Impact of smoking intensity and device cleaning on IQOS emissions: comparison with an array of cigarettes

Significance IQOS is a heated tobacco product that has been widely advertised by Philip Morris International (PMI) as a reduced--exposure product compared with cigarettes. Reduced exposure results from reduced emission of toxicants which could be influenced by product constituents and user behaviour. This study aims to assess the influence of user behaviour, including device cleaning and puffing parameters, on toxicant emissions from IQOS. Methods IQOS aerosols were generated by a smoking machine using the combination of two cleaning protocols (after 1 stick vs 20 sticks) and five puffing regimes (including standard cigarette puffing regimes and IQOS--tailored regimes). The generated aerosols were analysed by targeted methods for phenol and carbonyl quantification, and by chemical screening for the identification of unknown compounds. Results Puffing parameters significantly affected phenol and carbonyl emissions while device cleaning had no effect. Harsher puffing conditions like more, longer, and larger puffs yielded higher levels for most toxicant emissions. Comparing the obtained data with data reported by PMI on 50 cigarette brands smoked under different puffing regimes showed various trends for phenol and carbonyl emissions, with IQOS emissions sometimes higher than cigarettes. Also, the chemical screening resulted in the tentative identification of similar to 100 compounds in the IQOS aerosols (most of limited toxicity data). Conclusion This study showed that puffing parameters, but not device cleaning, have significant effects on carbonyl, phenol and other emissions. Data analysis highlighted the importance of comparing IQOS emissions with an array of commercial cigarettes tested under different puffing regimes before accepting reduced exposure claims.

Automated summary

This study aims to assess the influence of user behavior, including device cleaning and puffing parameters, on toxicant emissions from IQOS. The results showed that puffing parameters significantly affected the emissions of phenol and carbonyl compounds, while device cleaning had no effect. Comparing IQOS emissions with a range of commercial cigarettes tested under different puffing regimes is important before accepting reduced exposure claims.