Effects of e-liquid flavor, nicotine content, and puff duration on metal emissions from electronic cigarettes

Background and Purpose: Electronic cigarettes are gaining vast popularity because the perceived impression about electronic cigarettes is they are a safer alternative to conventional smoking (Belluz, 2015). As a result, more teenagers are switching to electronic cigarettes either as a smoking cessation tool, or for recreational use. However, it is supported by the evidence review that there is nicotine mislabeling between what the manufacturer has labeled and the actual nicotine content in the liquids (Goniewicz et al., 2012). This is a critical health concern for teenagers and recreational users because they are exposed to nicotine, which is a neurotoxin that creates the addiction for smoking. As a result, over a period of time, recreational electronic cigarette users have a higher chance of switching to conventional smoking (Bach, 2015). Hence, the purpose of this research is to determine whether nicotine can be found in nicotine free electronic cigarette liquids Methods: The nicotine content in the electronic cigarette liquids will be determined using Gas Chromatography - Mass Spectrometry. Inferential statistics such as a one tailed t-test will be done using Microsoft Excel and SAS to see if nicotine can be detected in nicotine-free electronic cigarette liquids and if there is a statistically significant difference. Results: The two p-values from the parametric test were 0.2811 and 0.2953. The p-value to reject the null hypothesis was set at 0.05. Because the p-values from the inferential statistics were greater than 0.05, the null hypothesis was not rejected and the actual nicotine content is equal to what the manufacturer had labeled as nicotine free. Discussion: Although the inferential statistics indicated that there was no statistical significance in nicotine concentration, two out of the ten nicotine free electronic cigarette liquids measured nicotine levels above 0 ppm. Conclusion: There was not a significant difference in nicotine concentration found in the electronic cigarette liquids and the actual nicotine concentration is equal to the labeled concentration. However, because the sample size of only ten is too small, there is a potential for type 2 error. Also, the samples came from only two manufacturers. Therefore, the results from this research are not representative for all the electronic cigarette liquids. More research should be conducted to provide scientific evidence to stop recreational electronic cigarette users from the exposure of electronic cigarettes as these could act as a stepping-stone towards smoking conventional cigarettes. Teenagers who start smoking at an early age will be more

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Support for e-cigarette policies among smokers in seven European countries: longitudinal findings from the 2016–18 EUREST-PLUS ITC Europe Surveys

European Journal of Public Health ◽

10.1093/eurpub/ckaa085 ◽

2020 ◽

Vol 30 (Supplement_3) ◽

pp. iii68-iii77

Author(s):

Janet Chung-Hall ◽

Geoffrey T Fong ◽

Gang Meng ◽

Lorraine V Craig ◽

Ann McNeill ◽

...

Keyword(s):

Low Income ◽

Generalized Estimating Equations ◽

Regression Models ◽

Electronic Cigarettes ◽

European Countries ◽

Policy Support ◽

Tobacco Products ◽

Logistic Regression Models ◽

Nicotine Content ◽

Country Differences

Abstract Background The 2016 European Tobacco Products Directive (TPD) required Member States (MS) to implement new regulations for electronic cigarettes (ECs). We conducted a longitudinal study to assess changes over 2 years in smokers’ support for EC policies and identify predictors of support in seven European countries after TPD implementation. Methods Prospective cohort surveys were conducted among adult smokers in Germany, Greece, Hungary, Poland, Romania, Spain and England in 2016 (n = 9547; just after TPD) and 2018 (n = 10 287; 2 years after TPD). Multivariable logistic regression models employing generalized estimating equations assessed changes in support for four EC policies, and tested for country differences and strength of key predictors of support. Results Banning EC use in smoke-free places was supported by 53.1% in 2016 and 54.6% in 2018 with a significant increase in Greece (51.7–66.0%) and a decrease in Spain (60.1–48.6%). Restricting EC/e-liquid nicotine content was supported by 52.2 and 47.4% in 2016 and 2018, respectively, with a significant decrease in England (54.2–46.5%) and Romania (52.5–41.0%). An EC promotion ban was supported by 41.1 and 40.2%. A flavour ban was supported by 33.3% and 32.3% with a significant increase in Hungary (34.3–43.3%). Support was generally higher in Poland, Hungary and Greece vs. England. Support was lower among dual and EC-only users, and low-income smokers. Conclusions Smokers in all countries strongly supported banning EC use in smoke-free places and restricting nicotine content after TPD implementation, with no clear trends for changes in policy support.

