Papers
Death related to nicotine replacement therapy
Highlights
•Nicotine substitution therapies can be fatal if misused.
•Transdermal absorption of nicotine induces a gradual symptomatology and an agony.
•Importance of supervising nicotine substitution therapy in detention.
•Toxicological analyses are absolutely necessary in nicotine poisoning cases.
https://www.sciencedirect.com/science/article/pii/S0379073820300852
Abstract
Transdermal nicotine patches and nicotine tablets are widely used for substitution therapies after cessation of smoking. Toxic concentrations of nicotine and cotinine, its main metabolite, are rarely reported, either in cases of misuse or in a fatal context. We report here a rare fatal case due to massive exposure to nicotine replacement therapy.
A 41-year-old man was found dead by his cellmate with 7 nicotine patches on the body. There were 14 nicotine patches (21 mg) and 5 empty blisters of nicotine tablets (Nicopass® 1.5 mg) in the bin. External, internal, and histological examinations revealed asphyxia syndrome. Toxicological analyses indicated lethal concentrations of nicotine and cotinine in femoral (2239 and 1230 ng/mL) and cardiac blood (1344 and 1090 ng/mL). Screening for ethanol, drugs, and illicit drugs revealed therapeutic concentrations of cyamemazine, lormetazepam, nordiazepam, oxazepam, and buprenorphine and its metabolite. THC and its metabolites were also detected, reflecting use of cannabis. The findings highlight the risk of nicotine poisoning in persons using nicotine patches. This case emphasises the importance of carrying out complete toxicological analyses to prevent other instances of nicotine poisoning from being overlooked.
Exploring the Point-of-Sale Among Vape Shops Across the United States
Audits Integrating a Mystery Shopper Approach
https://academic.oup.com/ntr/advance-article-abstract/doi/10.1093/ntr/ntaa041/5801058
Abstract
Introduction
Vape shops represent prominent, unique retailers, subject to Food and Drug Administration (FDA) regulation in the United States.
Aims and Methods
This study assessed compliance of US vape shop retail marketing strategies with new regulations (eg, required age verification, prohibited free samples) and pre-implementation conditions for other regulations (eg, health warning labels on all nicotine products, required disclosures of e-liquid contents).
Results
95.0% of shops displayed minimum-age signage; however, mystery shoppers were asked for age verification at 35.6% upon entry and at 23.4% upon purchase. Although 85.5% of shops had some evidence of implementing FDA health warnings, 29.1% had signage indicating prohibited health claims, 16.3% offered free e-liquid samples, 27.4% had signage with cartoon imagery, and 33.3% were within two blocks of schools. All shops sold open-system devices, 64.8% sold closed-system devices, 68.2% sold their own brand of e-liquids, 42.5% sold e-liquids containing cannabidiol, 83.2% offered price promotions of some kind, and 89.9% had signage for product and price promotions.
Conclusions
Results indicated that most shops complied with some implementation of FDA health warnings and with free sampling bans and minimum-age signage. Other findings indicated concerns related to underage access, health claims, promotional strategies, and cannabidiol product offerings, which call for further FDA and state regulatory/enforcement efforts.
Online Pro-Tobacco Marketing Exposure Is Associated With Dual Tobacco Product Use Among Underage US Students
https://journals.sagepub.com/doi/abs/10.1177/0890117120905231
Abstract
Purpose:
To understand the effect of pro-tobacco marketing on electronic cigarette and combustible cigarette dual use among US middle and high school students under 18 years of age.
Design:
Data were derived from the 2018 National Youth Tobacco Survey, an annual self-administered school-based cross-sectional survey.
Setting:
The survey was administered in public and private middle and high schools across the United States.
Participants:
The probability sample size was 15 238 middle and high school students with complete responses who were under 18 years of age during the study period.
Measures:
The study measured self-reported exposure to online combustible and electronic cigarette advertisements, dual use of combustible and electronic cigarettes during the past 30 days, exposure to the Real Cost antitobacco campaign advertisements, and other sociodemographic factors (eg, race/ethnicity, gender, and grade).
Analysis:
Logistic regressions were used to measure pro-tobacco marketing exposure and dual use as a function of pro-tobacco marketing exposure.
Results:
Descriptive analyses show that 59.0% of respondents were exposed to pro-tobacco online marketing, and 2.9% were dual users. Dual users (odds ratio [OR] = 1.73) and high school students (OR = 1.43) were more likely to report exposure to online pro-tobacco marketing.
Conclusions:
Findings indicate that a gap in electronic cigarette pro-tobacco marketing regulatory oversight may exist. Further policy action may be warranted to protect the public health of minors and other vulnerable populations who are most susceptible to pro-tobacco marketing.
Integrating Social Dynamics Into Modeling Cigarette and E-Cigarette Use
https://journals.sagepub.com/doi/abs/10.1177/1090198119876242
Abstract
Background.
