Introduction Adenocarcinoma is the most common histologic type of lung cancer. To address advances in oncology, molecular biology, pathology, radiology, and surgery of lung adenocarcinoma, an international multidisciplinary classification was sponsored by the International Association for the Study of Lung Cancer, American Thoracic Society, and European Respiratory Society. This new adenocarcinoma classification is needed to provide uniform terminology and diagnostic criteria, especially for bronchioloalveolar carcinoma (BAC), the overall approach to small nonresection cancer specimens, and for multidisciplinary strategic management of tissue for molecular and immunohistochemical studies. Methods An international core panel of experts representing all three societies was formed with oncologists/pulmonologists, pathologists, radiologists, molecular biologists, and thoracic surgeons. A systematic review was performed under the guidance of the American Thoracic Society Documents Development and Implementation Committee. The search strategy identified 11,368 citations of which 312 articles met specified eligibility criteria and were retrieved for full text review. A series of meetings were held to discuss the development of the new classification, to develop the recommendations, and to write the current document. Recommendations for key questions were graded by strength and quality of the evidence according to the Grades of Recommendation, Assessment, Development, and Evaluation approach. Results The classification addresses both resection specimens, and small biopsies and cytology. The terms BAC and mixed subtype adenocarcinoma are no longer used. For resection specimens, new concepts are introduced such as adenocarcinoma in situ (AIS) and minimally invasive adenocarcinoma (MIA) for small solitary adenocarcinomas with either pure lepidic growth (AIS) or predominant lepidic growth with ≤5 mm invasion (MIA) to define patients who, if they undergo complete resection, will have 100% or near 100% disease-specific survival, respectively. AIS and MIA are usually nonmucinous but rarely may be mucinous. Invasive adenocarcinomas are classified by predominant pattern after using comprehensive histologic subtyping with lepidic (formerly most mixed subtype tumors with nonmucinous BAC), acinar, papillary, and solid patterns; micropapillary is added as a new histologic subtype. Variants include invasive mucinous adenocarcinoma (formerly mucinous BAC), colloid, fetal, and enteric adenocarcinoma. This classification provides guidance for small biopsies and cytology specimens, as approximately 70% of lung cancers are diagnosed in such samples. Non-small cell lung carcinomas (NSCLCs), in patients with advanced-stage disease, are to be classified into more specific types such as adenocarcinoma or squamous cell carcinoma, whenever possible for several reasons: (1) adenocarcinoma or NSCLC not otherwise specified should be tested for epidermal growth factor receptor (EGFR) mutations as the presence of these mutations is predictive o...
This classification is intended to support clinical practice as well as research investigation and clinical trials.
Strong recommendations apply to most patients, whereas weak recommendations are sensitive to differences among patients, including their preferences.
we suggest that no additional diagnostic evaluation need be performed (Grade 2C) .Remark : This recommendation applies only to solid nodules. For guidance about follow-up of subsolid nodules, see Recommendations 6.5.1 to 6.5.4 . 2.3.3.In the individual with an indeterminate nodule that is identifi ed by chest radiography, we recommend that CT of the chest should be performed (preferably with thin sections Objectives: The objective of this article is to update previous evidence-based recommendations for evaluation and management of individuals with solid pulmonary nodules and to generate new recommendations for those with nonsolid nodules. Methods: We updated prior literature reviews, synthesized evidence, and formulated recommendations by using the methods described in the "Methodology for Development of Guidelines for Lung Cancer" in the American College of Chest Physicians Lung Cancer Guidelines, 3rd ed. Results: We formulated recommendations for evaluating solid pulmonary nodules that measure . 