CT Screening for Lung Cancer: Part-Solid Nodules in Baseline and Annual Repeat Rounds.

OBJECTIVE The purpose of this study was to assess the frequencies of identifying participants with part-solid nodules, of diagnostic pursuit, of diagnoses of lung cancer, and long-term lung cancer survival in baseline and annual repeat rounds of CT screening in the International Early Lung Cancer Action Project. MATERIALS AND METHODS Screenings were performed under a common protocol. Participants with solid, nonsolid, and part-solid nodules and the diagnoses of lung cancer were documented. RESULTS Part-solid nodules were identified in 2892 of 57,496 (5.0%) baseline screening studies; 567 (19.6%) of these nodules resolved or decreased in size. Diagnostic pursuit led to the diagnosis of adenocarcinoma in 79 cases, all clinical stage I. At resection, one nodule (12-mm solid component) had a single N2 metastasis. A new part-solid nodule was identified in 541 of 64,677 (0.8%) annual repeat screenings; 377 (69.7%) of these nodules resolved or decreased in size. In eight cases among the 541, the diagnosis of adenocarcinoma manifesting as a part solid nodule was made; on retrospective review the nodule originally had been a nonsolid nodule. In another 20 cases, the cancer originally had manifested as a nonsolid nodule but had progressed to become part-solid at annual repeat screening before any diagnosis was pursued. These 28 annual repeat cases of lung cancer were all pathologic stage IA. Of the 107 cases of lung cancer (79 baseline cases and 28 annual repeat cases), 106 were surgically resected, and one baseline case was followed up with imaging for 4 years. The lung cancer survival rate was 100% with a median follow-up period from diagnosis of 89 months (interquartile range, 52-134 months). CONCLUSION Lung cancers manifesting as part-solid nodules at repeat screening studies all started as nonsolid nodules. Among 107 cases of adenocarcinoma manifesting as a part-solid nodule, a single lymph node metastasis was found in a single case (solid component, 12 mm).

[1]  Feng Li,et al.  Long-term follow-up study of a population-based 1996-1998 mass screening programme for lung cancer using mobile low-dose spiral computed tomography. , 2007, Lung cancer.

[2]  David F Yankelevitz,et al.  Solitary and multiple resected adenocarcinomas after CT screening for lung cancer: histopathologic features and their prognostic implications. , 2009, Lung cancer.

[3]  C. Henschke,et al.  CT Screening for Lung Cancer: Nonsolid Nodules in Baseline and Annual Repeat Rounds. , 2015, Radiology.

[4]  Ali O. Farooqi,et al.  Lung cancers diagnosed at annual CT screening: volume doubling times. , 2012, Radiology.

[5]  W. Travis WHO classification of tumours of the lung, pleura, thymus and heart , 2015 .

[6]  A. Nicholson,et al.  The IASLC Lung Cancer Staging Project: Proposals for Coding T Categories for Subsolid Nodules and Assessment of Tumor Size in Part‐Solid Tumors in the Forthcoming Eighth Edition of the TNM Classification of Lung Cancer , 2016, Journal of thoracic oncology : official publication of the International Association for the Study of Lung Cancer.

[7]  Alexandre Moreau-Gaudry,et al.  Differentiating pre- and minimally invasive from invasive adenocarcinoma using CT-features in persistent pulmonary part-solid nodules in Caucasian patients. , 2015, European journal of radiology.

[8]  Brian Reid,et al.  Overdiagnosis and overtreatment in cancer: an opportunity for improvement. , 2013, JAMA.

[9]  Binsheng Zhao,et al.  Small pulmonary nodules: volumetrically determined growth rates based on CT evaluation. , 2000, Radiology.

[10]  Kiyoshi Mori,et al.  Objective definition and measurement method of ground-glass opacity for planning limited resection in patients with clinical stage IA adenocarcinoma of the lung. , 2004, European journal of cardio-thoracic surgery : official journal of the European Association for Cardio-thoracic Surgery.

[11]  K. Nagai,et al.  Identification of Early T1b Lung Adenocarcinoma Based on Thin-Section Computed Tomography Findings , 2013, Journal of thoracic oncology : official publication of the International Association for the Study of Lung Cancer.

[12]  C. Henschke,et al.  Pathologic Findings of Lung Tumors Diagnosed on Baseline CT Screening , 2006, The American journal of surgical pathology.

[13]  C. Henschke,et al.  Comparison of pathologic findings of baseline and annual repeat cancers diagnosed on CT screening. , 2007, Lung cancer.

[14]  O. Miettinen,et al.  Survival of Patients with Stage I Lung Cancer Detected on CT Screening , 2008 .

[15]  A. Leung,et al.  Prognostic importance of volumetric measurements in stage I lung adenocarcinoma. , 2014, Radiology.

[16]  O S Miettinen,et al.  Radiographic screening for cancer. Proposed paradigm for requisite research. , 1994, Clinical imaging.

[17]  W. Nishio,et al.  Survival of 1737 lobectomy-tolerable patients who underwent limited resection for cStage IA non-small-cell lung cancer. , 2015, European journal of cardio-thoracic surgery : official journal of the European Association for Cardio-thoracic Surgery.

[18]  Masahiro Tsuboi,et al.  International Association for the Study of Lung Cancer/American Thoracic Society/European Respiratory Society International Multidisciplinary Classification of Lung Adenocarcinoma , 2011, Journal of thoracic oncology : official publication of the International Association for the Study of Lung Cancer.

[19]  O. Miettinen,et al.  CT screening for lung cancer: frequency and significance of part-solid and nonsolid nodules. , 2002, AJR. American journal of roentgenology.

[20]  O. Miettinen,et al.  Screening for lung cancer: the early lung cancer action approach. , 2002, Lung cancer.

[21]  O. Miettinen,et al.  Early lung cancer action project pathology protocol. , 2003, Lung cancer.

[22]  S Sone,et al.  Growth rate of small lung cancers detected on mass CT screening. , 2000, The British journal of radiology.

[23]  Marios A Gavrielides,et al.  Pulmonary nodules with ground-glass opacity can be reliably measured with low-dose techniques regardless of iterative reconstruction: results of a phantom study. , 2015, AJR. American journal of roentgenology.

[24]  O S Miettinen,et al.  Early Lung Cancer Action Project , 2001, Cancer.

[25]  Kenji Eguchi,et al.  Lung Cancer with Localized Ground-Glass Attenuation Represents Early-Stage Adenocarcinoma in Nonsmokers , 2008, Journal of thoracic oncology : official publication of the International Association for the Study of Lung Cancer.

[26]  Setsuo Hirohashi,et al.  Small adenocarcinoma of the lung. Histologic characteristics and prognosis , 1995 .

[27]  O. Miettinen,et al.  Early Lung Cancer Action Project: overall design and findings from baseline screening , 1999, The Lancet.

[28]  K Kuriyama,et al.  Ground-glass opacity on thin-section CT: value in differentiating subtypes of adenocarcinoma of the lung. , 1999, AJR. American journal of roentgenology.

[29]  V. Rusch,et al.  Visceral Pleural Invasion: Pathologic Criteria and Use of Elastic Stains: Proposal for the 7th Edition of the TNM Classification for Lung Cancer , 2008, Journal of thoracic oncology : official publication of the International Association for the Study of Lung Cancer.

[30]  O. Miettinen,et al.  CT screening for lung cancer: suspiciousness of nodules according to size on baseline scans. , 2004, Radiology.