REALTIME WATERPIPE TOBACCO SMOKE TOXICANT SAMPLING IN THE NATURAL ENVIRONMENT

Shihadeh Alan
Virginia Commonwealth Universitycity: Richmond    country: United States (us)

Grant 5R01DA025659-02 from National Institute On Drug Abuse

Keywords: Accounting; Address; Adolescent; Aldehydes; Aromatic Polycyclic Hydrocarbons; base; Behavior; behavioral pharmacology; Breathing; Cancer Etiology; Carbon Monoxide; Carcinogens; Cardiovascular Diseases; Cause of Death; Cessation of life; Charcoal; Cigarette; cigarette smoke; cigarette smoking; Clinical; Clinical Chemistry; Consent; Data; Dependence; Deposition; design; Devices; Engineering; Environment; Epidemic; experience; Flavoring; Generations; Head; Health; Heating; hookah; Individual; instrument; Laboratories; Laboratory Study; Learning; Link; Lung diseases; Measurement; Measures; Mechanics; Methodology; Methods; Mission; Morbidity - disease rate; Mortality Vital Statistics; Nicotine; Nitrosamines; Outcome; particle; Pharmaceutical Preparations; Prevalence; prevent; programs; prototype; Psychologist; public health medicine (field); public health relevance; Relative (related person); Reporting; Research; response; Sampling; Smoke; Smoker; Smoking; smoking cessation; Sum; Technology; Temperature; Testing; Time; Tobacco; tobacco prevention; Tobacco smoke; Tobacco smoking; Tobacco use; toxicant; Toxicant exposure; United States National Institutes of Health; university student; Water; young adult

Relevance: This project is relevant to public health because waterpipe tobacco smoking is a little-understood but rapidly emerging strain in the nation´s tobacco use epidemic. The project will inform nascent efforts to prevent waterpipe tobacco smoking from contributing substantially to tobacco´s morbidity and mortality by developing and validating the technology necessary to learn about waterpipe smoke toxicant content in natural settings. For cigarette smoking, valid and reliable information regarding smoke toxicant content has been used effectively to support tobacco use prevention and control programs; this project seeks similar positive outcomes for another potentially lethal form of tobacco use

Project start date: 2011-02-01

Project end date: 2015-11-30

Budget start date: 1-DEC-2011

Budget end date: 30-NOV-2012

5R01DA025659-02 (2012): $341140

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REALTIME WATERPIPE TOBACCO SMOKE TOXICANT SAMPLING IN THE NATURAL ENVIRONMENT

Shihadeh Alan, Professor
Virginia Commonwealth Universitycity: Richmond    country: United States (us)

Grant 1R01DA025659-01A2 from National Institute On Drug Abuse

Abstract: Globally, tobacco use accounts for 4.9 million deaths each year. These deaths are caused by inhaled smoke toxicants. Extensive research describes cigarette smoke toxicant content (or "yield"), a vital link to understanding user toxicant exposure. However, millions of people use waterpipes (WP) to smoke tobacco. WP tobacco smoking may also be deadly, though little is known about WP smoke toxicant yield. A WP (hookah, shisha) has a hose, water bowl, body, and a "head" filled with sweetened and flavored tobacco that is heated with charcoal. WP tobacco smoking is increasing in the U.S., especially among college students. Relative to one cigarette, one WP use episode can generate 100 times the smoke. Current technology demands that, if we are to learn about WP smoke, we must use machines to generate it. Machine-generated smoke may limit validity because generation of WP smoke involves several key variables that differ by user and use episode which cannot be standardized in the analytical lab. This response to PAR-08-212 integrates mechanical engineering, chemistry, and clinical behavioral pharmacology to develop and test an unobtrusive WP smoke sampling instrument for the purpose of assessing the toxicant content of smoke produced in the natural environment. The specific aims are to 1) Characterize a real-time WP smoke sampling device (Years 1-3). We have developed a prototype device that measures puff topography and samples WP smoke in real- time (REALTIME). Because particle deposition in the device may alter smoke toxicant content, correction factors need to be developed to infer true toxicant content from that measured. We will therefore measure toxicant-specific deposition fractions in the device, in particular for particle number, particle mass, nicotine, tobacco-specific nitrosamines, and polycyclic aromatic hydrocarbons. 2) Evaluate REALTIME design options in the clinical laboratory (Years 1 and 2). Two design options, placement of the smoke sampler and the percentage of smoke sampled, involve tradeoffs between accurate measurement of toxicant content and realistic smoker behavior. We propose two controlled clinical laboratory studies to inform design option choice, with Study 1 addressing sampler placement (bowl or mouthpiece) and Study 2 addressing percentage of smoke sampled (2, 5, or 10%). The preferred option maximizes realistic smoke toxicant analysis while minimizing effects on smoker behavior. 3) Evaluate REALTIME in the natural environment (years 4 and 5). REALTIME will be attached to WPs used by consenting individual and groups of WP cafi patrons. The study will demonstrate REALTIME´s use in natural settings and examine the relationship between the number of WP users and tobacco temperature and WP smoke toxicant yield. In sum, the technology and methodology developed in this project will enable valid analysis of WP smoke toxicant content. This interdisciplinary project addresses an emerging public health threat and is directly relevant to the NIH mission and wholly responsive to PAR-08-212. This project is relevant to public health because waterpipe tobacco smoking is a little-understood but rapidly emerging strain in the nation´s tobacco use epidemic. The project will inform nascent efforts to prevent waterpipe tobacco smoking from contributing substantially to tobacco´s morbidity and mortality by developing and validating the technology necessary to learn about waterpipe smoke toxicant content in natural settings. For cigarette smoking, valid and reliable information regarding smoke toxicant content has been used effectively to support tobacco use prevention and control programs; this project seeks similar positive outcomes for another potentially lethal form of tobacco use

