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  • Author: Raymond U. Osarogiagbon x
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David S. Ettinger, Wallace Akerley, Hossein Borghaei, Andrew Chang, Richard T. Cheney, Lucian R. Chirieac, Thomas A. D'Amico, Todd L. Demmy, Apar Kishor P. Ganti, Ramaswamy Govindan, Frederic W. Grannis, Leora Horn, Thierry M. Jahan, Mohammad Jahanzeb, Anne Kessinger, Ritsuko Komaki, Feng-Ming (Spring) Kong, Mark G. Kris, Lee M. Krug, Inga T. Lennes, Billy W. Loo, Renato Martins, Janis O'Malley, Raymond U. Osarogiagbon, Gregory A. Otterson, Jyoti D. Patel, Mary Pinder Schenck, Katherine M. Pisters, Karen Reckamp, Gregory J. Riely, Eric Rohren, Scott J. Swanson, Douglas E. Wood and Stephen C. Yang

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David S. Ettinger, Wallace Akerley, Hossein Borghaei, Andrew C. Chang, Richard T. Cheney, Lucian R. Chirieac, Thomas A. D’Amico, Todd L. Demmy, Apar Kishor P. Ganti, Ramaswamy Govindan, Frederic W. Grannis Jr, Leora Horn, Thierry M. Jahan, Mohammad Jahanzeb, Anne Kessinger, Ritsuko Komaki, Feng-Ming (Spring) Kong, Mark G. Kris, Lee M. Krug, Inga T. Lennes, Billy W. Loo Jr, Renato Martins, Janis O’Malley, Raymond U. Osarogiagbon, Gregory A. Otterson, Jyoti D. Patel, Mary C. Pinder-Schenck, Katherine M. Pisters, Karen Reckamp, Gregory J. Riely, Eric Rohren, Scott J. Swanson, Douglas E. Wood, Stephen C. Yang, Miranda Hughes and Kristina M. Gregory

Most patients with non–small cell lung cancer (NSCLC) are diagnosed with advanced cancer. These guidelines only include information about stage IV NSCLC. Patients with widespread metastatic disease (stage IV) are candidates for systemic therapy, clinical trials, and/or palliative treatment. The goal is to identify patients with metastatic disease before initiating aggressive treatment, thus sparing these patients from unnecessary futile treatment. If metastatic disease is discovered during surgery, then extensive surgery is often aborted. Decisions about treatment should be based on multidisciplinary discussion.

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Jaffer A. Ajani, James S. Barthel, David J. Bentrem, Thomas A. D'Amico, Prajnan Das, Crystal S. Denlinger, Charles S. Fuchs, Hans Gerdes, Robert E. Glasgow, James A. Hayman, Wayne L. Hofstetter, David H. Ilson, Rajesh N. Keswani, Lawrence R. Kleinberg, W. Michael Korn, A. Craig Lockhart, Mary F. Mulcahy, Mark B. Orringer, Raymond U. Osarogiagbon, James A. Posey, Aaron R. Sasson, Walter J. Scott, Stephen Shibata, Vivian E. M. Strong, Thomas K. Varghese Jr., Graham Warren, Mary Kay Washington, Christopher Willett and Cameron D. Wright

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David S. Ettinger, Wallace Akerley, Gerold Bepler, Matthew G. Blum, Andrew Chang, Richard T. Cheney, Lucian R. Chirieac, Thomas A. D'Amico, Todd L. Demmy, Apar Kishor P. Ganti, Ramaswamy Govindan, Frederic W. Grannis Jr., Thierry Jahan, Mohammad Jahanzeb, David H. Johnson, Anne Kessinger, Ritsuko Komaki, Feng-Ming Kong, Mark G. Kris, Lee M. Krug, Quynh-Thu Le, Inga T. Lennes, Renato Martins, Janis O'Malley, Raymond U. Osarogiagbon, Gregory A. Otterson, Jyoti D. Patel, Katherine M. Pisters, Karen Reckamp, Gregory J. Riely, Eric Rohren, George R. Simon, Scott J. Swanson, Douglas E. Wood and Stephen C. Yang

OverviewLung cancer is the leading cause of cancer-related death in the United States. An estimated 219,440 new cases (116,090 men; 103,350 women) of lung and bronchus cancer were diagnosed in 2009, and 159,390 deaths (88,900 men; 70,490 women) occurred from the disease.1 Only 15% of all lung cancer patients are alive 5 years or more after diagnosis (http://seer.cancer.gov/statfacts/html/lungb.html). Common symptoms of lung cancer include cough, dyspnea, weight loss, and chest pain; symptomatic patients are more likely to have chronic obstructive pulmonary disease.The primary risk factor for lung cancer is smoking, which accounts for more than 85% of all lung cancer-related deaths.2 The risk for lung cancer increases with the number of cigarettes smoked per day and the number of years spent smoking. In addition to the hazard of first-hand smoke, exposed nonsmokers have an increased relative risk for developing lung cancer.3 Radon gas, a radioactive gas that is produced by the decay of radium 226, is the second leading cause of lung cancer.4 The decay of this isotope leads to the production of substances that emit alpha-particles, which may cause cell damage and therefore increase the potential for malignant transformation. Data suggest that postmenopausal women who smoke or are former smokers should not undergo hormone replacement therapy, because it increases the risk for death from non–small cell lung cancer (NSCLC).5Asbestos, a mineral compound that breaks into small airborne shards, is a known carcinogen that increases the risk for lung cancer in people exposed to the airborne fibers,...
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Jaffer A. Ajani, James S. Barthel, Tanios Bekaii-Saab, David J. Bentrem, Thomas A. D'Amico, Prajnan Das, Crystal Denlinger, Charles S. Fuchs, Hans Gerdes, James A. Hayman, Lisa Hazard, Wayne L. Hofstetter, David H. Ilson, Rajesh N. Keswani, Lawrence R. Kleinberg, Michael Korn, Kenneth Meredith, Mary F. Mulcahy, Mark B. Orringer, Raymond U. Osarogiagbon, James A. Posey, Aaron R. Sasson, Walter J. Scott, Stephen Shibata, Vivian E. M. Strong, Mary Kay Washington, Christopher Willett, Douglas E. Wood, Cameron D. Wright and Gary Yang

