the 2nd week. To maintain the OI >0.95, 2-5 mm was needed to expand the different NNLs.
CONCLUSIONS
The geometrical changes of each NNL are substantial and the necessary margin of 2-5 mm depended on individual NNL is needed to maintain geometrical coverage throughout the course of IGRT for NPC.
背景
量化鼻咽癌(NPC)图像引导放射治疗(IGRT)期间各颈部淋巴结水平(NNL)的几何变化,并估计几何计划靶体积(PTV)边界。
方法
20例局部晚期NPC患者在放化疗期间接受一次计划计算机断层扫描(CT)和6次每周重复CT扫描。每次CT均与计划CT进行刚性配准。在每个横断面CT图像上手动勾勒出所有NNL。比较CT与重复CT上的NNL时,自动计算其体积、肿块中心位移及最短垂直距离(SPD)。随后计算系统误差和随机误差、重叠指数(OI)及骰子相似系数(DSC)。将PTV从NNL各向同性扩展1、2、3、4和5 mm,与NNL本身进行比较;OI>0.95定义为可接受的几何覆盖。采用Mann-Whitney检验进行统计分析。
结果
整个治疗过程中,NNL(不包括IA区)的所有体积、OI和DSC均随时间呈线性下降。NNL体积在第一周下降1%-6%,在第六周下降10%-21%。第一周和第六周的平均SPD分别为1.3-1.7 mm和1.9-3.5 mm。整个治疗过程中,IB、II、III和IV区淋巴结的DSC>0.7,V区淋巴结的DSC<0.7。对于IA区和VI区,第2周后DSC<0.7。为保持OI>0.95,不同NNL需要扩展2-5 mm。
结论
各NNL的几何变化显著,在NPC的IGRT过程中,为保持几何覆盖,需要根据各个NNL确定2-5 mm的必要边界。
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