Electronic cigarette aerosol induces significantly less cytotoxicity than tobacco smoke

Azzopardi, David; Patel, Kharishma; Jaunky, Tomasz; Santopietro, Simone; Camacho, Oscar M.; McAughey, John; Gaça, Marianna

doi:10.1080/15376516.2016.1217112

Cited by 98 publications

(106 citation statements)

References 77 publications

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“…The toxicological assessment of e-cigarettes has so far reported fewer biological responses on cellular functions compared to conventional cigarettes 6,12,[25][26][27] , however, approaches for dose and matrices have been inconsistent. Yu and colleagues compared e-cigarette aerosol extracts with cigarette smoke extracts generated in media applied to both primary and immortalized epithelial cells.…”

Section: Discussionmentioning

confidence: 99%

“…In our recent e-cigarette studies, we have shown the importance of expressing dose as a function of delivered nicotine, when conducting comparative studies across different tobacco and nicotine product categories. Azzopardi et al 25 and Adamson et al 7,28 showed how deposited mass and nicotine quantification at the cellular exposure interface enable appropriate extrapolation and comparisons in an aerosol matrix. Different types of e-cigarettes and e-liquids generate different volumes of aerosol and deliver different amounts of nicotine, however typically smokers who switch from cigarette to nicotine delivery devices adapt their behavior to potentially titrate for nicotine 18,19 .…”

Section: Discussionmentioning

confidence: 99%

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Reduced biological effect of e-cigarette aerosol compared to cigarette smoke evaluated in vitro using normalized nicotine dose and RNA-seq-based toxicogenomics

et al. 2017

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Reduced biological effect of e-cigarette aerosol compared to cigarette smoke evaluated in vitro using normalized nicotine dose and RNA-seq-based toxicogenomics

et al. 2017

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“…These differences could potentially explain the varying levels of the same chemical in the aerosol or a different degree of cardiac function impairment. To draw meaningful broad conclusions, there is, therefore, a need for better standardization of protocols (e.g., Azzopardi et al 2016;Farsalinos et al 2016c;Iskandar et al 2016). In addition, future researchers need to take advantage of other tools and methodologies such as randomized controlled trials (Cravo et al 2016), and develop mathematical models and new frameworks (Kalkhoran and Glantz 2015;Levy et al 2017).…”

Section: Discussionmentioning

confidence: 99%

Electronic cigarettes—A review of the physiological health effects

Zucchet

Schmaltz

2017

FACETS

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Electronic cigarettes (ECs) are devices that are used recreationally or as smoking cessation tools, and have become increasingly popular in recent years. We conducted a review of the available literature to determine the health effects caused by the use of these devices. A heating element in the EC aerosolizes a solution of propylene glycol, glycerol, nicotine (optional), and flavouring (optional). These compounds are generally harmless on their own. However, upon heating, they produce various carcinogens and irritants. We found that concentrations of these toxicants vary significantly depending on the type of EC device, the type of EC liquid, and the smoking behaviour of the user. Exposure to these vapours can cause inflammation and oxidative damage to in vitro and in vivo cells. EC aerosol can also potentially affect organ systems and especially cardiovascular and lung function. We concluded that EC use causes acute effects on health but not as severe as those of conventional cigarettes (CCs). These devices could, therefore, be of use for smokers of CCs wishing to quit. However, as EC aerosol introduces new toxicants not found in CCs, long-term studies are needed to investigate possible chronic effects associated with EC use.

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“…7,8 Complex in vitro tissue and organ models have been established that include assessment of cardiovascular and vascular systems. 9 …”

Section: Introductionmentioning

confidence: 99%

In VitroandEx VivoApproaches to Evaluate Next-Generation Tobacco and Non-Tobacco Products on Human Blood Platelets

Spinelli

Lannan

Loelius

et al. 2017

Applied In Vitro Toxicology

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Human blood platelets are major hemostatic regulators in the circulation and important in the mediation of chronic inflammation and immunomodulation. They are key elements that promote cardiovascular pathogenesis that leads to atherosclerosis, thrombosis, myocardial infarction, and stroke. New information on tobacco use and platelet dysregulation shows that these highly understudied vascular cells are dysregulated by tobacco smoke. Thus, platelet function studies should be an important consideration for the evaluation of existing and next-generation tobacco and non-tobacco products. Novel in vitro approaches are being sought to investigate these products and their influence on platelet function. Platelets are ideally suited for product assessment, as robust and novel in vitro translational methods are available to assess platelet function. Furthermore, the use of human biological systems has the advantage that risk predictions will better reflect the human condition.

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Electronic cigarette aerosol induces significantly less cytotoxicity than tobacco smoke

Cited by 98 publications

References 77 publications

Reduced biological effect of e-cigarette aerosol compared to cigarette smoke evaluated in vitro using normalized nicotine dose and RNA-seq-based toxicogenomics

Reduced biological effect of e-cigarette aerosol compared to cigarette smoke evaluated in vitro using normalized nicotine dose and RNA-seq-based toxicogenomics

Electronic cigarettes—A review of the physiological health effects

In VitroandEx VivoApproaches to Evaluate Next-Generation Tobacco and Non-Tobacco Products on Human Blood Platelets

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