OverviewCancers originating in the esophagus, gastroesophageal junctions, and stomach constitute a major health problem worldwide. In the United States, 37,600 new diagnoses of and 25,150 deaths from upper gastrointestinal cancers were estimated in 2009.1 A dramatic shift in the location of upper gastrointestinal tumors has occurred in the United States,2 and changes in histology and location of them were observed in some parts of Europe.3,4 In countries in the Western Hemisphere, the most common sites of gastric cancer are the proximal lesser curvature, cardia, and gastroesophageal junction.2 These changing trends may also begin to occur in South America and Asia.EpidemiologyGastric cancer is rampant in many countries around the world. In Japan, it remains the most common type of cancer among men; in China, more new cases are diagnosed each year than in any other country. The incidence of gastric cancer, however, has been declining globally since World War II and it is one of the least common cancers in North America. By some estimates, it is the fourth most common cancer worldwide.5 In 2009, 21,130 new diagnoses of gastric cancer were estimated in the United States and 10,620 deaths expected.1 In developed countries, the incidence of gastric cancer originating from the cardia follows the distribution of esophageal cancer.6–8 Noncardia gastric adenocarcinoma has marked geographic variation, with countries such as Japan, Korea, China, Taiwan, Costa Rica, Peru, Brazil, Chile, and the former Soviet Union showing a high incidence.9 In contrast to the incidence trends in the West, nonproximal...
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David S. Ettinger, Wallace Akerley, Gerold Bepler, Matthew G. Blum, Andrew Chang, Richard T. Cheney, Lucian R. Chirieac, Thomas A. D'Amico, Todd L. Demmy, Ramaswamy Govindan, Frederic W. Grannis Jr., Thierry Jahan, David H. Johnson, Anne Kessinger, Ritsuko Komaki, Feng-Ming Kong, Mark G. Kris, Lee M. Krug, Quynh-Thu Le, Inga T. Lennes, Renato Martins, Janis O'Malley, Raymond U. Osarogiagbon, Gregory A. Otterson, Jyoti D. Patel, Katherine M. Pisters, Karen Reckamp, Gregory J. Riely, Eric Rohren, Scott J. Swanson, Douglas E. Wood and Stephen C. Yang

Overview Masses in the anterior mediastinum include neoplasms (e.g., thymomas, lymphomas, thymic carcinomas, thymic carcinoids, thymolipomas, germ cell tumors, parathyroid adenomas) or nonneoplastic conditions (e.g., intrathoracic goiter, thymic cysts, lymphangiomas, aortic aneurysms).1,2 Thymomas are the most common tumor in the anterior mediastinum.1,3,4 Many mediastinal masses are benign, especially those occurring in asymptomatic patients; however, symptomatic patients often have malignant mediastinal lesions. These guidelines outline the evaluation, treatment, and management of thymomas and thymic carcinomas (see Thymic Masses, opposite column). The WHO histologic classification system can be used to distinguish among thymomas, thymic carcinomas, and thymic carcinoids.3 Lymphomas typically manifest as generalized disease but can also be primary anterior mediastinal lesions (i.e., nodular sclerosing Hodgkin disease and non-Hodgkin's lymphomas [large B-cell lymphoma and lymphoblastic lymphoma]); patients typically have lymphadenopathy [see the NCCN Clinical Practice Guidelines in Oncology {NCCN Guidelines} for Non-Hodgkin's Lymphomas and Hodgkin Lymphoma].2,5 Thymic carcinoids are rare tumors that are discussed in the NCCN Guidelines for Neuroendocrine Tumors. Teratomas are discussed in the NCCN Guidelines for Testicular Cancer. (To view the most recent version of these guidelines, visit the NCCN Web site at www.NCCN.org.) Thymic Masses All patients with a mediastinal mass should undergo studies to determine the type of mass and extent of disease; these tests should include chest CT with contrast, fludeoxyglucose (FDG)–PET, radiolabeled octreotide scan (optional), complete blood cell counts, and platelets. Pulmonary function tests and MRI of the chest can also be done if clinically indicated. On CT, thymoma can look like malignant mesothelioma; however,...