Indices of freeradical oxidation in rats during “passive tobacco smoking” on the basis of prolonged administration of monosodium glutamate in the sex and age aspects
DOI:
https://doi.org/10.11603/mcch.2410-681X.2017.v0.i4.8434Keywords:
tobacco smokе, sodium glutamate, free radical oxidation.Abstract
Introduction. The widespread prevalence of tobacco smoking is a global problem of humanity, the solution of which is directed at the efforts of many scientists and professionals. At the same time, the distinctive feature of modern food technologies is the use of nutritional supplements. One of the most common nutritional supplements in Ukraine and in Europe is glutamate sodium (E621), which is not always safe for human health.
The aim of the study – to investigate indices of free radical oxidation in rats during “passive tobacco smoking” on the basis of prolonged administration of monosodium glutamate in the sex and age aspects.
Research Methods. The study was conducted on 160 white, non-linear, sexually mature and sexually immature rats of both sexes. Each group of animals was divided into four subgroups: I – control; ІІ – rats, which were modeled “passive tobacco smoking”; ІІІ – rats, which were given glutamate of sodium; IV – rats, which were modeled "passive tobacco smoking" against the background of the introduction of glutamate sodium.
Results and Discussion. Under the condition of «passive tobacco smoking» there is a pronounced increase in the TBА-active products (TBА-AP)content both in serum and in the lung tissue homogenate. In male-rats, this indicator has significantly increased by 3.3 and 4.2 times, respectively, and in female-rats – by 3.9 and 5.2 times, respectively. Given the prolonged administration of sodium glutamate in male-rats, this indicator significantly increased by 1.6 and 2.1 times, and in females-rats by 19.6 % and 53.9% respectively. In animals, which were modeled «passive tobacco smoking» and administered glutamate sodium, the most pronounced increase in the content of TBА-AP was established. In male-rats, this indicator has increased significantly in 4.9 and 6.8 times, and in female-rats – by 6.5 and 8.9 times, respectively.
Conclusions. Under the condition of «passive tobacco smoking» intensification of peroxide oxidation of lipids (increase in the content of TBА-active products) in blood and lung tissue is observed, more pronounced under the condition of “passive tobacco smoking” against the background of the introduction of glutamate sodium. In the sexual comparison of changes in the system of lipid peroxidation, their reliable prevalence in female-rats was revealed. With the age-old comparison of changes in the system of lipid peroxidation, their reliable prevalence in immature animals has been established.
References
Jamal, A., King, B. A., Neff, L. J., Whitmill, J., Babb, S. D. & Graffunder, C. M. (2016). Current cigarette smoking among adults – United States, 2005-2015. Morbidity and Mortality Weekly Report, 65, 1205-1211.
Onor, I. O., Stirling, D. L., Williams, S. R., Bediako, D., Borghol, A., Harris, M. B., Darensburg, … Sarpong, D. F. (2017). Clinical Effects of Cigarette Smoking: Epidemiologic Impact and Review of Pharmacotherapy Options. International Journal of Environmental Research and Public Health, 14, 1147.
Bakhariev, V. S. & Kortsova O. L. (2009). Shkidlyvi zvychky yak chynnyk formuvannia ekolohichnoi nebezpeky impaktnoho rivnia [Harmful habits as a factor in the formation of the ecological danger of the impact level]. Ekolohichna bezpeka – Ecological safety, 1(5), 68-72 [in Ukrainian].
Tiazhka, O. V. & Vankhanova, T. O. (2012). Pasyvne kurinnia ditei rannoho viku [Passive smoking for young children]. Medytsyna transportu Ukrainy – Medicine of transport of Ukraine, 1, 93 [in Ukrainian].
Pikas, O. B. (2016). Kurinnia tsyharok sered naselennia ta yoho rol u rozvytku zakhvoriuvan [Smoking of cigarettes among the population and its role in the development of diseases]. Visnyk problem biolohii i medytsyny – Bulletin of the problems of biology and medicine, 1, 1(126) [in Ukrainian].
Kontrol nad tiutiunom v Ukraini. Druhyi Natsionalnyi zvit. [Tobacco Control in Ukraine. Second National Report]. (2014). Kyiv: MOZ Ukrainy, DU «Ukrainskyi instytut stratehichnykh doslidzhen MOZ Ukrainy» [in Ukrainian].
Beltiukova, S. V. & Malinka, E. V. (2016). Opredelenie glutamata natriia metodom tonkosloinoi khromatografii s liuminestcentnym detektirovaniem [Determination of sodium glutamate by thin layer chromatography with luminescent detection]. Visnyk Odeskoho natsionalnoho universytetu. Khimiia – Bulletin of Odessa National University. Chemistry, 21, 1(57) [in Russian].
Bevzo, V. V. (2016). Doslidzhennia toksodynamiky hlutamatu natriiu na orhanizm shchuriv za umov tryvaloho yoho vvedennia [Research toxicodynamics sodium glutamate in rats under prolonged its introduction]. Klinichna ta eksperementalna patolohiia – Journal of Clinical and experimental pathology, 2(56), 13-16 [in Ukrainian].
Geha, R., Beiser, A. & Ren, C. (2000). Review of alleged reactions to monosodium glutamate and outcome of a multicenter double blind placebo-controlled study. Journal of Nutritional, 130, 1058-1062.
Falalieieva, T. M., Kukharskyi, V. M. & Berehova, T. V. (2010). Vplyv tryvaloho vvedennia hlutamatu natriiu na strukturno-funktsionalnyi stan shlunka u shchuriv [The impact of prolonged administration of sodium glutamate on the structural and functional state of the stomach in rats]. Fiziolohichnyi zhurnal – Journal of Physiology, 2 (56), 201 [in Ukrainian].
