Different Types Of Cigarettes Research Articles

The activity of 210Pb in cigarette smoked in Kazakhstan.

The radon decay product 210Pb is a known component of tobacco. In this study, the activity concentration of 210Pb in the most popular cigarette brands (six samples) for Kazakhstan consumers was determined by beta spectrometry. The activity levels of 210Pb ranged between 2.69 ± 0.27 and 27.42 ± 2.74mBq per cigarette. Higher activity concentrations for 210Pb were found in Sample No.4 and showed an excess of the world average by 1.8 times. The average activity concentrations of 210Pb in cigarette tobacco were 10.42 ± 1.04mBq cig-1. The daily activities inhaled in the lungs of a smoker, and the resulting effective doses due to cigarette smoking were calculated. Effective doses per year due to cigarette smoking were calculated assuming that 42.13% of the 210Pb in tobacco were retained in the lungs of the smokers. It is concluded that for a smoker in Kazakhstan, the average effective dose ranges from 9.1 ± 0.9 μSv/year to 92.8 ± 9.3 μSv/year for a cigarette consumption of one pack of cigarettes per day. The results indicate that the annual effective doses from inhalation of 210Pb due to smoking one pack of cigarettes per day are from 7 to 58 times (for different types of cigarettes) greater than the annual effective doses from ingestion of radionuclides via the diet.

Qardh Contract in the Peccoten Tradition (Analytic Study of the Peccoten Tradition in the Madura Kubu Raya Circle)

This study aims to determine the contract contained in the Peccoten tradition, which uses cigarettes, soap, cloth and others as tools to invite marriage. The Peccotan tradition, which is a Madurese tradition, is still carried out by those who live in Madusari Village, Sungai Raya District, Kubu Raya Regency. The object of this research is the symbolic meaning of cigarettes used as a medium for invitations to pickpockets found in Samatan Village. The collection technique in this study uses a descriptive qualitative research method to reveal the implied meaning of the symbolization of cigarettes in the peccotan tradition. This research data collection includes observation, documentation and direct interviews in Madusari Village. Collecting data from resource persons such as Madurese leaders and Islamic religious leaders who have long practised the Peccotan tradition in Madusari village. There were six resource persons used in this study consisting of people who had used the pecotan tradition and received an invitation to pecotan in Samatan Village. The results showed that in the pecotan tradition in Samatan Village, there was a symbolic interaction where cigarettes which were used as invitation media had different types of cigarettes used as invitation media; the difference was in the type of cigarettes and the number of envelopes given and the pecotan tradition has become a hereditary tradition that continues until today in Madusari Village, Kub Raya Regency.

Did the COVID-19 Lockdown Reduce Smoking Rate in Adolescents?

This study examined the temporal trend of smoking use and the prevalent differences in the use of different types of cigarettes for Korean adolescents before and during the COVID-19 pandemic. In Korea, all use of e-cigarettes, including regular cigarettes, is considered smoking. Since adolescents are susceptible to peer influences in risky behaviors including smoking, social distancing could affect the smoking behaviors of youth under these unusual circumstances during the pandemic. In this study, we analyzed the Korea Youth Risk Behavior Web-based Survey (KYRBW) data collected from 2018 to 2021 to examine the association between smoking status and other covariates during the COVID-19 pandemic. As a result, it was confirmed that the influence of second-hand smoke on the smoking rate decreased before and after COVID-19, which is interpreted as a result of the social distancing policy caused by the pandemic.

Effects of tobacco smoke on indoor air quality: the use of mosses in biomonitoring.

This research was carried out to assess the possibility of using Pleurozium schreberi mosses as bioindicators of atmospheric aerosol pollution in living quarters (kitchen and bedroom), with metals originating from tobacco smoke from various types of cigarettes: conventional cigarettes, e-cigarettes and heated tobacco products. The moss-bag method of active biomonitoring was used. The mosses were exposed in these indoor spaces for three months and, after the exposition period, their analytes - Ni, Cu, Zn, Cd and Pb - were determined using flame atomic absorption spectrometry (F-AAS). Results were interpreted using the relative accumulation factors (RAF), coefficients of variation (CV) and the Wilcoxon test. As a result of the research, it was found that there were statistically significant differences in Zn and Cd concentrations in tobacco smoke from different types of cigarettes. The analyses showed that heated tobacco products contaminate indoor air with metals, similar to conventional cigarettes and e-cigarettes. It was demonstrated that the reliability of biomonitoring results was affected, for example, by the method of preparation of bioindicator samples, such as mosses.

