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Como International Conference Position Statement^*

Lung Cancer Screening for Early Diagnosis 5 Years After The 1998 Varese Conference

Gary M. Strauss, MD, MPH; Lorenzo Dominioni, MD; James R. Jett, MD; Matthew Freedman, MD, MBA and Frederic W. Grannis, Jr, MD

^* From the Division of Medical Oncology (Dr. Strauss), Brown Medical School and Rhode Island Hospital, Providence, RI; Center for Thoracic Surgery (Dr. Dominioni), University of Insubria, Varese, Italy; the Division of Pulmonary Medicine (Dr. Jett), Mayo Clinic, Rochester, MN; Imaging Science and Information Systems Research Center (Dr. Freedman), Department of Oncology, Georgetown University, Washington, DC; and the Department of Thoracic Surgery (Dr. Grannis), City of Hope National Medical Center, Duarte, CA. Cosponsors of the Como International Conference include Facoltà di Medicina e Chirurgia, University of Insubria, Varese, Italy; the Department of Medicine, Rhode Island Hospital and Brown Medical School, Providence, RI; and the American Cancer Society, Atlanta, GA. This position statement, however, has not received the endorsement of the American Cancer Society.

Correspondence to: Gary M. Strauss, MD, MPH, Division of Medical Oncology, Rhode Island Hospital, Brown Medical School, 593 Eddy St, Providence, RI 02903; e-mail: gstrauss{at}lifespan.org

	Abstract

TOP Abstract Introduction The 1998 Varese Conference Como Conference: Position... Como Conference Recommendations Appendix References

 
Background: Lung cancer is the most common cause of cancer death in the world. Nonetheless, public policy organizations have consistently recommended against screening for lung cancer, with the result that screening is not widely practiced. The Como Conference was undertaken to consider the need for a change in the existing recommendations against screening.

Purpose: The primary objective of the Como Conference was to consider whether there is sufficient scientific evidence to advise screening for lung cancer among asymptomatic individuals outside the context of a clinical trial. Methodological issues that are relevant to the proper interpretation of early detection trials were carefully considered. Advantages and problems associated with technological advances in CT scans and digital chest radiographs (CXRs) were fully explored. Economic issues relevant to screening were also considered.

Recommendations: It is recommended that physicians assume responsibility for informing high-risk individuals regarding options for screening for lung cancer. Targeted high-risk individuals include middle-aged or elderly men and women who are current or former cigarette smokers of > 20 to 30 pack-years without serious medical comorbidities. It is recommended that such persons be informed that symptomatic lung cancer is usually advanced and incurable, while surgery for early lung cancer offers a far better chance of cure. They should also be informed about advances in imaging technology, as they relate to CT scans and CXRs.

Conclusions: Whenever possible, high-risk individuals should be encouraged to enroll in ongoing trials. For subjects who, though eligible, do not have access to such trials, a process of shared decision-making between physicians and at-risk individuals is strongly recommended. After discussion of the existing state of knowledge, high-risk individuals should be made aware that it is reasonable for them to choose to undergo testing for lung cancer.

Key Words: chest roentgenogram • cigarette smoking • computed tomography • consensus statement • early detection • lung cancer • mortality • overdiagnosis bias • screening • survival

	Introduction

TOP Abstract Introduction The 1998 Varese Conference Como Conference: Position... Como Conference Recommendations Appendix References

 
The Como International Conference on lung cancer screening for early diagnosis was held in Como, Italy, on November 8, 2003. The primary objective of the Como Conference was to consider the available evidence regarding screening for lung cancer and to determine whether testing should be offered to asymptomatic individuals who are at high-risk for the disease.

Currently, lung cancer is the most common cancer in the world. This is true both with regard to incidence (1.2 million new cases annually representing 12.3% of all cancers) and mortality (1.1 million annual deaths or 17.8% of total cancer mortality).¹ Despite the global burden of disease, the absence of unequivocal evidence from previous randomized controlled trials²³⁴⁵⁶ has prevented screening from being recommended by any public policy organization. Instead, strategies directed toward reducing lung cancer mortality have focused almost exclusively on tobacco control. Diagnostic procedures to detect lung cancer have traditionally been recommended only when symptoms develop. However, it has long been recognized that symptomatic lung cancer is usually advanced-stage disease. Moreover, advanced-stage lung cancer is almost always fatal.

