Significance
Incidence and Mortality
Tobacco Use and Secondhand Smoke
Incidence and Mortality
Lung cancer is the second most commonly occurring noncutaneous cancer in the
United States and is the leading cause of cancer deaths. In 2008 alone, it is estimated that there will be 215,020 new cases diagnosed, and 71,030 women and 90,810 men will die due to this disease.[1] The lung cancer
death rate rose rapidly over several decades in both sexes, with a persistent decline for
males commencing in 1991. Death rates in men decreased by 2% per year from 1994 to 2004.[1]
Tobacco Use and Secondhand Smoke
The most important risk factor for lung cancer (as well as for many other
cancers) is tobacco use.[2,3] Cigarette smoking has been definitively
established by epidemiologic and preclinical animal experimental data as the
primary cause of lung cancer. This causative link has been widely recognized
since the 1960s, when national reports in Great Britain and the United States
brought the cancer risk of smoking prominently to the public’s attention.[3]
The percentages of lung cancers estimated to be caused by tobacco smoking in
males and females are 90% and 78%, respectively.
Environmental or secondhand tobacco smoke is also implicated in causing lung
cancer.[4] Environmental tobacco smoke has the same components as inhaled
mainstream smoke, although in lower absolute concentrations; between 1% and
10% depending on the constituent. Carcinogenic compounds in tobacco smoke
include the polynuclear aromatic hydrocarbons (PAHs), including the classical
carcinogen benzo[a]pyrene and the nicotine-derived tobacco-specific
nitrosamine, 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK). In rodents,
total doses of both PAH and NNK that are similar to doses received by humans in
a lifetime of smoking induce pulmonary tumors.[5] Elevated biomarkers of
tobacco exposure, including urinary cotinine, tobacco-related carcinogen
metabolites, and carcinogen-protein adducts, are seen in passive or secondhand smokers.[6-10]
Lung cancer is considered to be the end stage of multistep carcinogenesis.
Suggestive evidence of genetic damage is the association of cigarette smoking
with the formation of the DNA adducts in human lung tissue. An unequivocal
link between tobacco smoke and lung carcinogenesis has been established by
molecular data.[11,12]
Many other exposures have been established as causally associated with lung cancer, but even the combined effect of these additional factors is very small compared with cigarette smoking.[13] These additional causal factors are primarily related to occupational exposures to agents such as asbestos, arsenic, chromium, nickel, and radon.[13] Radon, a naturally occurring gas, is of relevance to the general public because of the potential exposure in homes.[13]
References
-
American Cancer Society.: Cancer Facts and Figures 2008. Atlanta, Ga: American Cancer Society, 2008. Also available online. Last accessed October 1, 2008.
-
U.S. Department of Health and Human Services.: The Health Consequences of Smoking: A Report of the Surgeon General. Atlanta, Ga: U.S. Department of Health and Human Services, CDC, National Center for Chronic Disease Prevention and Health Promotion, Office on Smoking and Health. Available online. Last accessed February 17, 2009.
-
Smoking and Health: Report of the Advisory Committee to the Surgeon General of the Public Health Service. Washington, DC: US Department of Health, Education, and Welfare, 1965. PHS Publ No 1103.
-
Hackshaw AK, Law MR, Wald NJ: The accumulated evidence on lung cancer and environmental tobacco smoke. BMJ 315 (7114): 980-8, 1997.
[PUBMED Abstract]
-
Cinciripini PM, Hecht SS, Henningfield JE, et al.: Tobacco addiction: implications for treatment and cancer prevention. J Natl Cancer Inst 89 (24): 1852-67, 1997.
[PUBMED Abstract]
-
Hecht SS, Carmella SG, Murphy SE, et al.: A tobacco-specific lung carcinogen in the urine of men exposed to cigarette smoke. N Engl J Med 329 (21): 1543-6, 1993.
[PUBMED Abstract]
-
Finette BA, O'Neill JP, Vacek PM, et al.: Gene mutations with characteristic deletions in cord blood T lymphocytes associated with passive maternal exposure to tobacco smoke. Nat Med 4 (10): 1144-51, 1998.
[PUBMED Abstract]
-
Parsons WD, Carmella SG, Akerkar S, et al.: A metabolite of the tobacco-specific lung carcinogen 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone in the urine of hospital workers exposed to environmental tobacco smoke. Cancer Epidemiol Biomarkers Prev 7 (3): 257-60, 1998.
[PUBMED Abstract]
-
Anderson KE, Carmella SG, Ye M, et al.: Metabolites of a tobacco-specific lung carcinogen in nonsmoking women exposed to environmental tobacco smoke. J Natl Cancer Inst 93 (5): 378-81, 2001.
[PUBMED Abstract]
-
Hecht SS: Human urinary carcinogen metabolites: biomarkers for investigating tobacco and cancer. Carcinogenesis 23 (6): 907-22, 2002.
[PUBMED Abstract]
-
Mao L, Lee JS, Kurie JM, et al.: Clonal genetic alterations in the lungs of current and former smokers. J Natl Cancer Inst 89 (12): 857-62, 1997.
[PUBMED Abstract]
-
Wistuba II, Lam S, Behrens C, et al.: Molecular damage in the bronchial epithelium of current and former smokers. J Natl Cancer Inst 89 (18): 1366-73, 1997.
[PUBMED Abstract]
-
Alberg AJ, Samet JM: Epidemiology of lung cancer. Chest 123 (1 Suppl): 21S-49S, 2003.
[PUBMED Abstract]
Back to Top
< Previous Section | Next Section > |