Perm', Perm, Russian Federation
Perm, Perm, Russian Federation
Perm, Perm, Russian Federation
from 01.01.2004 to 01.01.2018
Perm', Perm, Russian Federation
from 01.09.1980 to 11.07.2018
Perm, Perm, Russian Federation
Perm, Perm, Russian Federation
Subject of the study is the chemical stability of a complex stabilized zirconium dioxide system of 3 mol.% Y2O3 15 mol.% CeO2 in simulated aggressive media (1 and 10% NaOH; 1 and 10% HCl; 1, 10 and 40% CH3COOH. The goal – to study the effect of various aggressive media on the structural and chemical stability of domestic comprehensively stabilized zirconium dioxide ceramics under experimental conditions. Methods. The tests were carried out on experimental samples of ceramic grinders (40 pcs.) of the same area and shape: the experimental group (20 pcs.) – stabilized zirconium dioxide ceramics, the control group (20 pcs.) – zirconium dioxide ceramics without stabilizing additives. The presence, severity and features of the reaction of zirconium dioxide ceramics to aggressive media were evaluated in a comparative aspect by changing the mass of samples, the microstructure of their surface and the Raman spectra. Results. The interaction of complexly stabilized zirconium dioxide with alkaline solutions does not lead to a statistically significant decrease in the mass of samples, under the action of solutions of organic and inorganic acids, a statistically insignificant (p<0.5) increase in total mass is observed. Scanning electron microscopy of ceramic samples of both groups after exposure to aggressive media did not reveal ultrastructural changes in the surface. Raman spectra of light before exposure in aggressive media showed more favorable values of Raman intensity for stabilized zirconium dioxide, which indicates its better degree of crystallization. After exposure to aggressive media, changes in the crystal lattice of the control samples were determined, for stabilized zirconium dioxide, the ratio I260/I320 did not change. Conclusions and Relevance. Stabilized zirconium dioxide of the system 3 mol.% Y2O3 15 mol.% CeO2 has increased resistance in aggressive environments, which is of practical importance when choosing a ceramic material for the manufacture of dentures, which are exposed to aggressive biological environments of the oral cavity during the entire service life.
dentistry, dentures, ceramic, zirconium dioxide, chemical stability
1. Olesova V.N., Lerner A.Ya., Zaslavskiy R.S., Olesov E.E., Shmatov K.V., Lobanov S.A. Perspektivy primeneniya sverhuprugih beznikelevyh splavov titana v dental'noy implantologii po rezul'tatam eksperimental'nyh issledovaniy. Medicina ekstremal'nyh situaciy. 2018;20(2):153-158. [V.N. Olesova, A.Ja. Lerner, R.S. Zaslavskij, E.E. Olesov, K.V. Shmatov, S.A. Lobanov. Prospects for the use of superelastic nickel-free titanium alloys in dental implantology based on the results of experimental studies. Emergency Medicine. 2018;20(2):153-158. (In Russ.)]. https://www.elibrary.ru/item.asp?id=36286402
2. Shulyatnikova O.A., Chetvertnyh V.A., Rogozhnikov G.I., Chetvertnyh L.A., Korobov V.P., Lemkina L.M. Ocenka izmeneniy fiziologicheskih i gematologicheskih pokazateley eksperimental'nyh zhivotnyh pri vnutrimyshechnoy implantacii dioksida titana, obrabotannogo peptidom varnerinom. Problemy stomatologii. 2018;2(14):115-120. [O.A. Shuljatnikova, V.A. Chetvertnyh, G.I. Rogozhnikov, L.A. Chetvertnyh, V.P. Korobov, L.M. Lemkina. Assessment of changes in physiological and hematological parameters of experimental animals during intramuscular implantation of titanium dioxide treated with the peptide warnerin. Actual problems in dentistry. 2018;2(14):115-120. (In Russ.)]. https://doi.org/10.18481/2077-7566-2018-14-2-115-120
