Abstract
Primary lung cancer is the leading cause of cancer mortality in the world and its incidence is expected to rise in the next several decades, especially in more recently industrialized countries such as China. This high mortality is largely explained by the fact that patients with lung cancer often present with advanced stage disease. Imaging is important in the early detection and clinical staging of lung cancer. Indeed both the therapeutic options and the management of patients with lung cancer are to a considerable degree dependent upon disease stage at presentation. Detailed knowlegde and the appropriate use of imaging in the staging evaluation of patients with non-small cell lung cancer (NSCLC) are required to avoid unnecessary procedures, excess radiation, and redundant information. This is facilitated by the use of guidelines as well as the participation of multidisciplinary teams in which radiologists, pathologists, pulmonologists, surgeons, and medical and radiation oncologists discuss and reach a consensus on individualized imaging and treatment. The main objective of this chapter is to review the basic concepts related to the detection, staging, and follow-up of patients with NSCLC.
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References
Ost DE, Yeung SC, Tanoue LT, Gould MK (2013) Clinical and organizational factors in the initial evaluation of patients with lung cancer: Diagnosis and management of lung cancer, 3rd Ed. American College of Chest Physicians evidence-based clinical practice guidelines. Chest 143(5 Suppl):e121S–141S.
Aberle DR, Berg CD, Black WC et al (2011) The National Lung Screening Trial: overview and study design. Radiology 258:243–253.
Detterbeck FC (2014) Overdiagnosis during lung cancer screening: is it an overemphasised, underappreciated, or tangential issue? Thorax 69:407–408.
Patz EF, Jr., Pinsky P, Gatsonis C et al (2014) Overdiagnosis in low-dose computed tomography screening for lung cancer. JAMA Intern Med 174:269–274.
Meza R, ten Haaf K, Kong CY et al (2014) Comparative analysis of 5 lung cancer natural history and screening models that reproduce outcomes of the NLST and PLCO trials. Cancer 120:1713–1724.
Hasegawa M, Sone S, Takashima S et al (2000) Growth rate of small lung cancers detected on mass CT screening. Br J Radiol 73:1252–1259.
Kakinuma R, Ohmatsu H, Kaneko M et al (2004) Progression of focal pure ground-glass opacity detected by low-dose helical computed tomography screening for lung cancer. J Comput Assist Tomogr 28:17–23.
Revel MP, Merlin A, Peyrard S et al (2006) Software volumetric evaluation of doubling times for differentiating benign versus malignant pulmonary nodules. AJR Am J Roentgenol 187:135–142.
Jennings SG, Winer-Muram HT, Tann M et al (2006) Distribution of stage I lung cancer growth rates determined with serial volumetric CT measurements. Radiology 241:554–563.
de Hoop B, Gietema H, van de Vorst S (2010) Pulmonary ground-glass nodules: increase in mass as an early indicator of growth. Radiology 255:199–206.
Henschke CI, Yankelevitz DF, Mirtcheva R et al (2002) CT screening for lung cancer: frequency and significance of part-solid and nonsolid nodules. AJR Am J Roentgenol 178:1053–1057.
Kishi K, Homma S, Kurosaki A et al (2004) Small lung tumors with the size of 1cm or less in diameter: clinical, radiological, and histopathological characteristics. Lung Cancer 44:43–51.
Godoy MC, Naidich DP (2009) Subsolid pulmonary nodules and the spectrum of peripheral adenocarcinomas of the lung: recommended interim guidelines for assessment and management. Radiology 253:606–622.
Austin JH, Garg K, Aberle D et al (2013) Radiologic implications of the 2011 classification of adenocarcinoma of the lung. Radiology 266:62–71.
Honda T, Kondo T, Murakami S et al (2013) Radiographic and pathological analysis of small lung adenocarcinoma using the new IASLC classification. Clin Radiol 68:e21–26.
Travis WD, Brambilla E, Noguchi M et al (2011) International association for the study of lung cancer/american thoracic society/european respiratory society international multidisciplinary classification of lung adenocarcinoma. J Thorac Oncol 6:244–285.