Acrylamide levels in smoke from conventional cigarettes and heated tobacco products and exposure assessment in habitual smokers

Acrylamide (AA) is a neurotoxic, genotoxic, and carcinogenic compound developed during heating at high temperatures. Foods such as potatoes, biscuits, bread and coffee are the main foodstuffs containing AA. Cigarette smoke may be a significant additional source of exposure. However, AA content may vary among different types of cigarettes. The study aimed to evaluate the AA content in conventional cigarettes (CC) and heated tobacco products (HTP) and its resulting exposure through their use. AA levels from the two types of cigarettes were determined by GC-MS and the daily exposure to AA was also ascertained. The margin of exposure (MOE) was calculated for neurotoxic and carcinogenic risk based on benchmark dose lower confidence limit for a 10% response (BMDL10) of 0.43 and 0.17, 0.30, and 1.13 mg/kgbw/day. AA level in CC ranged from 235 to 897 ng/cigarette, whereas HTP reported AA levels in the range of 99–187 ng/cigarette. The data showed a low neurotoxic risk for either CC or HTP, whereas a carcinogenic risk emerged through the smoking of CC based on different Benchmark doses. The carcinogenic risk for CC based on the highest Benchmark dose that was considered showed unsafe levels, as little as 10 CC cigarettes/day, whereas it was almost always of low concern for HTP. Another approach based upon the incremental lifetime cancer risk (ILCR) analysis led to similar results, exceeding, in some cases, the safety value of 10−4, as far as CC are concerned. Overall, the results confirmed that CC are a significant source of AA, and its levels were five times higher than in HTP.

ВЛИЯНИЕ КУРЕНИЯ РАЗЛИЧНЫХ СИГАРЕТ НА РИСК РЕАЛИЗАЦИИ ПРЕЖДЕВРЕМЕННЫХ РОДОВ

The literature suggests that tobacco smoking is a significant risk factor for preterm birth. Publications in recent years point to the negative impact of smoking e-cigarettes and aicos on reproductive health. A retrospective and prospective analysis of the effect of smoking different types of cigarettes and second-hand smoke on the timing of childbirth was carried out. The study found statistically significant evidence of an increased risk of preterm birth in women who smoke cigarettes. However, there were no statistically significant findings on the effect of icosa, e-cigarette and passive smoking on the risk of preterm birth.

Comparing the effects of electronic cigarette smoke and conventional cigarette smoke on lung cancer viability

The popularity of electronic cigarettes (e-cigarettes) has been noted to be increasing in recent years — for multiple reasons, including the fact that e-cigarettes are often cheaper, available in a variety of “flavors,” and easily accessible, to both adolescents and young adults find e-cigarettes to be a more appealing option than traditional cigarettes. Even though levels of carcinogens are reduced in e-cigarettes in comparison with tobacco cigarettes, there is increasing concern that vaping e-cigarettes may also increase the risk of lung cancer. Instead of burning tobacco, e-cigarettes contain liquid solutions of three main components: solvents, flavors, and, mainly, nicotine. We hypothesized that the chemicals from e-cigarettes and cigarette smoke might affect lung cancer cell viability. To test this hypothesis, we collected smoke extracts from different types of cigarettes: regular tobacco, cigar-like e-cigarette, and vape-type e-cigarette. By exposing A549 cells, human lung cancer cells, to the different types of smoke extracts, we wanted to see how cell viability would be affected. Among the three different cigarette extracts, vape-type e-cigarette smoke extract significantly increased the A549 cell viability. Since vape-type e-cigarettes contain the highest concentration of nicotine compared to the other types of cigarettes, we hypothesized that nicotine might be the cause of increased lung cancer viability. When different concentrations of nicotine were tested on the A549 cell line, the results showed that up to 2% nicotine concentration increased the A549 cell viability significantly, but more than 5% nicotine concentration induced cell death due to its high toxicity. In conclusion, contrary to conventional thought, e-cigarettes, or vapes, may be more dangerous than tobacco cigarettes in terms of lung cancer viability.

