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Background Electronic cigarettes have been developed and marketed in recent years as smoking substitutes. However, no studies have evaluated their effects on the cardiovascular system. The purpose of this study was to examine the immediate effects of electronic cigarette use on left ventricular (LV) function, compared to the well-documented acute adverse effects of smoking. Methods Echocardiographic examinations were performed in 36 healthy heavy smokers (SM, age 36 ± 5 years) before and after smoking 1 cigarette and in 40 electronic cigarette users (ECIG, age 35 ± 5 years) before and after using the device with “medium-strength” nicotine concentration (11 mg/ml) for 7 minutes. Mitral flow diastolic velocities (E, A), their ratio (E/A), deceleration time (DT), isovolumetric relaxation time (IVRT) and corrected-to-heart rate IVRT (IVRTc) were measured. Mitral annulus systolic (Sm), and diastolic (Em, Am) velocities were estimated. Myocardial performance index was calculated from Doppler flow (MPI) and tissue Doppler (MPIt). Longitudinal deformation measurements of global strain (GS), systolic (SRs) and diastolic (SRe, SRa) strain rate were also performed. Results Baseline measurements were similar in both groups. In SM, IVRT and IVRTc were prolonged, Em and SRe were decreased, and both MPI and MPIt were elevated after smoking. In ECIG, no differences were observed after device use. Comparing after-use measurements, ECIG had higher Em (P = 0.032) and SRe (P = 0.022), and lower IVRTc (P = 0.011), MPI (P = 0.001) and MPIt (P = 0.019). The observed differences were significant even after adjusting for changes in heart rate and blood pressure. Conclusions Although acute smoking causes a delay in myocardial relaxation, electronic cigarette use has no immediate effects. Electronic cigarettes’ role in tobacco harm reduction should be studied intensively in order to determine whether switching to electronic cigarette use may have long-term beneficial effects on smokers’ health. Trial registration Current Controlled Trials ISRCTN16974547

Background This randomized, partially single-blinded, 6-period crossover clinical study of adult smokers compared the nicotine pharmacokinetics, impacts on smoking urge and tolerability of various formulations of one brand of e-cigarettes with that of a tobacco cigarette. Methods Five e-cigarettes with different e-liquid formulations containing 1.6 % and 2.4 % nicotine and a conventional tobacco cigarette were randomized among 24 subjects under two exposure sessions consisting of a 30-min controlled and a one-hour ad lib use period to assess plasma nicotine levels, impacts on smoking urge and adverse events. The 30-min controlled use session comprised an intensive use of the e-cigarettes with a total of 50 puffs taken every 30 s for comparison to a single conventional cigarette having a typical machine-measured nicotine yield (~0.8 mg). Ad lib product use conditions provided insight into more naturalistic product use behaviors and their accompanying smoking urge reductions. Adverse events (AEs) were assessed by the Principal Investigator. Results Significant ( p  < 0.05) increases in plasma nicotine concentrations occurred within 10 min of controlled e-cigarette use and significant ( p  < 0.001) reductions from baseline smoking urge were observed within 5 min. E-cigarette and cigarette nicotine plasma levels were comparable for up to one hour of use. After both sessions (90 min), nicotine exposure was the highest for the cigarette, with all e-cigarettes showing 23 % to 53 % lower plasma concentrations. During controlled use, peak reduction in smoking urge for e-cigs occurred later than for the cigarette. After completion of both sessions, significant smoking urge reduction persisted for most of the tested e-cigarettes, albeit at levels lower than that provided by the tobacco cigarette. Nicotine content, vehicle differences, and the presence of menthol did not significantly affect smoking urge reduction by the e-cigarettes. No subjects were discontinued due to AEs. The most frequently reported AEs events included cough, throat irritation, headache, and dizziness. Conclusions Blood plasma nicotine levels obtained from short-term use of e-cigarettes containing 1.6 % and 2.4 % nicotine were significant, but lower than those of conventional tobacco cigarettes, yet the reduction in craving symptoms were broadly comparable. The types of AEs were consistent with other research studies of longer duration that have reported that use of e-cigarettes by adult smokers is well-tolerated. Trial Registration http://ClinicalTrials.gov identifier: NCT02210754 . Registered 8 August 2014.