	The 1998 Varese Conference

TOP Abstract Introduction The 1998 Varese Conference Como Conference: Position... Como Conference Recommendations Appendix References

 
Five years ago, the "International Conference on Prevention and Early Diagnosis of Lung Cancer" was held in Varese, Italy. The proceedings of the Varese Conference,⁷ which was published in 2000 and included 34 articles, provides one of the most comprehensive sources of information on this subject that has ever appeared in the medical literature.

At the completion of the Varese Conference, a consensus statement was generated.⁸⁹ With regard to prevention, the statement reaffirmed the fact that "because cigarette smoking is the vastly predominant cause, lung cancer is almost entirely preventable." However, it also pointed out that "even after quitting, long term smokers remain at high-risk for prolonged periods."

The consensus statement also recognized the more favorable prognosis of lung cancer treated at an early stage. For example, it asserted that among those with lung cancer, "outcome is dramatically better when the disease is detected at an early stage and surgically treated. Unfortunately, at this time, the majority of lung cancers are diagnosed when the disease is overtly symptomatic, and in an advanced stage when prognosis is extremely poor."

While the consensus statement recognized the potential of early detection to improve outcome in lung cancer, a consensus was not reached that screening for lung cancer should be offered outside the context of an experimental trial. Because of ambiguities in the data, the consensus statement concluded that existing studies provide us "with an imperfect basis for health policy."

The Varese Conference helped to revitalize interest in screening for lung cancer.¹⁰ Based on recommendations from the Varese Conference, the American Cancer Society (ACS) modified its narrative about testing for early lung cancer detection.¹¹¹²¹³ While not recommending screening, the ACS endorsed the practice that individuals who are at high-risk for lung cancer should be informed about their risk, and that those who seek testing for early lung cancer detection should be informed about options for testing for early detection, and about the current state of knowledge on its risks, benefits, and harms, so that they could make an informed decision. The ACS also stressed the importance of quality control and appropriate follow-up.

The Varese Conference was an important catalytic event that helped to reawaken interest in lung cancer screening. It helped to establish that the existing scientific evidence about screening was not a sound basis for the prevailing view that lung cancer screening was ineffective. Nonetheless, although a substantial body of evidence suggests that testing for early lung cancer has the potential to reduce lung cancer deaths,¹⁰¹⁴ screening for lung cancer continues to be viewed in the mainstream as experimental. Accordingly, testing for the early detection of lung cancer is not widely practiced outside the context of a clinical trial.

Five years after the Varese Conference, the Como Conference was held to consider whether there existed a sufficient scientific basis to go beyond the 1998 Varese consensus statement. The particular emphasis was on considering what might be offered to those high-risk individuals who are not participating in an existing clinical trial.

	Como Conference: Position Statement

TOP Abstract Introduction The 1998 Varese Conference Como Conference: Position... Como Conference Recommendations Appendix References

 
Several studies on screening for lung cancer are currently ongoing in many parts of the world. These include randomized trials in the United States and Europe,¹⁵¹⁶ as well as the International Early Lung Cancer Action Project.¹⁷ Whenever possible, high-risk individuals should be strongly encouraged to participate in available trials. It is critical that these trials be completed in a timely manner, because they will provide the most definitive evidence with regard to the benefit and risks of screening for lung cancer.

Both clinicians and individuals who are at high risk for lung cancer presently do not have specific or consistent guidance about the balance of benefit and harm that is associated with testing for the early detection of lung cancer. While the results of early randomized trials were not definitive due to known methodological limitations, and observational studies also have known limitations, a better prognosis and more successful treatment have been consistently evident when lung cancer is diagnosed and treated at an early stage. Moreover, new imaging technologies have been developed over the last 10 years that can detect smaller cancers. For these reasons, it is reasonable that individuals who are at high risk for lung cancer should be informed about their risk, and what is known and unknown about the potential benefits, limitations, and harms associated with testing for early lung cancer detection.^89111213

	Como Conference Recommendations

TOP Abstract Introduction The 1998 Varese Conference Como Conference: Position... Como Conference Recommendations Appendix References

 
Individuals who are at high risk for lung cancer should undergo a discussion with their physician regarding lung cancer risk and the options for testing for the early detection of lung cancer. High-risk individuals include men and women who are > 45 to 50 years of age, who are current or former cigarette smokers with at least 20 to 30 pack-years of cumulative exposure, and who do not have life-limiting comorbidities. Although there remain uncertainties regarding the benefits and risks associated with lung cancer screening, we think that it is wrong for these discussions not to take place. It is recommended that such discussion should include the following points:

Smoking cessation should be strongly urged for current smokers, and assistance for smoking cessation should be provided.