Tee-Shaped Sample Introduction Device Coupled with Direct Analysis in Real-Time Mass Spectrometry for Gaseous Analytes.

Ambient ionization mass spectrometry (AIMS) is simple to operate for analytes adsorbed on the surface of various shaped probes. However, gaseous substances or liquids that are easy to evaporate, diffuse, and escape in the atmosphere are harder to capture. In this work, a Tee-shaped sample introduction device coupled with direct analysis in real time mass spectrometry (DART-MS) is developed. The Tee-shaped device is placed between the DART ion source and the MS inlet with a heated sample transfer tube. Gaseous samples from either a Tedlar sampling bag or liquids evaporated from a graduated syringe were tested. The Tee-shaped device was used for several volatile organic compounds with a wide range of boiling points, and detection limits of ng/mL to fg/mL were obtained. To test the device for real-life samples, puff-by-puff analysis of a complex gaseous mainstream smoke was performed. Individual puffs can be analyzed rapidly, and there is no cross contamination between consecutive puffs. The dynamic changes of chemical components among different puffs for different types of cigarettes can be observed. This work provides a universal Tee-shaped sampling device to enhance AIMS for the analysis of volatile compounds and gases, which is adapted to different sampling modules applicable for various forms of samples. The device enables direct exploration of chemical components in complex gaseous samples without tedious sample preparation and time-consuming LC or GC separation.

Heat-Not-Burn cigarette induces oxidative stress response in primary rat alveolar epithelial cells

There has been an increase in the usage of heat-not-burn (HNB) cigarette products. However, their effects on alveolar epithelial cells (AECs) remain unknown. AECs are the target cells of conventional cigarette smoking-related respiratory diseases such as chronic obstructive pulmonary disease, idiopathic pulmonary fibrosis and lung cancer whose pathogenesis involves oxidative stress. In this study, primary rat AECs were isolated, cultured and stimulated by HNB cigarette smoke extract (CSE). Our data indicate that rat AECs exposed to HNB CSE induced oxidative stress response genes (e.g. Hmox-1, Gsta1, Gsta3 and Nqo1). We also compared the oxidative stress response between two different types of AECs, alveolar type I-like (ATI-like) cells and type II (ATII) cells, and between two different types of cigarette, HNB cigarettes and conventional cigarettes. The expressions of Gsta1, Gsta3 and Nqo1 were higher in ATII cells than ATI-like cells in response to HNB and conventional cigarettes, but there was no significant difference in their expression levels between HNB cigarette and conventional cigarette. Taken together, our results suggest that HNB cigarettes have the similar potential as conventional cigarette products to induce oxidative stress response in AECs.

Price elasticity of demand for manufactured cigarettes and roll-your-own cigarettes across socioeconomic status groups in Thailand

BackgroundPricing policies have been proven to be effective in reducing tobacco consumption. However, studies investigating the effectiveness of pricing policies across different types of tobacco products and socioeconomic status (SES)...

Rapid determination of chemical composition in the particulate matter of cigarette mainstream smoke

Particulate matter from mainstream smoke (MSS) is significantly hazardous when inhaled into the human body. An ambient ionization mass spectrometric method, direct analysis in real time mass spectrometry (DART-MS), was applied to rapidly and simultaneously measure multiple particulate components in MSS. A variety of compounds were obtained in seconds, where different types of cigarettes and different solvent extracts generated distinct chemical constituents as validated by principle component analysis. Chemical formula assignment and compound identification were based on accurate m/z values with mass errors <10 ppm. Quantitation of nicotine was achieved using an isotope internal standard with DART-MS. Method validation with chromatographic-MS analysis further proved the advantages of DART-MS with respect to analysis speed and operational simplicity for the direct evaluation of complex samples. DART-MS is feasible for the rapid acquisition of cigarette fingerprints for quality control as well as for quantitative assessment of carcinogens for harm reduction.

