From the Diagnostic Image Analysis Group, Department of Radiology and Nuclear Medicine, Radboud University Medical Center, Geert Grooteplein Zuid 10, 6525 GA Nijmegen, the Netherlands (A.S., B.v.G., E.T.S., C.J., M.P., C.M.S.); Fraunhofer MEVIS, Bremen, Germany (B.v.G.); Department of Radiology, Azienda Ospedaliero-Universitaria de Parma, Parma, Italy (N.S.); Department of Radiology, Royal Brompton and Harefield National Health Service Foundation Trust, London, England (S.R.D., A.D.); and Department of Radiology, Meander Medisch Centrum, Amersfoort, the Netherlands (C.M.S.).
Radiology. 2018 Sep;288(3):867-875. doi: 10.1148/radiol.2018172771. Epub 2018 Jul 3.
Purpose To study interreader variability for classifying pulmonary opacities at CT as perifissural nodules (PFNs) and determine how reliably radiologists differentiate PFNs from malignancies. Materials and Methods CT studies were obtained retrospectively from the National Lung Screening Trial (2002-2009). Nodules were eligible for the study if they were noncalcified, solid, within the size range of 5 to 10 mm, and scanned with a section thickness of 2 mm or less. Six radiologists classified 359 nodules in a cancer-enriched data set as PFN, non-PFN, or not applicable. Nodules classified as not applicable by at least three radiologists were excluded, leaving 316 nodules for post-hoc statistical analysis. Results The study group contained 22.2% cancers (70 of 316). The median proportion of nodules classified as PFNs was 45.6% (144 of 316). All six radiologists uniformly classified 17.7% (56 of 316) of the nodules as PFNs. The Fleiss κ was 0.50. Compared with non-PFNs, nodules classified as PFNs were smaller and more often located in the lower lobes and attached to a fissure (P < .001). Thirteen (18.6%) of 70 cancers were misclassified 21 times as PFNs. Individual readers' misclassification rates ranged from 0% (0 of 125) to 4.9% (eight of 163). Of 13 misclassified malignancies, 11 were in the upper lobes and two were attached to a fissure. Conclusion There was moderate interreader agreement when classifying nodules as perifissural nodules. Less than 2.5% of perifissural nodule classifications were misclassified lung cancers (21 of 865) in this cancer-enriched study. Allowing nodules classified as perifissural nodules to be omitted from additional follow-up in a screening setting could substantially reduce the number of unnecessary scans; excluding perifissural nodules in the upper lobes would greatly decrease the misclassification rate.
目的 研究根据 CT 对肺磨玻璃结节(PFN)进行分类时的读者间变异性,并确定放射科医生对 PFN 与恶性肿瘤进行区分的可靠性。
材料与方法 本研究回顾性分析了国家肺癌筛查试验(2002-2009 年)的 CT 研究资料。如果结节是非钙化、实性、大小在 5-10mm 之间、扫描层厚为 2mm 或以下,则该结节符合研究条件。6 名放射科医生对 359 个富含癌症的结节数据集进行分类,将其分为 PFN、非 PFN 和不适用。至少有 3 名放射科医生认为不适用的结节被排除在外,留下 316 个结节进行事后统计分析。
结果 研究组中包含 22.2%的癌症(70/316)。分类为 PFN 的结节中位数比例为 45.6%(144/316)。6 名放射科医生均一致地将 17.7%(56/316)的结节分类为 PFN。Fleiss κ 值为 0.50。与非 PFN 相比,分类为 PFN 的结节更小,更常位于下叶并附着于裂(P<0.001)。13(18.6%)个癌症(70 个癌症中的 13 个)被错误分类 21 次为 PFN。个别读者的错误分类率范围为 0%(0/125)至 4.9%(8/163)。13 个误诊的恶性肿瘤中,11 个位于上叶,2 个附着于裂。
结论 在对结节进行分类为肺磨玻璃结节时,读者间的一致性为中度。在这项富含癌症的研究中,只有不到 2.5%的肺磨玻璃结节分类(865 个中的 21 个)被误诊为肺癌。在筛查环境中,允许将分类为肺磨玻璃结节的结节排除在额外的随访之外,可以大大减少不必要的扫描数量;排除上叶的肺磨玻璃结节将大大降低误诊率。
