Carbonyl Emissions and Heating Temperatures across 75 Nominally Identical Electronic Nicotine Delivery System Products: Do Manufacturing Variations Drive Pulmonary Toxicant Exposure?
Soha Talih, Rola Salman, Nareg Karaoghlanian, Ahmad El‐Hellani, Alan Shihadeh
Abstract
High Resolution Image Download MS PowerPoint Slide Studies of factors that impact electronic nicotine delivery systems (ENDSs) carbonyl compound (CC) emissions have been hampered by wide within-condition variability. In this study, we examined whether this variability may be related to heating coil temperature variations stemming from manufacturing differences. We determined the mean peak temperature rise (Δ T max ) and CC emissions from 75 Subox ENDSs powered at 30 W. We found that Δ T max and CC emissions varied widely, with greater Δ T max resulting in exponentially higher CC emissions. Also, 12% of atomizers accounted for 85% of total formaldehyde emissions. These findings suggest that major reductions in toxicant exposure might be achieved through regulations focusing on limiting coil temperature.