Particulate matter emissions of four types of one cigarette brand with and without additives: a laser spectrometric particulate matter analysis of secondhand smoke

ObjectiveInhaled particulate matter (PM) in secondhand smoke (SHS) is deleterious for smokers and non-smokers. Different additives in cigarettes might effect the amount of PM. This study aimed to assess the...

Research &amp; Application of Ash Condensation Analysis Technology

On the basis of self-developed cigarette ash analysis software, through the calculation of the cigarette ash index, the ash condensation ability of the different types of cigarettes was analyzed in this paper. The results show that the cigarette ash index has the advantages of simple calculation, quick response of ash analysis software, small coefficient of variation between different cigarette ash condensation index, among different samples there is no obvious little difference in ash condensation index. Therefore, the cigarette ash condensation index can be used as an important index and effective means to measure the performance of the cigarette ash, meanwhile, the index can be applied to the comprehensive assessment of the ash condensation performance of the cigarette paper.

The Impact of Cigarette Type on Consumers' Perception of Health Risks of Smoking

Background: Smoking prevalence in Singapore has increased from 12.6 % in 2006 to 14.3% in 2011 despite restrictions on tobacco advertising and promotion act, largely due to the strategies of the tobacco industry such as cigarette packaging suggesting lower tar content to target the young and the health conscious. Objectives: To review the perception of health risks of different types of cigarettes across smoking status, age-group and gender, and to determine if smokers perceive differences in health risks based on the taste of cigarettes alone. Method: 240 smokers and 240 non-smokers were presented with cigarette boxes a pair each time and were asked a series of questions on perception of tar content, taste and perceived health risk. Participants who identified themselves as smokers were blindfolded and asked to take 2 puffs of each cigarette type and asked to rate for 'Presence of tar', 'Smoothness of taste' and 'Health risk'. Results: A significant majority of the participants selected 'regular' cigarettes as delivering more tar than 'light' and 'menthol' cigarettes, while 'lights' and 'menthol' cigarettes were perceived as smoother-tasting and being able to reduce health risks. Non-smokers were more susceptible to perceive 'lights' cigarettes as a 'healthier' choice, compared to smokers, but not females or adolescents. Smokers, based on taste alone, rated regular cigarettes to be higher in health risks compared to both 'lights' and 'menthol' cigarettes, which were similarly rated. Discussion: The perception of health risks across different types of cigarettes are affected by the deceptive descriptors on the packaging, but the local increase in prevalence of youth and female smoking cannot be explained by their susceptibility to packaging influences. Taste of cigarettes seems to affect smokers' perception of health-risks as well; hence bans on deceptive descriptors on cigarette packaging may not totally eliminate differences in perception of health risks of different types of cigarettes.

Deficiencies in public understanding about tobacco harm reduction: results from a United States national survey.

BackgroundTobacco products differ in their relative health harms. The need for educating consumers about such harms is growing as different tobacco products enter the marketplace and as the FDA moves to regulate and educate the public about different products. However, little is known about the patterns of the public’s knowledge of relative harms.MethodsData were analyzed from the Health Information National Trends Survey (HINTS) 4 Cycle 2, a population-representative survey of US adults conducted between October 2012 and January 2013 (N = 3630). Participants reported their perceptions of the relative risks of e-cigarettes, smokeless tobacco, and different types of cigarettes compared to “traditional” cigarettes. Relative risk perceptions for each product type, as well as the consistency and accuracy of harm reduction beliefs, were analyzed.ResultsAbout 65 % of the respondents accurately reported that no cigarettes were less harmful than any others. Slightly more than half of US adults perceived e-cigarettes to be safer than regular cigarettes, a belief in line with current scientific evidence. By contrast, only 9 % of respondents perceived some smokeless tobacco products to be safer, a belief strongly supported by the evidence. Only 3.5 % of respondents had patterns of relative risk perceptions in line with current scientific evidence for all three modalities.ConclusionsThe discrepancy between current evidence and public perceptions of relative risk of various tobacco/nicotine products was marked; for most tobacco types, a large proportion of the population held inaccurate harm reduction beliefs. Although there was substantial awareness that no cigarettes were safer than any other cigarettes, there could be benefits from increasing the percentage of the public that appreciates this fact, especially among current smokers. Given the potential benefits of tobacco risk reduction strategies, public health education efforts to increase understanding of basic harm reduction principles are needed to address these misperceptions.

