肺容积对CT上结节大小的影响。
The effect of lung volume on nodule size on CT.
作者信息
Petkovska Iva, Brown Matthew S, Goldin Jonathan G, Kim Hyun J, McNitt-Gray Michael F, Abtin Fereidoun G, Ghurabi Raffi J, Aberle Denise R
机构信息
Thoracic Imaging Research Group, Department of Radiological Sciences, David Geffen School of Medicine, University of California Los Angeles, 924 Westwood Blvd., Suite 650, Box 957319, Los Angeles, CA 90095-7319, USA.
出版信息
Acad Radiol. 2007 Apr;14(4):476-85. doi: 10.1016/j.acra.2007.01.008.
RATIONALE AND OBJECTIVES
We sought to determine how measures of nodule diameter and volume on computed tomography (CT) vary with changes in inspiratory level.
MATERIALS AND METHODS
CT scans were performed with inspiration suspended at total lung capacity (TLC) and then at residual volume (RV) in 41 subjects, in whom 75 indeterminate lung nodules were detected. A fully automated contouring program was used to segment the lungs; followed by segmentation of all nodules and the corresponding lobe using semiautomated contouring in both TLC and RV scans. The percent changes in lung and lobar volumes between TLC and RV were correlated with percent changes in nodule diameters and volumes.
RESULTS
Both nodule diameter and volume varied nonuniformly from TLC to RV-some nodules decreased in size, while others increased. There was a 16.8% mean change in absolute volume across all nodules. Stratified by size, the mean value of the absolute percent volume changes for nodules > or =5 mm and <5 mm were not significantly different (P = .26). Stratified by maximum attenuation, the mean value of the absolute percent volume changes between the TLC and RV series for noncalcified (17.7%, SD = 13.1) and completely calcified nodules (8.6% SD = 5.7) were significantly different (P < .05).
CONCLUSION
Significant differences in nodule size were measured between TLC and RV scans. This has important implications for standardizing acquisition protocols in any setting where size and, more important, size change are being used for purposes of lung cancer staging, nodule characterization, or treatment response assessment.
原理与目的
我们试图确定计算机断层扫描(CT)上结节直径和体积的测量值如何随吸气水平的变化而变化。
材料与方法
对41名受试者进行CT扫描,在肺总量(TLC)和残气量(RV)时屏气扫描,共检测到75个肺内不确定结节。使用全自动轮廓程序分割肺;然后在TLC和RV扫描中使用半自动轮廓对所有结节和相应肺叶进行分割。TLC和RV之间肺和肺叶体积的百分比变化与结节直径和体积的百分比变化相关。
结果
从TLC到RV,结节直径和体积均呈非均匀变化——一些结节尺寸减小,而另一些结节尺寸增大。所有结节的绝对体积平均变化为16.8%。按大小分层,直径≥5mm和<5mm结节的绝对体积变化百分比的平均值无显著差异(P = 0.26)。按最大衰减分层,TLC和RV系列之间非钙化结节(17.7%,标准差 = 13.1)和完全钙化结节(8.6%,标准差 = 5.7)的绝对体积变化百分比的平均值有显著差异(P < 0.05)。
结论
TLC和RV扫描之间测量的结节大小存在显著差异。这对于在任何将大小(更重要的是大小变化)用于肺癌分期、结节特征描述或治疗反应评估的情况下标准化采集方案具有重要意义。
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