1. Development, validation and application of a device to measure e-cigarette users’ puffing topography
- Author
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Anthony Cunningham, Sandra Costigan, Jodie Gee, Carl Vas, Krishna Prasad, and Sandra Slayford
- Subjects
Aerosols ,Inhalation Exposure ,Nicotine ,Validation study ,Measure (data warehouse) ,Multidisciplinary ,Meteorology ,Smoking ,Tobacco Products ,Electronic Nicotine Delivery Systems ,Air puff ,Product characteristics ,Article ,Aerosol ,03 medical and health sciences ,0302 clinical medicine ,Testing protocols ,Humans ,Environmental science ,030212 general & internal medicine ,030217 neurology & neurosurgery ,Simulation - Abstract
With the rapidly rising popularity and substantial evolution of electronic cigarettes (e-cigarettes) in the past 5–6 years, how these devices are used by vapers and consumers’ exposure to aerosol emissions need to be understood. We used puffing topography to measure directly product use. We adapted a cigarette puffing topography device for use with e-cigarettes. We performed validation using air and e-cigarette aerosol under multiple regimes. Consumer puffing topography was measured for 60 vapers provided with rechargeable “cig-a-like” or larger button-activated e-cigarettes, to use ad-libitum in two sessions. Under all regimes, air puff volumes were within 1 mL of the target and aerosol volumes within 5 mL for all device types, serving to validate the device. Vapers’ mean puff durations (2.0 s and 2.2 s) were similar with both types of e-cigarette, but mean puff volumes (52.2 mL and 83.0 mL) and mean inter-puff intervals (23.2 s and 29.3 s) differed significantly. The differing data show that product characteristics influence puffing topography and, therefore, the results obtained from a given e-cigarette might not read across to other products. Understanding the factors that affect puffing topography will be important for standardising testing protocols for e-cigarette emissions.
- Published
- 2016