基于CT的放射治疗计划中PET标准摄取值与用于靶区勾画的CT窗宽-窗位阈值的相关性
Correlation of PET standard uptake value and CT window-level thresholds for target delineation in CT-based radiation treatment planning.
作者信息
Hong Robert, Halama James, Bova Davide, Sethi Anil, Emami Bahman
机构信息
Department of Radiation Oncology, Nuclear Medicine Division, Loyola University Medical Center, Maywood, IL 60153, USA.
出版信息
Int J Radiat Oncol Biol Phys. 2007 Mar 1;67(3):720-6. doi: 10.1016/j.ijrobp.2006.09.039.
PURPOSE
To develop standardized correlates of [18F]fluoro-2-deoxy-d-glucose positron emission tomography (FDG-PET) standard uptake value (SUV) to computed tomography (CT)-based window and levels.
METHODS AND MATERIALS
Nineteen patients with non-small-cell lung cancer who underwent imaging with positron emission tomography (PET) and CT were selected. A method of standardizing SUV within CT planning software was developed. A scale factor, determined by a sensitivity calibration of the PET scanner, converts voxel counts to activity per gram in tissue, allowing SUVs to be correlated to CT window and levels. A method of limiting interobserver variations was devised to enhance "edges" of regions of interest based on SUV thresholds. The difference in gross tumor volumes (GTVs) based on CT, PET SUV >or= 2.5, and regions of 40% maximum SUV were analyzed.
RESULTS
The mean SUV was 9.3. Mean GTV volumes were 253 cc for CT, 221 cc for SUV >or= 2.5, and 97 cc for SUV40%Max. Average volume difference was -259% between >or=2.5 SUV and CT and -162% between SUV40%Max and CT. Percent difference between GTV >or= 2.5 SUV and SUV40%Max remained constant beyond SUV > 7. For SUVs 4-6, best correlation among SUV thresholds occurred at volumes near 90 cc. Mean percent change from GTVs contoured according to CT (GTV CT) was -260% for GTV2.5 and -162% for GTV40%Max. Using the SUV40%Max threshold resulted in a significant alteration of volume in 98% of patients, while the SUV2.5 threshold resulted in an alteration of volume in 58% of patients.
CONCLUSIONS
Our method of correlating SUV to W/L thresholds permits accurate displaying of SUV in coregistered PET/CT studies. The optimal SUV thresholds to contour GTV depend on maximum tumor SUV and volume. Best correlation occurs with SUVs >6 and small volumes <100 cc. At SUVs >7, differences between the SUV threshold filters remain constant. Because of variability in volumes obtained by using SUV40%Max, we recommend using SUV >or= 2.5 for radiotherapy planning in non-small-cell lung cancer.
目的
建立[18F]氟代脱氧葡萄糖正电子发射断层扫描(FDG-PET)标准摄取值(SUV)与基于计算机断层扫描(CT)的窗宽和窗位的标准化关联。
方法和材料
选取19例接受正电子发射断层扫描(PET)和CT成像的非小细胞肺癌患者。开发了一种在CT规划软件内标准化SUV的方法。通过PET扫描仪的灵敏度校准确定的比例因子,将体素计数转换为组织中每克的活性,从而使SUV与CT窗宽和窗位相关联。设计了一种限制观察者间差异的方法,以基于SUV阈值增强感兴趣区域的“边缘”。分析了基于CT、PET SUV≥2.5以及最大SUV的40%区域的大体肿瘤体积(GTV)差异。
结果
平均SUV为9.3。CT的平均GTV体积为253立方厘米,SUV≥2.5时为221立方厘米,SUV40%Max时为97立方厘米。SUV≥2.5与CT之间的平均体积差异为-259%,SUV40%Max与CT之间为-162%。GTV≥2.5 SUV与SUV40%Max之间的百分比差异在SUV>7时保持恒定。对于SUV为4-6,SUV阈值之间的最佳相关性出现在体积接近90立方厘米时。根据CT勾勒的GTV(GTV CT)计算,GTV2.5的平均百分比变化为-260%,GTV40%Max为-162%。使用SUV40%Max阈值导致98%的患者体积有显著改变,而SUV2.5阈值导致58%的患者体积改变。
结论
我们将SUV与窗宽/窗位阈值相关联的方法允许在配准的PET/CT研究中准确显示SUV。勾勒GTV的最佳SUV阈值取决于最大肿瘤SUV和体积。SUV>6且体积<100立方厘米时相关性最佳。在SUV>7时,SUV阈值过滤器之间的差异保持恒定。由于使用SUV40%Max获得的体积存在变异性,我们建议在非小细胞肺癌的放射治疗计划中使用SUV≥2.5。
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