8 mm in diameter, solid nodules that measure Յ 8 mm in diameter, and subsolid nodules. The recommendations stress the value of assessing the probability of malignancy, the utility of imaging tests, the need to weigh the benefi ts and harms of different management strategies (nonsurgical biopsy, surgical resection, and surveillance with chest CT imaging), and the importance of eliciting patient preferences. Conclusions: Individuals with pulmonary nodules should be evaluated and managed by estimating the probability of malignancy, performing imaging tests to better characterize the lesions, evaluating the risks associated with various management alternatives, and eliciting their preferences for management. CHEST 2013; 143(5)(Suppl):e93S-e120SAbbreviations: AAH 5 atypical adenomatous hyperplasia; ACCP 5 American College of Chest Physicians; AIS 5 adenocarcinoma in situ; EBUS 5 endobronchial ultrasound; ENB 5 electromagnetic navigation bronchoscopy; FDG 5 fl uorodeoxyglucose; HU 5 Hounsfi eld unit; LR 5 likelihood ratio; SPECT 5 single-photon emission CT; TBB 5 transbronchial biopsy; TTNB 5 transthoracic needle biopsy; VATS 5 video-assisted thoracic surgery; VBN 5 virtual bronchoscopy navigation; VDT 5 volume doubling time
Bach reported that he has received speaking fees from Genentech. Dr. Detterbeck reported that he was reimbursed for travel costs associated with his work on the Oncimmune advisory board, and has participated without compensation in a symposium on CT screening sponsored by Covidien. Dr.Berry reported that he is co-owner of Berry Consultants LLC which designs adaptive clinical trials for pharmaceutical companies, medical device companies and NIH cooperative groups. To the best of his knowledge none of these parties have any interest in lung cancer screening. Dr. Gould reported that he receives grant support from the National Cancer Institute. Dr. Jett reported that he has grants pending for work related to screening and early detection of lung cancer with Oncimmune and Isense. Dr. Sabichi reported her membership on the National Cancer Institute's PDQ Prevention and Screening Editorial Board and her possession of a pending patent for a test for the detection of bladder cancer. Dr. Wood reported his participation in the development of the National Comprehensive Cancer Network's clinical practice guidelines for lung cancer screening in his role as Chair of the NCCN Lung Cancer Screening Panel.
(Grade 2C) prophylaxis be used other than early ambulation. For patients at low risk for VTE ( ف 1.5%), we suggest mechanical prophylaxis, preferably with intermittent pneumatic compression (IPC), over no prophylaxis (Grade 2C). For patients at moderate risk for VTE ( ف 3%) who are not at high risk for major bleeding complications, we suggest low-molecular-weight heparin (LMWH) (Grade 2B), low-dose unfractionated heparin (Grade 2B), or mechanical prophylaxis with IPC (Grade 2C) over no prophylaxis. For patients at high risk for VTE ( ف 6%) who are not at high risk for major bleeding complications, we recommend pharmacologic prophylaxis with LMWH (Grade 1B) or low-dose unfractionated heparin (Grade 1B) over no prophylaxis. In these patients, we suggest adding mechanical prophylaxis with elastic stockings or IPC to pharmacologic prophylaxis (Grade 2C). For patients at high risk for VTE undergoing abdominal or pelvic surgery for cancer, we recommend extended-duration, postoperative, pharmacologic prophylaxis (4 weeks) with LMWH over limited-duration prophylaxis (Grade 1B). For patients at moderate to high risk for VTE who are at high risk for major bleeding complications or those in whom the consequences of bleeding are believed to be particularly severe, we suggest use of mechanical prophylaxis, preferably with IPC, over no prophylaxis until the risk of bleeding diminishes and pharmacologic prophylaxis may be initiated (Grade 2C). For patients in all risk groups, we suggest that an inferior vena cava fi lter not be used for primary VTE prevention (Grade 2C) and that surveillance with venous compression ultrasonography should not be performed (Grade 2C). We developed similar recommendations for other nonorthopedic surgical populations. Conclusions: Optimal thromboprophylaxis in nonorthopedic surgical patients will consider the risks of VTE and bleeding complications as well as the values and preferences of individual patients. CHEST 2012; 141(2)(Suppl):e227S-e277SAbbreviations: CABG 5 coronary artery bypass graft; ES 5 elastic stockings; ICH 5 intracranial hemorrhage; IPC 5 intermittent pneumatic compression; IVC 5 inferior vena cava; LDUH 5 low-dose unfractionated heparin; LMWH 5 low-molecular-weight heparin; PE 5 pulmonary embolism; QALY 5 quality-adjusted life year; RR 5 risk ratio; VCU 5 venous compression ultrasonography
Positron emission tomography with 18-fluorodeoxyglucose is an accurate noninvasive imaging test for diagnosis of pulmonary nodules and larger mass lesions, although few data exist for nodules smaller than 1 cm in diameter. In current practice, FDG-PET has high sensitivity and intermediate specificity for malignancy.
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