On the interaction between radon progeny and particles generated by electronic and traditional cigarettes

During their entire lives, people are exposed to the pollutants present in indoor air. Recently, Electronic Nicotine Delivery Systems, mainly known as electronic cigarettes, have been widely commercialized: they deliver particles into the lungs of the users but a “second-hand smoke” has yet to be associated to this indoor source. On the other hand, the naturally-occurring radioactive gas, i.e. radon, represents a significant risk for lung cancer, and the cumulative action of these two agents could be worse than the agents separately would. In order to deepen the interaction between radon progeny and second-hand aerosol from different types of cigarettes, a designed experimental study was carried out by generating aerosol from e-cigarette vaping as well as from second-hand traditional smoke inside a walk-in radon chamber at the National Institute of Ionizing Radiation Metrology (INMRI) of Italy. In this chamber, the radon present in air comes naturally from the floor and ambient conditions are controlled. To characterize the sidestream smoke emitted by cigarettes, condensation particle counters and scanning mobility particle sizer were used. Radon concentration in the air was measured through an Alphaguard ionization chamber, whereas the measurement of radon decay product in the air was performed with the Tracelab BWLM Plus-2S Radon daughter Monitor. It was found an increase of the Potential Alpha-Energy Concentration (PAEC) due to the radon decay products attached to aerosol for higher particle number concentrations. This varied from 7.47 ± 0.34 MeV L−1 to 12.6 ± 0.26 MeV L−1 (69%) for the e-cigarette. In the case of traditional cigarette and at the same radon concentration, the increase was from 14.1 ± 0.43 MeV L−1 to 18.6 ± 0.19 MeV L−1 (31%). The equilibrium factor increases, varying from 23.4% ± 1.11% to 29.5% ± 0.26% and from 30.9% ± 1.0% to 38.1 ± 0.88 for the e-cigarette and traditional cigarette, respectively. These growths still continue for long time after the combustion, by increasing the exposure risk.

Global Adult Tobacco Survey (GATS): A Case for Change in Definition, Analysis and Interpretation of "Cigarettes" and "Cigarettes Per Day" in Completed and Future Surveys

The Global Adult Tobacco Survey has 15 key indicators, cigarettes smoked per day (CPD) among daily smokers being one of them. The first wave of GATS in 14 countries indicated that mean CPD use is higher in women than men in India only, which is contrary to the current understanding of tobacco use globally. This study was undertaken to understand the unusual findings for mean CPD use in the GATS-India survey. Items B06a and B06b of the GATS India survey questionnaire that collected information on daily consumption of manufactured and rolled cigarettes were analyzed using SPSS software. Exclusive users were identified from these items after excluding the concurrent users of other tobacco products. Cigarette type, exclusive use and gender stratified analyses were made. Consumption of different types of cigarettes among the mixed users of manufactured and rolled cigarettes were correlated. Higher mean number of CPD use among male daily-smokers was observed than their female counterparts in product specific analysis. Mean CPD as per GATS cigarette definition was higher in males than females for exclusive users but a reverse trend was observed in case of non-exclusive users. Use of manufactured cigarettes increased with increase in use of rolled cigarette among the mixed users and around half of these users reported equal CPD frequency for the both types of cigarettes. The anomaly in mean CPD estimate in GATS-India data was due to inclusion of two heterogeneous products to define cigarettes, variation in cigarette product specific user proportions contributing to the average and non-exclusive concurrent use of other tobacco products. The consumption pattern of cigarettes among the mixed users highlights bias in CPD reporting. Definition, analysis and interpretation of 'cigarettes per day' in the GATS India survey need to be improved by redefining cigarettes and making product specific analyses.

