Assessment of passive human exposure to tobacco smoke by environmental and biological monitoring in different public places in Wuhan, central China.

Abstract

Passive exposure to tobacco smoke is a global public health problem, while there are few data on public place monitoring and general population exposure assessment in central China. This study aimed to examine the levels of airborne nicotine (n=256) in ten kinds of different public places in Wuhan, central China, and assess short-term and long-term smoke exposure in 340 non-smokers aged 18-67 who worked in these public places using tobacco biomarkers [i.e., cotinine and 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanol (NNAL), respectively]. The highest median concentration of airborne nicotine (17.0μg/m3) was observed in internet cafes, approximately 304-fold of the lowest value found in nurseries (55.9ng/m3). Among the other studied public places, restaurants had the highest median concentrations (ng/m3) of airborne nicotine (3,120), followed by subway stations (810), hotels (624), government officess (286), middle schools (269), health institutions (268), public institutions (190), and primary schools (140). Urinary cotinine and NNAL were found in almost all the participants, and the highest concentrations were found in non-smokers from the internet cafes [specific gravity (SG)-corrected urinary median concentrations: 23.1ng/mL, geometric mean (GM): 24.1ng/mL, range: 0.62-1679ng/mL] for cotinine and 104pg/mL (GM: 97.6pg/mL, range: 32.3-236pg/mL) for NNAL, respectively]. Urinary cotinine concentrations in male non-smokers (median: 2.02ng/mL) were significantly higher than those in female non-smokers (1.44) (P<0.01). Participants aged 18-27 were detected with the highest urinary cotinine and NNAL concentrations. Urinary cotinine and NNAL concentrations were significantly correlated with daily and monthly working hours, respectively. Besides, a positive correlation was observed between log-transformed urinary concentrations of cotinine and NNAL (r=0.32, P<0.001). This is the first time to report matched data on airborne nicotine and urinary cotinine/NNAL among employees in different public places. This study demonstrated ubiquitous exposure to environmental tobacco smoke in the studied public places.