RT Journal Article SR Electronic T1 Particulate mass and polycyclic aromatic hydrocarbons exposure from secondhand smoke in the back seat of a vehicle JF Tobacco Control JO Tob Control FD BMJ Publishing Group Ltd SP 14 OP 20 DO 10.1136/tobaccocontrol-2012-050531 VO 23 IS 1 A1 Amanda L Northcross A1 Michael Trinh A1 Jay Kim A1 Ian A Jones A1 Matthew J Meyers A1 Delia D Dempsey A1 Neal L Benowitz A1 S Katharine Hammond YR 2014 UL http://tobaccocontrol.bmj.com/content/23/1/14.abstract AB Context Exposure to secondhand smoke (SHS) has been reduced in the USA by banning smoking in public places. These restrictions have not had the same effect on children's exposure to SHS as adults suggesting that children are exposed to SHS in locations not covered by bans, such as private homes and cars. Objectives Assess exposure to SHS in the backseat of a stationary vehicle where a child would sit, quantify exposures to fine particulates (PM2.5), polycyclic aromatic hydrocarbons (PAH), carbon monoxide (CO) and nicotine. Estimate the impact on a child's mean daily exposure to PM2.5. Methods SHS exposures in stationary vehicles with two different window configurations were monitored. A volunteer smoked three cigarettes in a one-hour period for twenty-two experiments. PM2.5, CO, nicotine and PAH where measured in the backseat of the vehicle. 16 PAH compounds were measured for in gas and particle phases as well as real-time particle phase concentrations. Results The mean PAH concentration, 1325.1 ng/m3, was larger than concentrations measured in bars and restaurants were smoking is banned in many countries. We estimate that a child spending only ten minutes in the car with a smoker at the mean PM2.5 concentration measured in the first window configuration −1697 mg/m3 – will cause a 30% increase to the daily mean PM2.5 personal average of a child. Conclusions Estimates made using the measured data and previously reported PM2.5 daily mean concentrations for children in California showing that even short exposure periods are capable of creating large exposure to smoke.