Electronic nicotine-delivery systems - also called e-cigarettes - are used by some tobacco smokers to assist with quitting. Evidence regarding the efficacy and safety of these systems is needed. In this open-label, controlled trial, we randomly assigned adults who were smoking at least five tobacco cigarettes per day and who wanted to set a quit date to an intervention group, which received free e-cigarettes and e-liquids, standard-of-care smoking-cessation counseling, and optional (not free) nicotine-replacement therapy, or to a control group, which received standard counseling and a voucher, which they could use for any purpose, including nicotine-replacement therapy. The primary outcome was biochemically validated, continuous abstinence from smoking at 6 months. Secondary outcomes included participant-reported abstinence from tobacco and from any nicotine (including smoking, e-cigarettes, and nicotine-replacement therapy) at 6 months, respiratory symptoms, and serious adverse events. A total of 1246 participants underwent randomization; 622 participants were assigned to the intervention group, and 624 to the control group. The percentage of participants with validated continuous abstinence from tobacco smoking was 28.9% in the intervention group and 16.3% in the control group (relative risk, 1.77; 95% confidence interval, 1.43 to 2.20). The percentage of participants who abstained from smoking in the 7 days before the 6-month visit was 59.6% in the intervention group and 38.5% in the control group, but the percentage who abstained from any nicotine use was 20.1% in the intervention group and 33.7% in the control group. Serious adverse events occurred in 25 participants (4.0%) in the intervention group and in 31 (5.0%) in the control group; adverse events occurred in 272 participants (43.7%) and 229 participants (36.7%), respectively. The addition of e-cigarettes to standard smoking-cessation counseling resulted in greater abstinence from tobacco use among smokers than smoking-cessation counseling alone. (Funded by the Swiss National Science Foundation and others; ESTxENDS ClinicalTrials.gov number, NCT03589989.).

Background The estimated number of cigarette smokers in the world is 1.3 billion, expected to rise to 1.7 billion by 2025, with 10 million smokers living in the U.K. Smoking is the leading, preventable death-cause worldwide, being responsible for almost 650,000 deaths in the E.U. annually. A combination of pharmacological interventions, including nicotine replacement therapy, bupropion and varenicline, and behavioural support is the most effective approach to smoking cessation. However, even the best methods have high relapse rates of approximately 75% within 6 months. Electronic (or “e-“) cigarettes use battery power to disperse a solution that usually contains propylene glycol or glycerine, water, flavouring and nicotine. E-cigarettes have become the most popular smoking cessation aid in England, however, information on their effects on cardiovascular function is limited and contradictory. As e-cigarettes are not solely nicotine-based products, existing research exploring the effects of nicotine on the cardio-vasculature provides only limited information, while their extensive uptake urges the need of evidence to inform the general public, smokers and policy-makers. Methods This is a pragmatic, 3-group, randomised, assessor-blinded, single-centre trial exploring the cardiovascular physiological effects of the use of e-cigarettes (nicotine-free and nicotine-inclusive, assessed separately) combined with behavioural support as a smoking cessation method in comparison to the combination of NRT and behavioural support. The primary outcome will be macro-vascular function, determined by a Flow Mediated Dilatation ultrasound assessment, 6 months following participants’ “quit date”. Discussion Participants will be assessed at baseline, 3 days following their self-determined “quit date”, at intervention end (3 months) and 6 months following their “quite date”. Findings are expected to give an indication of the cardiovascular effects of e-cigarettes both in the short- and in the medium-term period, informing the general public, policy holders and researchers, helping to define the future role of e-cigarettes as a smoking cessation aid. Trial registration Clinicaltrials.gov NCT03061253 . Registered 17th February 2017.