Former smokers should be informed about their continuing risk of lung cancer.

Whenever possible, high-risk individuals should be strongly encouraged to participate in available trials, or protocol-controlled observational studies.

Individuals who are at high risk for lung cancer should be informed that symptomatic lung cancer is usually in an advanced stage and is usually incurable.

Treatment of early stage lung cancer with surgical resection offers a better chance for a successful outcome.

Available methods of imaging for the early detection of lung cancer in asymptomatic subjects include the chest radiograph (CXR) and CT scan.

There have been the following major recent advances in imaging technology: multi-slice CT scanning; and energy subtraction and computer-aided detection for CXRs.

The available data show that the CT scan is a more powerful imaging tool than CXR for detecting smaller cancers. However, the CT scan also detects a high rate of noncalcified nodules, most of which are benign. While indeterminate, they nonetheless require further evaluation. Further evaluation includes returning for additional imaging tests after 3 to 6 months or biopsy. Lung biopsy procedures, including surgery, carry a significant risk of complications.

After discussion of the current state of knowledge, it is reasonable for an individual at risk to choose to undergo testing for lung cancer.

Medical and public health organizations should work together to develop educational materials that facilitate shared decision making between at-risk individuals and their medical providers. Such materials should inform doctors and patients about the risk of lung cancer in current and former smokers, and, particularly, should dispel the misconception that stopping smoking begins a process of reducing risk to the level of a never-smoker.

Any testing for lung cancer, if it is performed, should take place in settings with experience in the interpretation of imaging procedures for the detection of small lung cancers, and there should be ready access to multidisciplinary teams who work in a coordinated manner for further evaluation and follow-up.¹² Efforts should be made to minimize anxiety and the performance of unnecessary invasive procedures.

	Appendix

TOP Abstract Introduction The 1998 Varese Conference Como Conference: Position... Como Conference Recommendations Appendix References

 
A Brief Consideration of the Evidence
The objective of this position statement is to encourage clinicians and high-risk individuals to consider both the benefits and risks associated with screening for lung cancer. While it does not recommend a specific "best" screening strategy, it is intended to convey the concept that accumulating evidence over the last 5 years supports the conclusion that screening for lung cancer, either with a CXR or a CT scan, is a reasonable option. To facilitate discussions between clinicians and patients, a brief consideration of the evidence on lung cancer screening is appropriate.

The epidemiologic and clinical rationale for screening for lung cancer is strong. Lung cancer is the most common and most deadly malignancy in the world.¹ When diagnosed on the basis of signs or symptoms, lung cancer is usually incurable and lethal. Indeed, in the United States 60% of lung cancer patients die within 1 year of diagnosis.¹⁸ Because screening for lung cancer is not widely practiced, the vast majority of patients are symptomatic at diagnosis. Accordingly, the 5-year survival rate in persons with lung cancer is 11% worldwide and 14% in the United States.¹¹⁹ Among patients with lung cancer, 85% will actually die from their disease.²⁰

In dramatic contrast, lung cancer is highly curable when complete resection is performed for stage I non-small cell lung cancer. Among patients with stage I disease, cure rates increase with decreasing tumor size. For example, cure rates are 69% when the tumor size is < 1.5 cm compared to 43% when the tumor size is > 4.5 cm.²¹

The question of whether evidence exists from randomized trials that screening for lung cancer is superior to no screening is controversial. It is true that the findings of three National Cancer Institute (NCI)-sponsored randomized trials⁴²²²³ in the United States and a randomized trial from Czechoslovakia²⁴ that was conducted in the 1970s and 1980s have been interpreted as indicating that CXR screening was ineffective. This is because of a failure to demonstrate significant reductions in lung cancer mortality in populations that were randomized to CXR screening. On the other hand, these same trials have consistently demonstrated significant and rather dramatic improvements in long-term survival in experimental populations.