Hashimoto Y, Tsujikawa T, Kondo C et al (2006) Accuracy of PET for diagnosis of solid pulmonary lesions with 18F-FDG uptake below the standardized uptake value of 2.5. J Nucl Med 47:426–431.
Nomori H, Watanabe K, Ohtsuka T et al (2004) Evaluation of F-18 fluorodeoxyglucose (FDG) PET scanning for pulmonary nodules less than 3 cm in diameter, with special reference to the CT images. Lung Cancer 45:19–27.
MacMahon H, Austin JH, Gamsu G et al (2005) Guidelines for management of small pulmonary nodules detected on CT scans: a statement from the Fleischner Society. Radiology 237:395–400.
Naidich DP, Bankier AA, MacMahon H et al (2013) Recommendations for the management of subsolid pulmonary nodules detected at CT: a statement from the Fleischner Society. Radiology 266:304–317.
Silvestri GA, Gonzalez AV, Jantz MA et al (2013) Methods for staging non-small cell lung cancer: Diagnosis and management of lung cancer, 3rd ed: American College of Chest Physicians evidence-based clinical practice guidelines. Chest 143(5 Suppl):e211S–250S.
Bruzzi JF, Komaki R, Walsh GL et al (2008) Imaging of non-small cell lung cancer of the superior sulcus: part 1: anatomy, clinical manifestations, and management. Radiographics 28:551–560; quiz 620.
Bruzzi JF, Komaki R, Walsh GL et al (2008) Imaging of non-small cell lung cancer of the superior sulcus: part 2: initial staging and assessment of resectability and therapeutic response. Radiographics 28:561–572.
Mountain CF, Dresler CM (1997) Regional lymph node classification for lung cancer staging. Chest 111:1718–1723.
Naruke T, Suemasu K, Ishikawa S (1978) Lymph node mapping and curability at various levels of metastasis in resected lung cancer. J Thorac Cardiovasc Surg 76:832–839.
Rusch VW, Crowley J, Giroux DJ et al (2007) The IASLC Lung Cancer Staging Project: proposals for the revision of the N descriptors in the forthcoming seventh edition of the TNM classification for lung cancer. J Thorac Oncol 2:603–612.
Toloza EM, Harpole L, McCrory DC (2003) Noninvasive staging of non-small cell lung cancer: a review of the current evidence. Chest 123(1 Suppl):137S–146S.
Ohno Y, Hatabu H, Takenaka D et al (2004) Metastases in me-diastinal and hilar lymph nodes in patients with non-small cell lung cancer: quantitative and qualitative assessment with STIR turbo spin-echo MR imaging. Radiology 231:872–879.
Ohno Y, Koyama H, Nogami M et al (2007) STIR turbo SE MR imaging vs. coregistered FDG-PET/CT: quantitative and qualitative assessment of N-stage in non-small-cell lung cancer patients. J Magn Reson Imaging 26:1071–1080.
Birim O, Kappetein AP, Stijnen T, Bogers AJ (2005) Meta-analysis of positron emission tomographic and computed tomographic imaging in detecting mediastinal lymph node metastases in nonsmall cell lung cancer. Ann Thorac Surg 79:375–382.
de Langen AJ, Raijmakers P, Riphagen I (2006) The size of mediastinal lymph nodes and its relation with metastatic involvement: a meta-analysis. Eur J Cardiothorac Surg 29:26–29.
Postmus PE, Brambilla E, Chansky K et al (2007) The IASLC Lung Cancer Staging Project: proposals for revision of the M descriptors in the forthcoming (seventh) edition of the TNM classification of lung cancer. J Thorac Oncol 2:686–693.
Rami-Porta R, Bolejack V, Goldstraw P (2011) The new tumor, node, and metastasis staging system. Semin Respir Crit Care Med. 32:44–51.
Detterbeck FC, Postmus PE, Tanoue LT (2013) The stage classification of lung cancer: Diagnosis and management of lung cancer, 3rd ed: American College of Chest Physicians evidence-based clinical practice guidelines. Chest 143(5 Suppl):e191S–210S.