Electronic cigarettes (e-cigarettes) are becoming increasingly popular with smokers worldwide. Users report buying them to help quit smoking, to reduce cigarette consumption, to relieve tobacco withdrawal symptoms, and to continue having a 'smoking' experience, but with reduced health risks. Research on e-cigarettes is urgently needed in order to ensure that the decisions of regulators, healthcare providers and consumers are based on science. Methods ECLAT is a prospective 12-month randomized, controlled trial that evaluates smoking reduction/abstinence in 300 smokers not intending to quit experimenting two different nicotine strengths of a popular e-cigarette model ('Categoria'; Arbi Group Srl, Italy) compared to its non-nicotine choice. GroupA (n = 100) received 7.2 mg nicotine cartridges for 12 weeks; GroupB (n = 100), a 6-week 7.2 mg nicotine cartridges followed by a further 6-week 5.4 mg nicotine cartridges; GroupC (n = 100) received no-nicotine cartridges for 12 weeks. The study consisted of nine visits during which cig/day use and exhaled carbon monoxide (eCO) levels were measured. Smoking reduction and abstinence rates were calculated. Adverse events and product preferences were also reviewed. Declines in cig/day use and eCO levels were observed at each study visits in all three study groups (p<0.001 vs baseline), with no consistent differences among study groups. Smoking reduction was documented in 22.3% and 10.3% at week-12 and week-52 respectively. Complete abstinence from tobacco smoking was documented in 10.7% and 8.7% at week-12 and week-52 respectively. A substantial decrease in adverse events from baseline was observed and withdrawal symptoms were infrequently reported during the study. Participants' perception and acceptance of the product under investigation was satisfactory. In smokers not intending to quit, the use of e-cigarettes, with or without nicotine, decreased cigarette consumption and elicited enduring tobacco abstinence without causing significant side effects. ClinicalTrials.gov NCT01164072 NCT01164072.

In this trial involving smokers who called the New Zealand national quitline, cytisine (a partial agonist of the nicotinic acetylcholine receptor) was superior to nicotine-replacement therapy in helping smokers quit. Nausea and sleep disorders were more frequent with cytisine. Cytisine is a plant-based alkaloid found in members of the Leguminosae family. 1 , 2 Like varenicline, cytisine is a partial agonist of nicotinic acetylcholine receptors (nAChRs), with an affinity for the α4β2 receptor subtype, 3 and a half-life of 4.8 hours. 4 Cytisine is a generic agent currently manufactured by Sopharma as Tabex and by Aflofarm Pharma as Desmoxan. It has been available both with and without prescription for smoking cessation since the 1960s, largely in Eastern Europe. 5 Four systematic reviews report cytisine to be superior to placebo for short-term and long-term abstinence. 6 – 9 When taken at the recommended dosage (1.5 to 9 . . .

The Food and Drug Administration has the authority to reduce the nicotine content of cigarettes. In this randomized trial, participants assigned to reduced-nicotine cigarettes smoked fewer cigarettes than those assigned to standard-nicotine cigarettes. Twenty years ago, Benowitz and Henningfield published a landmark commentary that coincided with initial attempts by the Food and Drug Administration (FDA) to regulate tobacco products. 1 They reasoned that if the nicotine content of cigarettes were limited to approximately 0.5 mg per cigarette (approximately 0.7 mg per gram of tobacco), cigarettes would be rendered nonaddictive. Although a reduction in nicotine content was endorsed by representatives of the medical community, 2 in 2000, the FDA lost its initial argument to regulate cigarettes in a hearing before the Supreme Court, and the proposal ultimately languished. 3 In the past 8 years, the prospect of . . .