In the Mayo Lung Project,²⁵ the 5-year survival rate was more than twofold higher in the group randomized to CXR screening (33% vs 15%, respectively).While the Memorial Sloan-Kettering Project²⁶ and the Johns Hopkins Lung Project²⁷ failed to demonstrate an advantage for the addition of sputum cytology investigation to an annual CXR alone, long-term survival was far superior to the contemporary data.²⁸ In the Memorial Sloan-Kettering study,²⁶ the 5-year survival rate was 35% in both groups.

Screening has been interpreted as being ineffective, because the mortality/survival discrepancy has been interpreted as indicating that CXR screening led to the overdiagnosis of lung cancer.^2930313233 However, this has been a point of debate. A direct analysis of the data has suggested that the overdiagnosis was minimal and does not account for the survival/mortality discrepancies in these trials.³⁴³⁵

Indeed, long-term survival was only achieved among those persons undergoing surgical resection in these trials.³⁵³⁶ In the Mayo Lung Project,¹⁴ there were no long-term survivors among 185 lung cancer patients who did not undergo resection. In dramatic contrast, 50% of 181 resected patients were cured. Sobue et al³⁷ have reported similar findings from Japan. There is, accordingly, no direct evidence that many nonlethal or "lanthanic"³⁸³⁹ lung cancers exist.

Furthermore, a recent analysis⁴⁰ has indicated that overdiagnosis secondary to comorbid disease is minimal in lung cancer. Read et al⁴⁰ examined the records of 11,558 patients with lung, breast, prostate, and colon cancers, and concluded that concurrent comorbidity had the greatest prognostic impact among groups with the most favorable survival (ie, those patients with localized prostate cancer and breast cancer) and the least impact among groups with the poorest survival rates, which included most patients with lung cancer.⁴⁰

An important question is whether a CXR or a CT scan should be the preferred method of screening. There is no question that the CT scan represents a technological advance and has much greater sensitivity than the conventional CXR. The conventional CXR is known to be scarcely sensitive to the presence of tumors that are < 2 cm in diameter.¹⁰⁴¹

A CT scan is clearly capable of detecting lesions than are too small to be reliably detected on a conventional CXR. In four nonrandomized studies,^42434445 which included two in the United States⁴³⁴⁴ and two in Japan,⁴²⁴⁵ 52% to 85% of cancers detected by CT scan were small stage IA lesions. In each study, many CT scan-detected cancers were not visible on a CXR. The ability to detect small early-stage cancers has the potential to translate into substantial improvements in survival.

Indeed, impressively high survival was reported from the Anti-Lung Cancer Association Project in Japan.⁴⁵ Among 36 lung cancers that were detected on initial or repeat screening, the overall 5-year survival rate was 71% (95% confidence interval, 52 to 90%).⁴⁵

However, unresolved issues remain with regard to CT scan screening. Problems with specificity have led to a high rate of false-positive findings in these observational studies.^43444546 A higher false-positive rate with CT scans compared to CXRs was recently reported in the NCI-sponsored Lung Screening Study.⁴⁷ In this randomized trial, which included 3,318 current or former smokers, false-positive findings were observed in 18.6% and 9.4%, respectively, of patients in the CT scan and CXR arms.

While a CT scan is more sensitive than a CXR, the detection of nodules on a CT scan that are not due to cancer presents problems with regard to anxiety and the possibility of performing unnecessary invasive procedures. In the Anti-Lung Cancer Association study,⁴⁵ only 51% of patients (36 of 71 patients) undergoing biopsy because of nodules detected on CT scans were found to have lung cancer. To cope with this problem, the International Early Lung Cancer Action Project trial⁴⁸ used a protocol that was explicitly designed to minimize such operations for benign disease. This algorithm is updated periodically based on the total experience, and its objective is to determine what further diagnostic studies are recommended when a small nodule is detected on CT scan screening.⁴⁸ In the Mayo spiral CT scan screening trial,⁴⁹ 18% of all thoracic surgical procedures performed were for benign disease.

While the evidence supports the idea that overdiagnosis was not responsible for spurious survival advantages in older NCI-sponsored randomized trials focusing on CXR screening,³⁴ no comparable evidence yet exists with regard to CT scan screening.⁵⁰⁵¹ In the Lung Screening Study,⁴⁷ there were 30 cancers detected by CT scan compared to 7 cancers detected by CXR on baseline screening. Higher lung cancer detection rates probably reflect the increased efficiency of CT scanning in the detection of small lung cancers, with its associated longer lead time. However, it is conceivable that some of the detected cancers might never have become life-threatening during the life of the patient.