3. Rogozhnikov G.I., Shulyatnikova O.A., Gileva O.S., Rogozhnikov A.G., Nikitin V.N. Funkcional'nye vozmozhnosti keramicheskih nanostruktur, ispol'zuemyh dlya armirovaniya polimernyh konstrukcionnyh materialov stomatologicheskogo naznacheniya. Permskiy medicinskiy zhurnal. 2023;5(40):80-89. [G.I. Rogozhnikov, O.A. Shuljatnikova, O.S. Gileva, A.G. Rogozhnikov, V.N. Nikitin. Functional capabilities of ceramic nanostructures used for reinforcement of polymer structural materials for dental purposes. Perm Medical Journal, 2023;5(40):80-89. (In Russ.)]. https://doi.org/10.17816/pmj40580-89
4. Zholudev S.E., Ivlev Yu.N. Klinicheskiy primer ispol'zovaniya gibridnyh materialov v praktike ortopedicheskoy stomatologii. Problemy stomatologii. 2018;1(14)5:62-65. [S.E. Zholudev, Ju.N. Ivlev. A clinical example of the use of hybrid materials in the practice of orthopedic dentistry. Actual problems in dentistry. 2018;1(14):62-65. (In Russ.)]. https://doi.org/10.24411/2077-7566-2018-100012
5. Smirnov A., Yanushevich O.O., Kriheli N.I., Kramar O.V., Kramar S.V., Peretyagin P.Yu. Issledovanie ustalostnoy prochnosti keramometallicheskih kompozitov pri ciklicheskih nagruzkah. Advances in Science and Technology. Sbornik statey LI mezhdunarodnoy nauchno-prakticheskoy konferencii. 2023:119-121. [A. Smirnov, O.O. Janushevich, N.I. Kriheli, O.V. Kramar, S.V. Kramar, P.Ju. Peretjagin. Investigation of fatigue strength of ceramic-metal composites under cyclic loads. Advances in Science and Technology. Collection of articles of the international scientific and practical conference. 2018:119-121. (In Russ.)]. https://www.elibrary.ru/item.asp?id=50735841&pff=1
6. Vecherkina Zh.V., Chirkova N.V., Kryuchkov M.A., Kalinichenko V.S. Analiz raboty po nanostrukturirovannym materialam v ortopedichksoy stomatologii pod rukovodstvom professora E.S. Kalivradzhiyana. Sistemnyy analiz i upravlenie v biomedicinskih sistemah. 2020;19(4):8-13. [Zh.V. Vecherkina, N.V. Chirkova, M.A. Krjuchkov, V.S. Kalinichenko. Analysis of work on nanostructured materials in orthopedic dentistry under the guidance of Professor E.S. Kalivrajian. System analysis and management in biomedical systems, 2020;4(19):8-13. (In Russ.)]. https://doi.org/10.36622/VSTU.2020.19.4.001
7. Saleev R.A., Fedorova N.S., Viktorov V.N., Saleev N.R. Izuchenie chastoty primeneniya zuboproteznyh konstrukciy, ustanovlennyh pacientam pozhilogo i starcheskogo vozrasta, v strukture stomatologicheskoy ortopedicheskoy pomoschi. Klinicheskaya stomatologiya. 2022;2(25):120-125. [R.A. Saleev, N.S. Fedorova, V.N. Viktorov, N.R. Saleev. To study the frequency of use of dental prosthetic structures installed in elderly and senile patients in the structure of dental orthopedic care. Clinical Dentistry. 2022;2(25):120-125. (In Russ.)]. https://doi.org/10.37988/1811-153X_2022_2_120
8. Gileva O.S., Libik T.V., Halilaeva E.V.., Danilov K.V., Halyavina I.N., Gileva E.S., Sadilova V.F., Plenkina Yu.A., Hohrin D.V. Stomatologicheskoe zdorov'e v kriteriyah kachestva zhizni. Medicinskiy vestnik Bashkortostana. 2011;3(6):6-11. [O.S. Gileva, T.V. Libik, E.V. Halilaeva, K.V. Danilov, I.N. Haljavina, E.S. Gileva, V.F. Sadilova, Ju.A. Plenkina, D.V. Hohrin. Dental health in the criteria of quality of life. Medical Bulletin of Bashkortostan, 2011;3(6):6-11. (In Russ.)]. https://www.elibrary.ru/item.asp?id=17047841
9. Shatrov I.M., Vedernikova L.V., Zholudev S.E. Izuchenie kachestva zhizni u pacientov s defektami zubov i zubnyh ryadov posle ortopedicheskogo lecheniya s ispol'zovaniem keramicheskih restavraciy. Problemy stomatologii. 2013;4:53-57. [I.M. Shatrov, L.V. Vedernikova, S.E. Zholudev. To study the quality of life in patients with dental defects and dentition after orthopedic treatment using ceramic restorations. Actual problems in dentistry. 2013;4:53-57. (In Russ.)]. https://www.elibrary.ru/item.asp?id=20265653