Concentration dependent effects of tobacco particulates from different types of cigarettes on expression of drug metabolizing proteins, and benzo(a)pyrene metabolism in primary normal human oral epithelial cells

The ability of tobacco smoke (TS) to modulate phase I and II enzymes and affect metabolism of tobacco carcinogens is likely an important factor in its carcinogenicity. For the first time several types of TS particulates (TSP) were compared in different primary cultured human oral epithelial cells (NOE) for their abilities to affect metabolism of the tobacco carcinogen, (BaP) to genotoxic products, and expression of drug metabolizing enzymes. TSP from, reference filtered (2RF4), mentholated (MS), reference unfiltered, (IR3), ultra low tar (UL), and cigarettes that primarily heat tobacco (ECL) were tested. Cells pretreated with TSP concentrations of 0.2–10μg/ml generally showed increased rates of BaP metabolism; those treated with TSP concentrations above 10μg/ml showed decreased rates. Effects of TSPs were similar when expressed on a weight basis. Weights of TSP/cigarette varied in the order: MS≈IR3>2RF4>ECL>UL. All TSPs induced the phase I proteins, cytochrome P450 1A1 (CYP1A1) and 1B1 (CYP1B1), phase II proteins, NAD(P)H dehydrogenase quinone 1 (NQO1), and microsomal glutathione S-transferase 1 (MGST1), and additionally, hydroxysteroid (17-beta) dehydrogenase 2 (HSD17B2), as assessed by qRT-PCR. The pattern of gene induction at probable physiological levels favored activation over detoxification.

Application of comprehensive two‐dimensional gas chromatography mass spectrometry and different types of data analysis for the investigation of cigarette particulate matter

In tobacco research, the comparison of different tobacco blends as well as the puff-dependent behaviour of cigarettes is a matter of particular interest. For the investigation of smoke characteristics, GC x GC offers different ways for data analysis, namely, compound target analysis, automated peak-based compound classification and comprehensive pixel-based data analysis. This study will show the application as well as the pros and cons of these types of data analysis for very complex matrices like cigarette particulate matter. In addition, new aspects about the recently discovered puff-dependent behaviour of compounds in cigarette smoke will be presented. Automated peak-based compound classification including mass spectrometric pattern recognition is used for the classification of tobacco particulate matter samples and the puff-dependent investigation of different compound classes. This compound group specific analysis is further reinforced by applying an even more comprehensive pixel-based analysis. This kind of analysis is used to generate fingerprints of different types of cigarettes. The combination of fast feature reduction methods like analysis of variance (ANOVA) and t-test with multivariate feature transformation methods like partial least squares discriminate analysis (PLSDA) for feature selection provides a powerful tool for a detailed inspection of different types of cigarettes.

Price increase causes fewer sales of factory‐made cigarettes and higher sales of cheaper loose tobacco in Germany

Aim of this study is the analysis of the price responsiveness of demand for cigarettes and loose tobacco in Germany over the period 1991--2006. In this period the average consumption of all kinds of cigarettes per capita (German population > or = 15 years) declined from 634 pieces/quarter to 457pieces/quarter (-28%). Consumption of factory-made cigarettes decreased from about 545 pieces/quarter to 330 pieces/quarter in 2006 (-39%). In the same time consumption of self-made cigarettes increased from 89 pieces/quarter to 127 pieces/quarter (+42%). A one Euro Cent increase in price is associated with 28 cigarettes of all kinds consumed less per quarter. Data indicate that the different types of cigarettes are substitutes, e.g. there is evidence for a positive relationship between the price of factory-made cigarettes and the consumption of hand-made cigarettes. Thus, the increase in such consumption is rather driven by a positive cross-price effect of 17.01. Data indicate additionally an overall decrease in the cigarette consumption and a partial switch to cheaper loose tobacco. The availability of low-taxed loose tobacco may undermine the public health benefits of higher cigarette prices. Price differentials between tobacco products should be reduced in order to maximize the public health benefits of high cigarette prices.