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Nicotine content of electronic cigarettes, its release in vapour and its consistency across batches: regulatory implications

Addiction ◽

10.1111/add.12410 ◽

2013 ◽

Vol 109 (3) ◽

pp. 500-507 ◽

Cited By ~ 132

Author(s):

Maciej L. Goniewicz ◽

Peter Hajek ◽

Hayden McRobbie

Keyword(s):

Electronic Cigarettes ◽

Nicotine Content

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Determined and declared nicotine content in refill liquids for electronic cigarettes marketed in North Macedonia

Archives of Industrial Hygiene and Toxicology ◽

10.2478/aiht-2019-70-3191 ◽

2019 ◽

Vol 70 (2) ◽

pp. 130-133 ◽

Cited By ~ 1

Author(s):

Marija Srbinoska ◽

Zoran Kavrakovski ◽

Vesna Rafajlovska ◽

Jana Simonovska

Keyword(s):

Gas Chromatography ◽

Electronic Cigarettes ◽

Nicotine Content

AbstractThe use of electronic cigarettes or vaping has been gaining momentum among Macedonian smokers but has also raised great many concerns about the toxicity of liquid refills and its aerosols, especially as the nicotine levels in refill liquids (e-liquids) are not required to be declared accurately or at all by current regulations. The aim of this study was therefore to determine nicotine levels in fifteen samples of e-liquids purchased in specialised shops in Macedonia using gas chromatography. Nicotine concentrations deviated from manufacturer’s declarations in nine of the twelve samples: in five they were higher and in four lower than declared, ranging from −16.7 % to +30.0 %. These significant discrepancies between the actual and declared nicotine concentrations in the analysed e-liquids call for closer attention of the healthcare and the regulating authorities.

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Another Warning Sign: High Nicotine Content in Electronic Cigarettes Disrupts Mucociliary Clearance, the Essential Defense Mechanism of the Lung

American Journal of Respiratory and Critical Care Medicine ◽

10.1164/rccm.201905-1080ed ◽

2019 ◽

Vol 200 (9) ◽

pp. 1082-1084 ◽

Cited By ~ 1

Author(s):

Mehmet Kesimer

Keyword(s):

Mucociliary Clearance ◽

Defense Mechanism ◽

Electronic Cigarettes ◽

Warning Sign ◽

Nicotine Content

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Presence of nicotine in marketed nicotine-free e-liquids for electronic cigarettes

BCIT Environmental Public Health Journal ◽

10.47339/ephj.2017.88 ◽

2017 ◽

Author(s):

Michael Wu ◽

BCIT School of Health Sciences, Environmental Health ◽

Helen Heacock ◽

Maria Tirado ◽

Fred Shaw

Keyword(s):

Public Perception ◽

Electronic Cigarettes ◽

Electronic Cigarette ◽

Gas Chromatography Mass Spectrometry ◽

Nicotine Content ◽

Active Chemical ◽

Significant Difference ◽

Degree Of Confidence ◽

Susceptible Populations ◽

High Degree

Background and Purpose: Ever since the electronic cigarette made its debut in the market, it has been garnering great popularity due to public perception of it being a safer alternative to conventional cigarette. As a result, aside from being utilized in tobacco cessation programs, susceptible populations such as teenagers are slowly adopting this new trend of recreational E-cigarette smoking or “vaping”. The literature review conducted suggests that not only do different E-cigarette models exhibit different delivery efficiencies regarding percentage nicotine vapourization, there are discrepancies between what is labelled by the manufacturer and the actual nicotine content in the electronic cigarette liquids. This has serious public health implications because nicotine is the active chemical component in inducing addiction in cigarettes. As a result, recreational electronic cigarette users such as teenagers, may unknowingly become exposed to improper levels of nicotine, leading to a higher probability of nicotine dependence or switching to conventional smoking. The purpose of this study was to determine whether presence of nicotine can be detected in marketed nicotine-free electronic cigarette liquids. Methods: The nicotine content in electronic cigarette liquids was isolated and determined using Gas Chromatography Mass Spectrometry. Descriptive and inferential statistics was conducted using NCSS11 to see if there was a statistically significant difference between the labelled concentration of 0 mg in marketed “nicotine-free” electronic cigarettes from two popular brands, VapeWild and Mt Baker Vapour, to determine whether one brand has better quality control for nicotine content in nicotine-free E-liquids compared to the other brand. Results: Based on the analyzed E-liquid samples from the two brands, no nicotine was detected. Conclusion: E-cigarettes can be putatively considered as a safer alternative to conventional cigarettes because nicotine levels can be pre-determined and limited with a high degree of confidence.

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