Behavior-based yield for electronic cigarette users of different strength eliquids based on natural environment topography.
Individual Clinical
User Topography
Robinson (2019)
Electronic Cigarette Topography in the Natural Environment
Individual Clinical
User Topography
Robinson (2015)
Smokers' response to shortened cigarettes: Dose reduction without dilution of tobacco smoke
Individual Clinical
User Topography
Russelll (1980)
associations of Demographics, Dependence, and Biomarkers With Transitions in Tobacco Product Use in a Cohort of Cigarette Users and Dual Users of Cigarettes and E-cigarettes.
Individual Clinical
User Topography
Shafie-Khorassani (2023)
Daily variation in the patterns and characteristics of adolescent ENDS use.
Individual Clinical
User Topography
Shamblen (2022)
Effects of User Puff Topography, Device Voltage, and Liquid Nicotine Concentration on Electronic Cigarette Nicotine Yield: Measurements and Model Predictions
Individual Clinical
User Topography
Talih (2015)
“Direct Dripping”: a high-Temperature, high-Formaldehyde Emission Electronic Cigarette Use Method
Individual Clinical
User Topography
Talih (2016)
Might limiting liquid nicotine concentration result in more toxic electronic cigarette aerosols?
Individual Clinical
User Topography
Talih (2021)
Effect of flavour manipulation on ENDS (JUUL) users’ experiences, puffing behaviour and nicotine exposure among US college students.
Population Clinical
User Topography
Vargas-Rivera (2020)
Effect of e-cigarette flavors on nicotine delivery and puffing topography: results from a randomized clinical trial of daily smokers.
Individual Clinical
User Topography
Voos (2020)