Unresolved issues with regard to false-positive findings and overdiagnosis have implications with regard to the appropriateness and cost-effectiveness of CT scan screening.^49525354 Accordingly, a definitive answer to the question of whether a CT scan is superior to a conventional CXR must await the results of ongoing randomized trials, particularly the National Lung Screening Study in the United States.⁵⁵

It should also be noted that technical advances have likely improved on the effectiveness of CXRs, as employed in the older NCI-sponsored trials. Such enhancements include digital radiography, energy subtraction, and computer-aided detection.⁵⁶ These newer CXR technologies have not been incorporated into ongoing randomized trials, including the Prostate, Lung, Colorectal and Ovarian Cancer Screening Trial⁵⁷ and the National Lung Screening Study.⁵⁵

Based on the existing evidence, high-risk individuals can be informed that if they choose to undergo screening for lung cancer, either a CXR or a CT scan is a reasonable option. It should be considered that in many parts of the world CT scanning is not widely available, and in the United States it may not be affordable by economically disadvantaged individuals. If a high-risk individual chooses to undergo screening and CT scanning is not available or affordable, annual CXR screening should be recommended.

	Footnotes

 
Abbreviations: ACS = American Cancer Society; CXR = chest radiograph; NCI = National Cancer Institute

Received for publication October 21, 2004. Accepted for publication December 14, 2004.

	References

TOP Abstract Introduction The 1998 Varese Conference Como Conference: Position... Como Conference Recommendations Appendix References

 