The use of electronic cigarettes (e-cigarette) offers potential to facilitate cigarette smoking cessation, yet potentially increases risk of cigarette smoking initiation. This relationship has been primarily modeled in mathematical ways that often do not represent real-world complexities, which could inform decisions regarding local prevention programs or policies. Aims. To develop a model of cigarette and e-cigarette use that combines current research on tobacco use and incorporates real-world geographic and demographic data. Method. We used a platform for developing agent-based models with demographic information representative of the population in Pennsylvania. We developed three models of cigarette and e-cigarette use. The primary outcome for each was the total number of users for cigarette, e-cigarette, and total nicotine. The first model applied current cigarette and e-cigarette data, the second tested the effect of implementing a program of e-cigarette education and policies, and the third considered a social contagion factor, where local schools functioned as a transmission vector. Results. The baseline and social contagion models found an overall decline in cigarette use but an increase in e-cigarette and total nicotine use. The education/policies model had declines in all categories. Sensitivity analysis suggested the importance of nuanced e-cigarette/cigarette interactions when modeling tobacco use.
Discussion.
Public health campaigns that focus on reducing youth e-cigarette usage can have a large effect. Social contagion should be strongly considered when studying e-cigarette spread. Conclusion. Targeted public health campaigns focused on reducing school prevalence of e-cigarette use may be particularly valuable.
E-cigarette users are exposed to potentially harmful levels of metal linked to DNA damage
Zinc excess in the body correlates with oxidative stress
https://www.eurekalert.org/pub_releases/2020-02/uoc–eua022020.php
RIVERSIDE, Calif. — Researchers at the University of California, Riverside, have completed a cross-sectional human study that compares biomarkers and metal concentrations in the urine of e-cigarette users, nonsmokers, and cigarette smokers.
They found that the biomarkers, which reflect exposure, effect, and potential harm, are both elevated in e-cigarette users compared to the other groups and linked to metal exposure and oxidative DNA damage.
“Our study found e-cigarette users are exposed to increased concentrations of potentially harmful levels of metals — especially zinc — that are correlated to elevated oxidative DNA damage,” said Prue Talbot, a professor of cell biology, who led the research team.
Zinc, a dietary nutrient, plays key roles in growth, immune function, and wound healing. Too little of this essential trace element can cause death; too much of it can cause disease. Its deficiency, as well as its excess, cause cellular oxidative stress, which, if unchecked, can lead to diseases such as atherosclerosis, coronary heart disease, pulmonary fibrosis, acute lymphoblastic leukemia, and lung cancer.
Electronic cigarettes consist of a battery, atomizing unit, and refill fluid. Metals in e-cigarette aerosols come mainly from the metal components in the atomizer– nichrome wire, tin solder joints, brass clamps, insulating sheaths, and wicks — as well as the e-fluids that the atomizers heat.
The study, which appears in BMJ Open Respiratory Research, marks the first time researchers have examined and quantified urinary biomarkers of effect and potential harm in relation to metals in e-cigarette users.
A biomarker is a quantifiable characteristic of a biological process. Biomarkers allow researchers and physicians to measure a biological or chemical substance that is indicative of a person’s physiological state. Previous e-cigarette studies with humans have examined biomarkers of exposure — for example, nicotine or nicotine metabolites — but none have studied biomarkers of potential harm or shown how this harm correlates with metal exposure.
The biomarkers studied by the UC Riverside researchers were 8-hydroxydeoxyguanosine (8-OHdG), a biomarker of oxidative DNA damage; 8-isoprostane, an indicator of the oxidative degradation of lipids; and metallothionein, a metal response protein. All three biomarkers were significantly elevated in e-cigarette users compared to the concentrations in cigarette smokers.
“Our findings reaffirm that e-cigarette use is not harm free,” said Shane Sakamaki-Ching, a graduate student in the Cell, Molecular and Developmental Biology Graduate Program and the research paper’s first author. “Indeed, prolonged use may lead to disease progression.”
The researchers advise physicians to exercise caution when recommending e-cigarettes to their patients. Electronic cigarette aerosols contain potentially harmful chemicals, cytotoxic flavor chemicals, metals, ultrafine particles, and reaction products. E-cigarette use has been linked to adverse health effects such as respiratory diseases, increased risk for cardiovascular disease, and impaired wound healing following surgery.
“Pregnant women, especially, should not be encouraged to use e-cigarettes,” Talbot said. “Excess of zinc in their bodies can lead to nausea and diarrhea. Given the recent deaths and pulmonary illnesses related to e-cigarette usage, everyone should be made aware of the potential health risks linked to e-cigarette usage.”
The study involved 53 participants from the Buffalo, New York, area. Talbot and Sakamaki-Ching were joined in the study by Monique Williams, My Hua, Jun Li, Steve M. Bates, Andrew N. Robinson, and Timothy W. Lyons of UCR; and Maciej L. Goniewicz of the Roswell Park Comprehensive Cancer Center, Buffalo, New York.
The study was supported by grants from the National Institutes of Health.