Background: To date, Lebanon has failed to enact comprehensive clean indoor air laws despite ratification of the Framework Convention on Tobacco Control (FCTC), which calls for the protection of non-smokers from exposure to secondhand tobacco smoke (SHS). Complicating the problem of SHS exposure in Lebanon is the widespread use of the tobacco water-pipe. While most research on SHS has involved cigarette smoking as a source of emissions, other sources, including tobacco water-pipes, may be an important contributor.
Methods: PM(2.5) concentrations (microg/m(3)) were measured in a sample of 28 public venues located in six major Lebanese cities. Active smoker density (number of smokers/100 m(3)) was calculated for both water-pipe and cigarette smokers. Venues were then categorised as having higher density of water-pipe smokers or higher density of cigarette smokers, and resultant emission levels were compared between the two groups.
Results: Cigarette and water-pipe smoking was observed in 14 venues, while cigarette smoking only and water-pipe smoking only were found in 12 venues and one venue, respectively. Among all smoking-permitted venues, the mean PM(2.5) concentration was 342 microg/m(3). Venues with a higher density of water-pipe smokers (n =14) showed a similar median PM(2.5) concentration (349 microg/m(3)) compared with venues with a higher density of cigarette smokers (n =13; 241 microg/m(3); p=0.159). The mean PM(2.5) concentration in the single venue with a voluntary smoke-free policy was 6 microg/m(3).
Conclusions: Despite ratification of the FCTC in 2005, both cigarette and water-pipe smoking are commonly practised in enclosed public places throughout Lebanon, leading to unsafe levels of indoor particulate pollution. Smoke-free policies are needed in Lebanon to protect the public's health, and should apply to all forms of tobacco smoking.