 | The 131st Annual Meeting (November 15-19, 2003) of APHA |
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| The 131st Annual Meeting (November 15-19, 2003) of APHA |
Suzaynn F. Schick, PhD, Center for Tobacco Control Research and Education, University of California, San Francisco, 530 Parnassus, Ste 366, San Francisco, CA 94143-1390, 415-502-4882, zaynn@itsa.ucsf.edu and Stanton A Glantz, PhD, University of California, San Francisco, Center for Tobacco Control Research & Education, 530 Parnassus Ave., Suite 366, San Francisco, CA 94143-1390.
Methods: The tobacco documents and the open scientific literature were searched using terms including “sidestream”, “tobacco smoke pollution”, and “biological activity”.
Results: Beginning in the 1970’s, in response to mounting evidence that secondhand smoke was a social disadvantage for smokers, the tobacco industry engaged in a series of research and development projects to produce a more socially acceptable cigarette. This research led to pioneering developments in the chemical analysis of secondhand smoke, testing of human response to secondhand smoke and the biological testing of toxicity and carcinogenesis. Because they had more resources and greater knowledge of the overall physics and chemistry of the burning cigarette, tobacco industry scientists were often able to approach these questions with more depth and sophistication than many academic researchers. The process of developing tests of the chemical content of secondhand smoke reveals how the test conditions can be manipulated to affect the outcome. Their work on sensory assessment of secondhand smoke offers new information about the factors affecting passive smokers’ responses to secondhand smoke. Their studies of the toxic, mutagenic and carcinogenic properties of secondhand smoke in the early 1980’s demonstrate that secondhand smoke is more toxic than mainstream smoke by weight and that the high toxicity and mutagenicity results from the synergistic interaction of multiple components.
Conclusion: Understanding the scientific and product design processes used by the tobacco industry can help public health researchers and advocates deal more effectively with the problem of passive smoking.
Learning Objectives:
Keywords: Tobacco Industry, Chemical Analyses
Presenting author's disclosure statement:
I do not have any significant financial interest/arrangement or affiliation with any organization/institution whose products or services are being discussed in this session.