👤 Magdalena Szumska

Environmental Tobacco Smoke (ETS) is ranked as one of the factors of confirmed carcinogenicity to human. It consists of the mixture of smoke exhaled by the smoker as well as the sidestream smoke and contains many times higher concentrations of some toxic substances in comparison to the amount of toxic compounds inhaled by a smoker. From many years the issue of passive smoking has been the subject of many research and still not all of its aspects of affecting human health have been explored. Apart from the tobacco varieties, also diverse additives added during the process of tobacco manufacturing, including particularly carbohydrates, influence the composition of the environmental tobacco smoke. During smoking they can undergo many complex transformations, as a result of which toxic components of the environmental tobacco smoke are formed, carbonyl compounds in particular, like aldehydes. They are marked by a significant chemical reactivity which enables them to modify amino groups of proteins leading to the changes in their structure, biological functions and often antigenicity. Therefore their influence to the human body is the cause of numerous adverse health effects caused by the increase in free radical processes which can constitute to the source of these compounds. Well known representative of this group of xenobiotics is formaldehyde as a compound that reflects well the environmental exposure to carbonyl compounds. The considerable source of this compound is tobacco smoke. Therefore analysis of formaldehyde in body fluids is a valuable biomonitoring tool of exposure to it. The aim of this study was the evaluation of formaldehyde concentration in urine samples of medicine students exposed to ETS. The study material consisted of 149 urine samples of students from School of Medicine with the Division of Dentistry in Zabrze, Medical University of Silesia. The concentration of formaldehyde in urine samples was determined by a spectrophotometric method using the Purpald reagent. To verify the collected questionnaire data regarding exposure to constituents of tobacco smoke, the immuno-enzymatic method was used to determine main nicotine metabolites in tested urine samples. This enabled dividing the investigated students' group into active smokers, passively exposed to tobacco smoke and not exposed. Analysis of obtained results showed that mean concentration of formaldehyde in urine of active smokers (68.45 ± 58.67 µmol/l) and passive smokers (79.23 ± 53.64 µmol/l) were significantly higher in comparison to not exposed students (42.99 ± 30.29 µmol/l). Mean concentrations of formaldehyde in urine samples of active and passive smokers are comparable. The results of our study allow to conclude that passive exposure to tobacco smoke is an equivalent source of exposure to active smoking regarding formaldehyde adverse influence to human. Applied method enables to quick evaluation of formaldehyde concentration in biological samples. Show less

Negative attitudes in health such as cigarette smoking and imbalanced diet play important role in pathogenesis of various diseases. Cigarette smoking constitutes one of the main sources of exposure to cancerogenic and procancerogenic xenobiotics among adults as well as among young people. Many studies have proven that cigarettes smokers more frequently follow less varied diet in comparison to non-smokers. Despite increasing knowledge of Poles regarding harmful effects of cigarettes smoking and numerous antinicotine campaigns, still high number of women and men smoke and the smoking percentage among young people remains high and has not decreased in the recent years. The ongoing research shows that free radicals -the man cause of exposure to oxidative stress- play the seminal role in pathogenesis of civilisation diseases and physiological cell aging processes. Reactive oxygen and nitrogen species present in cigarette smoke due to induced toxic compounds formation, are closely connected with observed increased risk of cancer, Chronic Obstructive Pulmonary Disease (COPD) and arteriosclerosis incidents. Malondialdehyde is one of the most studied product of lipid peroxidation and biomarker of oxidative stress. However, 3-nitrotyrosine is one of the most promising biomarkers regarding changes caused by oxidative stress in living organisms. The presence of 3-nitrotyrosine was observed in many diseases such as coronary artery disease, cancer and diabetes. The aim of the study was the evaluation of free radical processes increase related to tobacco smoke exposure and chosen diet habits by determination of 3-nitrotyrosine in plasma samples collected from the group of medicine students. In our investigation we used an author's questionnaire which served to estimate the exposure to tobacco smoke among medicine students. It took also into account the knowledge of the exposure to other xenobiotics and unhealthy habits/behaviours. The investigated group included 150 students of 1-st and 2-nd year of study at Faculty of Medicine and Dentistry Division in Zabrze, Silesian Medical University. 120 students provided blood samples for further analysis. In the study group 52 students were active smokers and the control group consisted of 68 non-smokers. 3-nitrotyrosine was determined with the use of ELISA technique. The mean concentration of 3-nitrotyrosine was higher in the group of smoking students in comparison to the control group. Diet habits also influenced the concentration of 3-nitrotyrosine. Eating food products of possibly high acrylamide level and drinking alcohol led in particular to observed increased concentrations of 3-nitrotyrosine in both students groups. The correlation between the food habits and the severity of nitrosative stress was also found. Show less

Cigarette smoking constitutes one of the main sources of exposure to cancerogenic and procancerogenic xenobiotics in the human population. Smoking is not only a bad habit among adults but also among young people. Despite many anti-tobacco campaigns undertaken by European Union countries still the smoking percentage among young people is high and does not decrease in the recent years. Cigarettes smoking induces formation of reactive oxygen species and increases lipids peroxidation, which ultimately results in the production of MDA (malondialdehyde)--one of the oxidative stress biomarkers. Exposure to oxidative stress and the consequences of its influence can be measured by redox parameters monitoring. One of these methods is determination of total antioxidant activity by means of FRAP test (Ferric Reducing Antioxidant Power) in biological samples. The aim of this work was the evaluation of free radical processes increase related to tobacco smoke exposure by measurement of total antioxidant activity FRAP and MDA concentration in urine samples of medical students. In our study the authors'--designed questionnaire regarding the assessment of exposure to tobacco smoke and chosen xenobiotics was used. The investigated group included 134 students of 1-st and 2-nd year of study at Faculty of Medicine and Dentistry Division in Zabrze, Silesian Medical University. 85 students provided urine samples for further analysis. In the study group 40 students were active smokers and the control group consisted of 45 nonsmokers. The mean MDA concentrations in smoking students group were higher in comparison to the control group of non-smoking students. In the group of students exposed to second-hand smoke MDA concentrations were significantly higher in comparison to the group of students non-exposed to second hand smoke. The values of FRAP parameter were significantly higher for students who smoked in comparison with students non-exposed to tobacco smoke. Students exposed to second hand smoke had slightly higher FRAP values in comparison to smoking students. Exposure to tobacco smoke increased the intensity of free radical processes. Our study confirmed the harmful influence of second hand smoke that resulted in observed higher concentrations of determined biomarkers in the group of passive smoking students. Show less