Rationale Given the nascency of tobacco-free oral nicotine pouches (NPs) and the heterogeneity of commercially available NP brands, there is a need for scientific evaluation of different NP formulations. Nordic Spirit, novel NPs are distinguished by their unique composition. Objectives To characterize blood nicotine delivery, pharmacokinetics (PK), subjective and physiological effects and to monitor safety of three Nordic Spirit NPs (6 mg, 9 mg and 11.2 mg/pouch) compared with LD tobacco snus (11.2 mg/pouch) and Nicorette® gum (4 mg/unit) following single 30 min use. Methods This was a randomized, open-label, ten-sequence, single-use, cross-over clinical study with 30 healthy adult Swedish snus users. Results Peak nicotine concentrations (C max ) ranged from 10.92 to 17.32 ng/mL for the three Nordic Spirit NPs, with a trend toward dose proportionality, and 8.18 ng/mL and 9.23 ng/mL for the LD snus and Nicorette® gum comparators, respectively. Peak concentration for Nordic Spirit NPs was reached (T max ) after 30 to 38 min, and after 45 min for LD snus and Nicorette® gum. No notable safety concerns were observed after single use for any of the study products. Conclusions Delivery of nicotine from the three Nordic Spirit NPs appeared to be nicotine content-dependent, based on C max and AUC. The amount of nicotine extracted showed positive correlation with the reported C max and AUC. For Nordic Spirit NPs, T max was immediately after end of use. The characteristics of Nordic Spirit NPs were found to be favourable for profiling NP nicotine delivery and safety in human use, and for further product development. ISRCTN registry study no. ISRCTN75583947.

IntroductionPuff Bar disposable e-cigarettes are now marketed with a ‘tobacco-free nicotine’ claim. We assessed the effect of this claim on non-tobacco-using young adults’ perceptions of and intentions of using Puff Bar.MethodsWe conducted an online randomised between-subjects experiment among non-tobacco-using young adults (ages 18–29 years; n=1822). Participants viewed depictions of Puff Bar e-cigarettes with the claim that the product contains ‘tobacco-free nicotine’ (experimental group; n=909) or simply ‘nicotine’ (control group; n=913). Multivariable regressions were used to assess the associations between experimental conditions and Puff Bar use intentions, harm perceptions, use expectancies and perceived relative use of Puff Bar versus other e-cigarettes, controlling for participant characteristics.ResultsCompared with the control group, the experimental group who saw the ‘tobacco-free nicotine’ claim reported higher intentions of using Puff Bar (coefficient=0.17, p<0.001). The experimental group had a lower likelihood of perceiving Puff Bar use as ‘extremely or very harmful’ (OR=0.63, p<0.001) and ‘strongly or somewhat’ agreeing with the negative expectancy of using Puff Bar (OR=0.67, p<0.001). Additionally, the experimental group reported being ‘much more or more likely’ to use Puff Bar over other e-cigarettes (OR=1.67, p<0.001).DiscussionPuff Bar’s tobacco-free nicotine claim may increase non-tobacco-using young adults’ intentions of using Puff Bar and reduce harm perceptions and negative expectancy towards using Puff Bar. The claim may also prompt the use of Puff Bar over other e-cigarette brands and types. These findings are concerning given the health effects and regulations for tobacco-free nicotine products are not immediately clear.

The use of electronic cigarettes has increased exponentially since its introduction onto the global market in 2006. However, short- and long-term health effects remain largely unknown due to the novelty of this product. The present study examines the acute effects of e-cigarette aerosol inhalation, with and without nicotine, on vascular and pulmonary function in healthy volunteers. Seventeen healthy subjects inhaled electronic cigarette aerosol with and without nicotine on two separate occasions in a double-blinded crossover fashion. Blood pressure, heart rate, and arterial stiffness measured by pulse wave velocity and pulse wave analysis were assessed at baseline, and then at 0 h, 2 h, and 4 h following exposure. Dynamic spirometry and impulse oscillometry were measured following vascular assessments at these time points, as well as at 6 h following exposure. e-Cigarette aerosol with nicotine caused a significant increase in heart rate and arterial stiffness. Furthermore, e-cigarette aerosol-containing nicotine caused a sudden increase in flow resistance as measured by impulse oscillometry, indicating obstruction of the conducting airways. Both aerosols caused an increase in blood pressure. The present study indicates that inhaled e-cigarette aerosol with nicotine has an acute impact on vascular and pulmonary function. Thus, chronic usage may lead to long-term adverse health effects. Further investigation is warranted.