Gould MK, Donington J, Lynch WR et al (2013) Evaluation of individuals with pulmonary nodules: when is it lung cancer? Diagnosis and management of lung cancer, 3rd ed: American College of Chest Physicians evidence-based clinical practice guidelines. Chest 143(5 Suppl):e93S–120S.
Ohno Y, Koyama H, Onishi Y et al (2008) Non-small cell lung cancer: whole-body MR examination for M-stage assessment—utility for whole-body diffusion-weighted imaging compared with integrated FDG PET/CT. Radiology 248:643–654.
Viney RC, Boyer MJ, King MT et al (2004) Randomized controlled trial of the role of positron emission tomography in the management of stage I and II non-small-cell lung cancer. J Clin Oncol 22:2357–2362.
MacManus MP, Hicks RJ, Matthews JP et al (2001) High rate of detection of unsuspected distant metastases by PET in apparent stage III non-small-cell lung cancer: implications for radical radiation therapy. Int J Radiat Oncol Biol Phys 50:287–293.
van Tinteren H, Hoekstra OS, Smit EF et al (2002) Effectiveness of positron emission tomography in the preoperative assessment of patients with suspected non-small-cell lung cancer: the PLUS multicentre randomised trial. Lancet 359:1388–1393.
Boland GW, Lee MJ, Gazelle GS et al (1998) Characterization of adrenal masses using unenhanced CT: an analysis of the CT literature. AJR AM J Roentgenol 171:201–204.
Pena CS, Boland GW, Hahn PF et al (2000) Characterization of indeterminate (lipid-poor) adrenal masses: use of washout characteristics at contrast-enhanced CT. Radiology 217:798–802.
Boland GW, Hahn PF, Pena C, Mueller PR (1997) Adrenal masses: characterization with delayed contrast-enhanced CT. Radiology 202:693–696.
Boland GW, Lee MJ (1995) Magnetic resonance imaging of the adrenal gland. Crit Rev Diagn Imaging 36:115–174.
Outwater EK, Siegelman ES, Huang AB, Birnbaum BA (1996) Adrenal masses: correlation between CT attenuation value and chemical shift ratio at MR imaging with in-phase and opposed-phase sequences. Radiology 200:749–752.
Schwartz LH, Ginsberg MS, Burt ME et al (1998) MRI as an alternative to CT-guided biopsy of adrenal masses in patients with lung cancer. Ann Thorac Surg 65:193–197.
Boland GW, Dwamena BA, Jagtiani Sangwaiya M et al (2011) Characterization of adrenal masses by using FDG PET: a systematic review and meta-analysis of diagnostic test performance. Radiology 259:117–126.
Kozower BD, Meyers BF, Reed CE (2008) Does positron emission tomography prevent nontherapeutic pulmonary resections for clinical stage IA lung cancer? Ann Thorac Surg 85:1166–1169; discussion 1169–1170.
Min JW, Um SW, Yim JJ et al (2009) The role of whole-body FDG PET/CT, Tc 99m MDP bone scintigraphy, and serum alkaline phosphatase in detecting bone metastasis in patients with newly diagnosed lung cancer. J Korean Med Sci 24:275–280.
Qu X, Huang X, Yan W et al (2012) A meta-analysis of (1)(8)FDG-PET-CT, (1)(8)FDG-PET, MRI and bone scintigraphy for diagnosis of bone metastases in patients with lung cancer. Eur J Radiol 81:1007–1015.
Liu N, Ma L, Zhou W et al (2010) Bone metastasis in patients with non-small cell lung cancer: the diagnostic role of F-18 FDG PET/CT. Eur J Radiol 74:231–235.
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Vilar, J., Erasmus, J.J. (2015). Update in the Diagnosis and Staging of Lung Cancer. In: Hodler, J., von Schulthess, G.K., Kubik-Huch, R.A., Zollikofer, C.L. (eds) Diseases of the Chest and Heart 2015–2018. Springer, Milano. https://doi.org/10.1007/978-88-470-5752-4_1
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DOI: https://doi.org/10.1007/978-88-470-5752-4_1
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