Bishko, O. I., Harasym, N. P. & Sanahurskyi, D. I. (2014). Vmist pervynnykh i vtorynnykh produktiv lipoperoksydatsii u tkanynakh shchura za dii histaminu ta hipokhlorytu natriiu [Content of primary and secondary lipoperoxidation products in rat tissues under the action of histamine and sodium hypochlorite]. Біологічні Студії – Studia Biologica, 8, 2, 75-90 [in Ukrainian].
Solomina, A. S. (2011). Vliyanie afobazola na geneticheskuyu i reproduktivnuyu toksichnost tabachnogo dyma u krys [The effect of afobazole on the genetic and reproductive toxicity of tobacco smoke in rats]. Candidate’s thesis. Moscow: NII farmakologii imeni V. V. Zakusova RAMN [in Russian].
Lizurchik, L. V. & Sheida, E. V. (2014). Vliyanie tabachnogo dyma na soderzhanie toksichnykh elementov v organizme krys [Effect of tobacco smoke on the content of toxic elements in the body of rats]. Vestnik OGU – Journal of the Orenburg State University, 6 (167), 71-74 [in Russian].
Falalieieva, T. M., Samonina, G. E., Beregovaia, T. V., Dziubenko N. V. & Andreeva L. A. (2010). Vliianie gliprolinov na strukturno-funktcionalnoe sostoianie slizistoi obolochki zheludka i massu tela krys v usloviiakh dlitelnogo vvedeniia glutamata natriia [The effect of glyprolines on the structural and functional state of the gastric mucosa and the body weight of rats under conditions of prolonged administration of sodium glutamate]. Fizyka zhyvoho – Journal of the Physics of the Living, 18, 1, 154-159 [in Russian].
Council of Europe (1986). European convention for the protection of vertebrate animals used for experimental and other scientific purposes. Strasbourg, 123, 52.
Korobeinikova, E. N. (1989). Modifikatciia opredeleniia produktov POL v reaktcii s tiobarbiturovoi kislotoi [Modification of the determination of LPO products in reaction with thiobarbituric acid]. Laboratornoe delo – Journal of Laboratory science, 7, 8-10 [in Russian].
Ide, T., Tsutsui, H., Ohashi, N., Hayashidani, S., Suematsu, N., Tsuchihashi, M., … Takeshita, A. (2002). Greater Oxidative Stress in Healthy Young Men Compared With Premenopausal Women. Journal of Arteriosclerosis, Thrombosis, and Vascular Biology, 22(3), 438-442.
Mazhitova, M. V. & Teplyi, D. D. (2010). Vozrastnye i polovye osobennosti svobodnoradikalnykh protcessov i antioksidantnoi zashchity plazmy krovi belykh krys [Age and sexual characteristics of free radical processes and antioxidant protection of blood plasma of white rats]. Estestvennye nauki – Journal of natural sciences, 1(30), 79-85 [in Russian].
Yanbaeva, D. G., Dentener, M. A., Creutzberg, E. C., Wesseling, G. E. & Wouters, F. M. (2007). Systemic Effects of Smoking. Chest, 131(5), 1557-1566.
Orhan, H., Evelo, C. T. & Sahin, G. (2005). Erythrocyte antioxidant defence response against cigarette smoking in humans: the glutathione S-transferase vulnerability. Journal of Biochemical and Molecular Toxicology, 19, 226-233.
Ochs-Balcom, H. M., Grant, B. J. & Muit P. (2005). Oxidative stress and pulmonary function in the general population. American Journal of Epidemiology, 162, 1137-1145.
Murărescu, E. D., Iancu, R. & Mihailovici, M. S. (2007). Morphological changes positive correlates with oxidative stress in COPD. Preliminary data of an experimental rat model – study and literature review. Romanian Journal of Morphology and Embryology, 48(1), 59-65.
Nesterov, Iu. V. (2003). Perekisnoe okislenie lipidov v legochnoi tkani krys raznogo vozrasta v usloviiakh ostrogo emotcionalno-bolevogo stressa [Peroxide oxidation of lipids in the lung tissue of rats of different ages in conditions of acute emotional and painful stress]. Vestnik OGU - Bulletin of the Orenburg State University, 6, 152-155 [in Russian].
Onyema, O. O., Alisi, C. S., Ihetuge, A. P. (2012). Monosodium Glutamate Induces Oxidative Stress and Affects Glucose Metabolism in the Kidney of Rats. International Journal of Biochemistry Research & Review, 1, 2, 1-11.
Hordiienko, L. P., Berehova, T. V., Neporada, K. S. & Falalieieva, T. M. (2014). Rozvytok oksydatyvnoho stresu v tkanynakh slynnykh zaloz shchuriv za umov hlutamatindukovanoho ozhyrinnia [Development of oxidative stress in tissues of the salivary glands of rats under glutamate induced obesity]. Fiziolohichnyi zhurnal – Journal of Physiology, 4 (60), 105-107 [in Ukrainian].
Logashova, O. S., Lopatin, I. V. & Anishchenko T. G. Soderzhanie malonovogo dialdegida i tceruloplazmina v syvorotke krovi muzhchin i zhenshchin raznogo vozrasta [The content of malonic dialdehyde and ceruloplasmin in the blood serum of men and women of different ages]. Uspekhi sovremennogo estestvoznaniia – Journal of Progress of Modern Natural Science, 10, 39 [in Russian].