Omsk, Russian Federation
UDK 616 Патология. Клиническая медицина
GRNTI 76.29 Клиническая медицина
OKSO 31.05.03 Стоматология
BBK 566 Стоматология
Subject is oral fluid and its changes under the influence of electromagnetic radiation from a personal computer. Purpose of research is to identify changes in the physicochemical parameters of the mixed saliva of users before and after working on the computer; to determine the protective properties of the mouthwash against the impact of computer electromagnetic radiation on the oral fluid. Methodology. The research work involved 20 men aged 20–24 years. The study consists of two blocks. The first block is aimed at identifying changes in the physicochemical parameters of mixed saliva under the influence of electromagnetic radiation from a personal computer. The second block is focused on determining the protective properties of the rinse aid of a well-known Russian brand from the effects of electromagnetic radiation from a personal computer on the oral fluid. The material of the study is oral fluid, which was used for potentiometric determination of pH, acid and alkaline buffer capacities, surface tension, total protein concentration, inorganic phosphorus, ammonium, potassium, sodium, magnesium, calcium, and α-amylase activity. The obtained data were processed in the Statistica 8.0 program. Basic statistics are applied, multiple comparison of fees using the Friedman criterion. Pairwise comparison of collections was carried out using the Wilcoxon test. The result is presented as the median (lower and upper quartiles). Differences were considered significant at p < 0.05. Results. The action of the electromagnetic field of a personal computer caused a decrease in the level of most of the physicochemical parameters of mixed saliva. The use of a mouthwash from a well-known Russian commercial and industrial company helped to reduce the number of saliva components exposed to electromagnetic radiation from a personal computer. Conclusion. The electromagnetic radiation of a personal computer has an adverse effect on the physicochemical parameters of mixed saliva. The rinse aid makes it possible to stabilize the changes in the mixed saliva of a person, caused by the action of the electromagnetic field of a personal computer. This hygienic product can be considered as a way to protect the oral fluid of computer users from the adverse effects of electromagnetic radiation from a personal computer.
mixed saliva, personal computer, electromagnetic radiation, mouth rinse, saliva diagnostics
1. Karnauhov I.S., Chestnyh E.V., Zaharova E.L., Balayan E.G. Vliyanie izlucheniya komp'yutera na sostoyanie polosti rta. The Scientific Heritage. 2021;80-3(80):50-54. [I.S. Karnaukhov, E.V. Chestnyh, E.L. Zakharova, E.G. Balayan. The influence of computer radiation on the state of the oral cavity. The scientific heritage. 2021;80-3(80):50-54. (In Russ.)]. Doi:https://doi.org/10.24412/9215-0365-2021-80-3-50-54.
2. Leont'eva E.Yu., Bykovskaya T.Yu., Ivanov A.S. Vliyanie neioniziruyuschego izlucheniya na sostoyanie tkaney polosti rta: obzor literatury. Glavnyy vrach Yuga Rossii. 2018;6(64):6-9. [E.Yu. Leontieva, T.Yu. Bykovskaya, A.S. Ivanov. Influence of non-ionizing radiation on the state of oral tissues. Chief Physician of the South of Russia. 2018;6(64):6-9. (In Russ.)]. https://www.elibrary.ru/item.asp?id = 36855679
3. Rybas A.D. Issledovanie vliyaniya elektromagnitnogo polya personal'nogo komp'yutera na rabochem meste dispetchera CPPS. Nedelya nauki ISI : sbornik materialov vserossiyskoy konferencii. 2021:72-74. [A.D. Rybas. Study of the influence of the electromagnetic field of a personal computer on the workplace of the dispatcher of the CPP. Week of Science ISI : collection of materials of the All-Russian Conference. 2021:72-74. (In Russ.)]. https://www.elibrary.ru/item.asp?id = 46163009
4. Skvorcov V. Obespechenie elektromagnitnoy sovmestimosti sovremennyh bytovyh priborov i biologicheskih ob'ektov kak metod uluchsheniya ekologicheskoy obstanovki v nashey srede obitaniya. Silovaya elektronika. 2018;73(4):56-62. [V. Skvortsov. Ensuring the electromagnetic compatibility of modern household appliances and biological objects as a method of improving the ecological situation in our environment. Power electronics. 2018;73(4):56-62. (In Russ.)]. https://www.elibrary.ru/item.asp?id = 35510800
5. Tischuk A.A., Tesleva E.P. Vliyanie elektromagnitnyh izlucheniy na cheloveka, ishodyaschih ot telefonov i komp'yuterov. Bezopasnost' zhiznedeyatel'nosti predpriyatiy v promyshlenno razvityh regionah : sbornik materialov XIV mezhdunar. nauchno-prakt. Konferencii. 2021:507-1-507-4. [A.A. Tishchuk, E.P. Tesleva. The effect of electromagnetic radiations on a person coming from phones and computers. Life safety of enterprises in industrially developed regions : collection of materials of the XIV international scientific-practical conference. 2021:507-1-507-4. (In Russ.)]. https://www.elibrary.ru/item.asp?id = 47668291
6. Kurtulus Ongel. Effects of electromagnetic field on human body // 5th International Congress of Health sciences and family medicine. - 2020:399-400. https://www.researchgate.net/publication/348563155_effects_of_electromagnetic_field_on_human_body
7. Monalisha Sahu, Shyambhavee Behera, Biswadip Chattopadhyay. The Influence of Electromagnetic Field Pollution on Human Health: A Systematic Review // Siriraj Medical Journal. - 2021;73(7):485-492. https://doi.org/10.33192/Smj.2021.63
8. Vijay Kumar, Jasmeet Kalra, Deepat Kotnala, Bhaskar Pant. Effects of Computer/Laptop Screen Radiation on Human Beings // International Journal of Innovative Technology and Exploring Engineering. - 2019;8(12S3):97-100. Doi:https://doi.org/10.35940/ijitee.D1015.10812S319.