1. Parkin, D (2001) Global cancer statistics in the year 2000. Lancet Oncol 2,533-543[CrossRef][ISI][Medline]
2. Institute of Medicine National Research Council.. Adopting new technology in the face of uncertain science: the case of screening for lung cancer. Curry, S Byers, T Hewitt, M eds. Fulfilling the potential of cancer prevention and early detection 2003,259-293 Institute of Medicine National Research Council. Washington, DC:
3. National Cancer Institute. Screening for lung cancer: summary of evidence (PDQ). Available at: http://www.cancer.gov/cancerinfo/pdq/screening/lung/healthprofessional. Accessed March 16, 2004
4. Bach, P, Niewoehner, D, Black, W Screening for lung cancer: the guidelines. Chest 2003;123(suppl),83S-88S
5. Manser R, Irving L, Stone C, et al. Screening for lung cancer Cochrane Database Syst Rev (database online). Issue 2, 2002
6. Patz, EF, Goodman, PC, Bepler, G Screening for lung cancer. N Engl J Med 2000;343,1627-1633[Free Full Text]
7. Proceedings: International Conference on Prevention and Early Diagnosis of Lung Cancer. Cancer 2000;89(suppl),2327-2514
8. Strauss, G, Dominioni, L Meeting report: International Conference on Prevention and Early Diagnosis of Lung Cancer. Lung Cancer 1999;23,171-172[CrossRef][Medline]
9. Strauss, G, Dominioni, L Consensus Statement: International Conference on Prevention and Early Diagnosis of Lung Cancer. Cancer 2000;89,2329-2330[CrossRef]
10. Jett, J Screening for lung cancer: no longer a taboo subject. J Clin Oncol 2002;20,1959-1961[Free Full Text]
11. Smith, RA, Mettlin, CJ, Davis, KJ, et al American Cancer Society guidelines for the early detection of cancer. CA Cancer J Clin 2000;50,34-49[Abstract]
12. Smith, RA, von Eschenbach, AC, Wender, R, et al American Cancer Society guidelines for the early detection of cancer: update of early detection guidelines for prostate, colorectal, and endometrial cancers; also update 2001—testing for early lung cancer detection. CA Cancer J Clin 2001;51,38-75[Abstract/Free Full Text]
13. Smith, RA, Cokkinides, V, Eyre, H American Cancer Society guidelines for the early detection of cancer, 2003. CA Cancer J Clin 2003;53,27-43[Abstract/Free Full Text]
14. Strauss, GM The Mayo Lung Cohort: a regression analysis focusing on lung cancer incidence and mortality. J Clin Oncol 2002;20,1973-1983[Abstract/Free Full Text]
15. Ford, LG, Minasian, LM, McCaskill-Stevens, W, et al Prevention and early detection clinical trials: opportunities for primary care providers and their patients. CA Cancer J Clin 2003;53,82-101[Abstract/Free Full Text]
16. Hirsch, FR, Bunn, PA, Dmitrovsky, E, et al IV international conference on prevention and early detection of lung cancer, Reykjavik, Iceland, August 9–12, 2001. Lung Cancer 2002;37,325-344[CrossRef][Medline]
17. Henschke, CI, Yankelevitz, DF, Smith, JP, et al Screening for lung cancer: the Early Lung Cancer Action approach. Lung Cancer 2002;35,143-148[CrossRef][ISI][Medline]
18. Fry, WA, Phillips, JL, Menck, HR Ten-year survey of lung cancer treatment and survival in hospitals in the United States: a National Cancer Data Base Report. Cancer 1999;86,1867-1876[CrossRef][ISI][Medline]
19. American Cancer Society.. Cancer facts and figures: 2004. 2004,1-56 American Cancer Society. Atlanta, GA:
20. Fry, WA, Menck, HR, Winchester, DP The National Cancer Data Base report on lung cancer. Cancer 1996;77,1947-1955[CrossRef][ISI][Medline]
21. Wisnivesky, J, Yankelevitz, D, Henschke, C The effect of tumor size on curability of stage I non-small cell lung cancers. Chest 2004;126,761-765[Abstract/Free Full Text]
22. Bach, P, Kelley, M, Tate, T, et al Screening for lung cancer: a review of current literature. Chest 2003;123,72S-82S
23. Humphrey, L, Teutsch, S, Johnson, M Lung cancer screening with sputum cytologic examination, chest radiography, and computed tomography: an update for the US Preventive Services Task Force. Ann Intern Med 2004;140,740-753[Abstract/Free Full Text]
24. Kubik, A, Polak, J Lung cancer detection: results of a randomized prospective study in Czechoslovakia. Cancer 1986;57,2427-2437[CrossRef][ISI][Medline]
25. Fontana, R, Sanderson, DR, Woolner, LB, et al Lung cancer screening: the Mayo Program. J Occup Med 1986;28,746-750[ISI][Medline]
26. Melamed, MR, Flehinger, RB, Heelan, RT, et al Screening for early lung cancer: results of the Memorial-Sloan Kettering study in New York. Chest 1984;86,44-53[Abstract/Free Full Text]
27. Tockman, MS Survival and mortality from lung cancer in a screened population: the John Hopkins study. Chest 1986;89,325S-326S[Free Full Text]
28. Ries, LAG, Kasary, CL, Hankey, BF, et al SEER cancer statistics review, 1973–1995. 1998 National Cancer Institute. Bethesda, MD:
29. Eddy, D Screening for lung cancer. Ann Intern Med 1989;111,232-237[ISI][Medline]
30. Black, WC Overdiagnosis: an unrecognized cause of confusion and harm in cancer screening. J Natl Cancer Inst 2000;92,1280-1282[Free Full Text]
