The time pattern of selenomethionine administration in preventing free radicals due to exposure to electric cigarette smoke

<em>Brassica oleracea</em> var. italica extract reducing free radicals and inflammation initiated by an exposure to cigarette smoke

Introduction: Herbal extracts are often administered to cigarette smokers to prevent excessive free radicals. These include Brassica oleracea var. Italica, known to contain high antioxidant flavonoids and selenium micronutrients. Therefore, this study aims to determine the efficacy of Brassica oleracea var extract. italica in reducing the free radicals and inflammation present in experimental animals exposed to cigarette smoke. Design and Methods: This research was conducted based on an experimental method using a randomized controlled trial (RCT) for 21 days. The animals used were divided into six groups (negative control, positive control, and four treatments). Particularly, the positive control and treatment groups were exposed to cigarette smoke for 2 minutes, twice a day, at 50 PPM CO levels. The treatment groups were administered the extract at different doses (0.5 ml; 0.75 ml; 1 ml; 1.25 ml), before assessing the blood level of malondialdehyde and C-Reactive Protein. Result: The results showed the tendency for exposure to smoke to increase the number of free radicals and stimulate inflammation responses in the body (P<0,05). In addition, a strong correlation between variables was established (p=0.000; r=0.713). Conclusions: Broccoli extracts (Brassica oleracea L. var. Italica) administration has the potential to cause a decline in the two aspects, including free radicals and inflammation responses resulting from exposure to cigarette smoke.  

E-cigarette aerosol exacerbates cardiovascular oxidative stress in mice with an inactive aldehyde dehydrogenase 2 enzyme

BACKGROUND

E-cigarette aerosol containing aldehydes, including acetaldehyde, are metabolized by the enzyme aldehyde dehydrogenase 2 (ALDH2). However, little is known how aldehyde exposure from e-cigarettes, when coupled with an inactivating ALDH2 genetic variant, ALDH2*2 (present in 8% of the world population), affects cardiovascular oxidative stress.

OBJECTIVES

The study was to determine how e-cigarette aerosol exposure, coupled with genetics, impacts cardiovascular oxidative stress in wild type ALDH2 and ALDH2*2 knock-in mice.

METHODS

Using selective ion flow mass spectrometry, we determined e-cigarette aerosol contains acetaldehyde levels 10-fold higher than formaldehyde or acrolein. Based on this finding, we tested how isolated ALDH2*2 primary cardiomyocytes respond to acetaldehyde and how intact ALDH2*2 knock-in rodents instrumented with telemeters respond physiologically and at the molecular level to 10 days of e-cigarette aerosol exposure relative to wild type ALDH2 rodents.

RESULTS

For ALDH2*2 isolated cardiomyocytes, acetaldehyde (1 μM) caused a 4-fold greater peak calcium influx, 2-fold increase in ROS production and 2-fold increase in 4-HNE-induced protein adducts relative to wild-type ALDH2 cardiomyocytes. The heart rate in ALDH2*2 mice increased ∼200 beats/min, while, heart rate in ALDH2 mice increased ∼150 beats/min after 10 days of e-cigarette exposure, relative to air-exposed mice. E-cigarette aerosol exposure triggered ∼1.3 to 2-fold higher level of protein carbonylation, lipid peroxidation, and phosphorylation of NF-κB for both strains of mice, with this response exacerbated for ALDH2*2 mice.

CONCLUSIONS

Our findings indicate people carrying an ALDH2*2 genetic variant may be more susceptible to increases in cardiovascular oxidative stress from e-cigarette aerosol exposure.

Knowledge and attitudes on smoking cessation of e-cigarettes: a mixed-methods study of pharmacy students in Surabaya, Indonesia

Background

Pharmacy students as candidates for health workers who will take part in smoking cessation. Knowledge and attitudes of smoking cessation can help map the behavior of pharmacists in the future. This study aimed to explore knowledge and attitudes on smoking cessation of e-cigarettes with the mixed methods study of pharmacist students.

Method

This research was conducted in Januari-Juni 2021 in Surabaya. The research design was mix-method with sequential explanatory strategy. The variables were knowledge and attitudes on smoking cessation of e-cigarettes. The sample in this qualitative approach was derived from a sample of quantitative data. Respondents were interviewed in depth until the data reached the saturation level in order to obtain good and usable qualitative data.

Results

This study involved 31 respondents. The highest level of knowledge about dangers of e-cigarettes, especially related to nicotine (100% of respondents answered correctly). The highest positive level of attitude about dangers of e-cigarettes, especially e-cigarettes harmful to passive smokers (27% of respondents had positive attitude). Cigarettes were harmful to lung and cardiovascular health, regarding the dangers of passive smoking, some agree and disagree. Non-smokers didn't need to be recommended for e-cigarettes, e-cigarettes can be recommended for tobacco smokers, e-cigarettes cause addiction, and e-cigarettes can be a good recommendation for those who want to carry out smoking cessation. Regulation of e-cigarettes in Indonesia was considered to be lacking and needs to be improved.

Conclusions

Pharmacist students have a high level of knowledge and a positive attitude towards smoking cessation.