I.I. Sokolova, K.V. Skydan, M.I. Skydan, A.P. Levitskiy, Y.A. Slynko

PATHOGENETIC MECHANISMS OF EXPERIMENTAL GINGIVITIS PROGRESSION UNDER THE INFLUENCE OF LIPOPOLYSACCHARIDE

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About the author:	I.I. Sokolova, K.V. Skydan, M.I. Skydan, A.P. Levitskiy, Y.A. Slynko
Heading	EXPERIMENTAL MEDICINE
Type of article	Scentific article
Annotation	The paper presents the results of patogenetic rationale for the use of gel with lipopolysaccharide for gingivitis modelling. It shows, that lipopolysaccharide applications lead to significant increase in activity of elastase by 26.8%, malonic dialdehyde by 32.8%, urease by 78.9%, degree of dysbiosis by 32.6%, decrease in activity of lysozyme by 57.6% and antioxidant-prooxidant index by 29.7%. Thus, lipopolysaccharide application leads to the progression of inflammation processes in gums of experimental animals, dysbiosis and oxidative stress, that is pathogenetic links of gingivitis progression in humans as well.
Tags	gingivitis, periodontal disease, experimental model, experimental animals, lipopolysaccharide
Bibliography	Amelina NV, Levitskiy AP. Sravnitelnoye izucheniye profilakticheskoy effektivnosti letsitinovykh preparatov na fone sochetannoy patologii pecheni i kariyesa zubov u krys. Visnyk stomatolohiyi. 2008; 2: 2-6. [in Russian] Bulatova YeM, Bogdanova NM. Znacheniye kishechnoy mikrobioty i probiotikov dlya formirovaniya immunnogo otveta i zdorovya rebenka. Voprosy sovremennoy pediatrii. 2010; 9(1): 37-44. [in Russian] Bykova NI, Odolskiy AV, Grigoryan VA Eksperimentalnoye obosnovaniye primeneniya glyukozamina gidrokhlorida i khondroitina sulfata pri zabolevaniyakh parodonta. Meditsinskiy vestnik Severnogo Kavkaza. 2017; 2(12): 195-198. [in Russian] Gorbacheva IA, Shestakova LA. Patogeneticheskaya komorbidnost zabolevaniy vnutrennikh organov i polosti rta. Parodontologiya. 2008; 3 (48): 3 - 5. [in Russian] Levitskiy AP., Denga OV, Makarenko OA. [i dr.]. Biokhimicheskiye markery vospaleniya tkaney rotovoy polosti. Odessa. 2010: 16. [in Russian] Levitskiy AP, Makarenko OA, Selivanskaya IA. [i dr.] Fermentativnyi metod opredeleniya disbioza polosti rta dlya skrininga pro- i prebiotikov: metod. rekomendatsii. Kiev. Gosudarstvennyi Farmakologicheskiy Tsentr. 2007: 23. [in Russian] Romanenko YeG. Sostav glikoproteinov rotovoy zhidkosti u detey s khronicheskoy gastroduodenalnoy patologiyey. Ukrainskiy stomatolohichnyi almanakh. 2012; 2 (2): 37-40. [in Russian] Sirak SB, Bykova NI, Shchetinin YeV, Petrosyan GG, Didenko NN, Tsymbalov OV. Fermentativnyye zashchitnyye mekhanizmy parodonta pri yeksperimentalnom vospalenii. Meditsinskiy vestnik Severnogo Kavkaza. 2017; 4(12): 414-417. [in Russian] Adler I, Muiño A, Aguas S. [et al.] Helicobacter pylori and oral pathology: relationship with the gastric infection [Electronic resourse]. World Journal Gastroenterology. 2014; 20: 9922 - 9935. Crispe JN. The liver as a lymphoid organ. Annual Review of Immunology. 2009; 27: 147-163. Elias E, Mills ChO. Coordinated defence and the liver. Clin. Med. 2007; 7 (2): 180-184. Sawaki K, Shinomiya T, Okubo M. [et al.] Proteomic analysis of Lipopolysaccharide-treated submandibular gland in rat. Bull. Tokyo Dent. Coll. 2011; 52 (1): 31-37. Sönmez K, Karabulut R, Türkylilmz Z. [et al.] Association of tumor necrosis factor, interleukin‑6 and cyclooxygenase, pathway with lipopolysaccharide-induced intussusception. Eur. J. Pediatr. Turg. 2008; 18 (2): 103-106. Wang X, Quinn P. Endotoxins: Structure, Function and Recognition . Seria: Subcellular Biochemistry. Springer. 2010; 53: 415.
Publication of the article	«World of Medicine and Biology» №1(67), 2019 year, 187-190 pages, index UDK 616. 314. 17 – 008. 1 – 092: 612. 123
DOI	10.26724/2079-8334-2019-1-67-187