Keywords: Accounting; Address; Adolescent; Adolescent Youth; adult youth; Aldehydes; Aromatic Polycyclic Hydrocarbons; Aspiration, Respiratory; base; Behavior; behavioral pharmacology; Breathing; Cancer Cause; Cancer Causing Agents; Cancer Etiology; Carbon Monoxide; Carcinogens; Cardiovascular Diseases; cardiovascular disorder; Cause of Death; cease smoking; Cessation of life; Cessation of smoking; Charcoal; Cigarette; cigarette smoke; cigarette smoking; Clinical; Clinical Chemistry; college student; Consent; Data; Death; Dependence; Deposit; Deposition; design; designing; Devices; drug/agent; Drugs; Engineering; Engineerings; Environment; Epidemic; experience; Flavoring; Flavoring Agents; Generations; Head; Health; Heating; hookah; Hydrogen Oxide; Individual; Inhalation; Inhaling; inspiration; Inspiration, Respiratory; instrument; juvenile; juvenile human; Laboratories; Laboratory Study; Learning; Link; Lung diseases; lung disorder; Measurement; Measures; Mechanics; Medication; Method LOINC Axis 6; Methodology; Methods; Mission; Morbidity; Morbidity - disease rate; Mortality; Mortality Vital Statistics; National Institutes of Health; National Institutes of Health (U.S.); Nicotine; NIH; Nitrosamines; Oncogens; Outcome; PAH; particle; Pharmaceutic Preparations; Pharmaceutical Preparations; Polycyclic Hydrocarbons, Aromatic; polynuclear aromatic hydrocarbon; Polynuclear Aromatic Hydrocarbons; Prevalence; prevent; preventing; programs; Programs (PT); Programs [Publication Type]; prototype; Psychologist; Public Health; public health medicine (field); public health relevance; Pulmonary Diseases; Pulmonary Disorder; Pyridine, 3-(1-methyl-2-pyrrolidinyl)-, (S)-; Relative; Relative (related person); Reporting; Research; Respiratory Disease; Respiratory Disorder; Respiratory System Disease; Respiratory System Disorder; response; Sampling; Smoke; smoke cigarette; smoke of cigarettes; Smoker; Smoking; smoking cessation; Sum; Technology; Temperature; Testing; Time; Tobacco; Tobacco Consumption; tobacco prevention; Tobacco smoke; Tobacco smoking; Tobacco use; tobacco use prevention; toxic exposure; toxicant; Toxicant exposure; United States National Institutes of Health; university student; Water; water pipe; waterpipe; young adult

Relevance: This project is relevant to public health because waterpipe tobacco smoking is a little-understood but rapidly emerging strain in the nation´s tobacco use epidemic. The project will inform nascent efforts to prevent waterpipe tobacco smoking from contributing substantially to tobacco´s morbidity and mortality by developing and validating the technology necessary to learn about waterpipe smoke toxicant content in natural settings. For cigarette smoking, valid and reliable information regarding smoke toxicant content has been used effectively to support tobacco use prevention and control programs; this project seeks similar positive outcomes for another potentially lethal form of tobacco use

Project start date: 2011-02-01

Project end date: 2015-11-30

Budget start date: 1-FEB-2011

Budget end date: 30-NOV-2011

PFA/PA: PAR-08-212

1R01DA025659-01A2 (2011): $429281