31. Marcus, PM, Bergstralk, EJ, Gagerstrom, RM, et al Lung cancer mortality in the Mayo Lung Project: impact of extended follow-up. J Natl Cancer Inst 2000;92,1308-1316[Abstract/Free Full Text]
32. Kubik, AK, Parkin, DM, Zatloukal, P Czech Study on Lung Cancer Screening: post-trial follow-up of lung cancer deaths up to year 15 since enrollment. Cancer 2000;89(suppl),2363-2368
33. Parkin, DM, Moss, SM Lung cancer screening: improved survival and no reduction in deaths; what is the role of "overdiagnosis"? Cancer 2000;89,2369-2376[CrossRef][ISI][Medline]
34. Yankelevitz, DF, Kostis, WJ, Henschke, CI, et al Overdiagnosis in chest radiographic screening for lung carcinoma: frequency. Cancer 2003;97,1271-1275[CrossRef][ISI][Medline]
35. Flehinger, BJ, Kimmel, M, Melamed, MR The effect of surgical treatment on survival from early lung cancer: implications for screening. Chest 1992;101,1013-1018[Abstract/Free Full Text]
36. Kubik, A, Parkin, DM, Khlat, M, et al Lack of benefit from semi-annual screening for cancer of the lung: followup report of a randomized controlled trial on population of high-risk males in Czechoslovakia. Int J Cancer 1990;45,26-33[ISI][Medline]
37. Sobue, T, Suzuki, T, Matsuda, M, et al Survival for clinical stage I lung cancer not surgically treated. Cancer 1992;69,685-692[CrossRef][ISI][Medline]
38. Feinstein, AR, Esdaile, J Incidence, prevalence, and evidence: scientific problems in epidemiologic statistics for the occurrence of cancer. Am J Med 1987;82,113-124[CrossRef][ISI][Medline]
39. Papac, RJ, Poo-Hwu, WJ Renal cell carcinoma: a paradigm of lanthanic disease. Am J Clin Oncol 1999;22,223-231[CrossRef][ISI][Medline]
40. Read, W, Tierney, R, Page, N, et al Differential impact of comorbidity. J Clin Oncol 2004;22,3099-3103[Abstract/Free Full Text]
41. Quekel, L, Kessels, A, Goei, R, et al Miss rate of lung cancer on the chest radiograph in clinical practice. Chest 1999;115,720-724[Abstract/Free Full Text]
42. Sone, S, Takashima, S, Li, F, et al Mass screening for lung cancer with mobile spiral computed tomography scanner. Lancet 1998;351,1242-1245[CrossRef][ISI][Medline]
43. Henschke, CI, McCauley, DI, Yankelevitz, DF, et al Early Lung Cancer Action Project: overall design and findings from baseline screening. Lancet 1999;354,99-105[CrossRef][ISI][Medline]
44. Swensen, S, Jett, JR, Sloan, J, et al Screening for lung cancer with low-dose spiral computed tomography. Am J Respir Crit Care Med 2002;165,508-513[Abstract/Free Full Text]
45. Sobue, T, Moriyama, N, Kaneko, M, et al Screening for lung cancer with low-dose helical computed tomography: anti-lung cancer association project. J Clin Oncol 2002;20,911-920[Abstract/Free Full Text]
46. Henschke, CI, Naidich, D, Yankelevitz, DF, et al Early Lung Cancer Action Project: initial findings on repeat screening. Cancer 2001;92,153-159[CrossRef][ISI][Medline]
47. Gohagan, J, Marcus, P, Fagerstrom, R, et al Baseline findings of a randomized feasibility trial of lung cancer screening with spiral CT scan vs chest radiograph: the Lung Screening Study of the National Cancer Institute. Chest 2004;126,114-121[Abstract/Free Full Text]
48. Henschke, C, Shaham, D, Farooqi, A, et al Computerized tomography screening for lung cancer: new findings and diagnostic work-up. Semin Thorac Cardiovasc Surg 2003;15,397-404[CrossRef][Medline]
49. Crestanello, J, Allen, M, Jett, J, et al Thoracic surgical operations in patients enrolled in a computed tomographic screening trial. J Thorac Cardiovasc Surg 2004;128,254-259[Abstract/Free Full Text]
50. Swensen, S Screening for cancer with computed tomography: advising patients is difficult given the lack of evidence. BMJ 2003;326,894-895[Free Full Text]
51. Welch, H Should I be tested for cancer? Maybe not and here’s why. 2004 University of California Press. Berkeley, CA:
52. Grannis, F Lung cancer screening: who will pick up the tab? Chest 2002;121,1388-1390[Free Full Text]
53. Mahadevia, P, Fleisher, L, Frick, K, et al Lung cancer screening with helical computed tomography in older adult smokers: a decision and cost-effectiveness analysis. JAMA 2003;289,313-322[Abstract/Free Full Text]
54. Grann, V, Neuget, A Lung cancer screening at any price? JAMA 2003;289,357-358[Free Full Text]
55. Church, T National Lung Screening Trial Executive Committee: chest radiography as the comparison intervention for spiral CT in the National Lung Screening Trial. Acad Radiol 2003;10,713-715[CrossRef][ISI][Medline]
56. Freedman, MT Digital chest radiography. Boiselle, P White, C eds. New techniques in thoracic imaging 2002,315-348 Marcel Dekker. New York, NY:
57. Gohagan, J, Levin, D, Prorok, P, et al The Prostate, Lung, Colorectal and Ovarian (PLCO) Cancer Screening Trial. Control Clin Trials 2000;21,249S-406S[CrossRef][ISI]

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