10. Sekundo C., Langowski E., Kilian S., Diana Wolff D., Zenthöfer A., Frese C. Association of Dental and Prosthetic Status with Oral Health-Related Quality of Life in Centenarians // Int J Environ Res Public Health. - 2021;18(24):13219. https://doi.org/10.3390/ijerph182413219
11. Duong H.-Y., Roccuzzo A., Stähli A., Salvi G.-E., Lang N.-P., Sculean A. Oral health-related quality of life of patients rehabilitated with fixed and removable implant-supported dental prostheses // Review Periodontol 2000. - 2022;88(1):201-237. https://doi.org/10.1111/prd.12419
12. Shulyatnikova O.A. Optimizaciya ortopedicheskogo etapa lecheniya v kompleksnoy specializirovannoy pomoschi pacientam s defektami chelyustno-licevoy. Rossiyskiy stomatologicheskiy zhurnal. 2016;2(20):94-98. [O.A. Shuljatnikova. Optimization of the orthopedic stage of treatment in comprehensive specialized care for patients with defects in the maxillofacial region. Russian Dental Journal. 2016;2(20):94-98. (In Russ.)]. https://doi.org/10.18821/1728-28022016;20(2)94-96
13. Ukaz Prezidenta RF ot 01.12.2016g. № 642. O Strategii nauchno-tehnologicheskogo razvitiya Rossiyskoy Federacii. [Decree of the President of the Russian Federation dated December 1, 2016. No. 642. On the Strategy for Scientific and Technological Development of the Russian Federation. (In Russ.)]. https://base.garant.ru/71551998/
14. Lebedenko I.Yu., Nazaryan R.G., Romankova N.V., Maksimov G.V., Vuraki N.K. Sopostavitel'nyy analiz sovremennyh metodov izgotovleniya mostovidnyh zubnyh protezov na osnove dioksida cirkoniya. Rossiyskiy stomatologicheskiy zhurnal. 2015;2:6-9. [I.Ju. Lebedenko, R.G. Nazarjan, N.V. Romankova, G.V. Maksimov, N.K. Vuraki. Comparative analysis of modern methods of manufacturing dental bridges based on zirconium dioxide. Russian Dental Journal. 2015;2:6-9. (In Russ.)]. https://www.elibrary.ru/item.asp?id=23597311
15. Llaka E., Voronov I.A., Sahabieva D.A., Lebedenko I.Yu. Klinicheskaya aprobaciya primeneniya monolitnyh mostovidnyh zubnyh protezov iz poluprozrachnogo dioksida cirkoniya «ZICERAM T». Problemy stomatologii. 2021;4:120-124. [Je. Llaka, I.A. Voronov, D.A. Sahabieva, I.Ju. Lebedenko. Clinical approbation of the use of monolithic bridge-shaped dentures made of translucent zirconium dioxide "ZICERAM T". Actual problems in dentistry. 2021;4:120-124. (In Russ.)]. https://doi.org/10.18481/2077-7566-21-17-4-120-124
16. Nazaryan R.G., Lebedenko I.Yu. Klinicheskaya effektivnost' ortopedicheskogo lecheniya keramo-keramicheskimi mostovidnymi zubnymi protezami na osnove dioksida cirkoniya. Stomatologiya. 2016;6-2(95):61-62. [R.G. Nazarjan, I.Ju. Lebedenko. Clinical efficacy of orthopedic treatment with ceramic ceramic bridge dentures based on zirconium dioxide. Dentistry. 2016;6-2(95):61-62. (In Russ.)]. https://www.elibrary.ru/item.asp?id=28362656
17. Zhang Y., Lawn B.R. Novel Zirconia Materials in Dentistry // Journal of Dental Research. - 2017;97(9):140-147. http://dx.doi.org/10.1177/0022034517737483
18. Ivanov A.S., Martynov D.V., Olesova V.N., Zaslavsky R.S., Shmatov K.V., Lerner A.I., Morozov D.I. Zirconia as a modern material for dental prostheses and implants // Russian Dental Journal. - 2019;23(1):4-6. https://doi.org/10.18821/1728-2802-2019-23-1-4-6
19. Muzayeva A.A., Nuraliev A.M., Temirova S.A., Muzaeva E.A., Adaev T.-A.A., Kudzieva Z.V., Chantiev M.T., Akhmetov Z.U., Bizhoeva L.K. Ceramic restorations based on zirconium dioxide for orthopedic dentistry // Journal of Pharmaceutical Research International. - 2021;33(55B):172-178. https://doi.org/10.9734/jpri/2021/v33i55B33862
20. Litvinova A.K. Sovremennye aspekty primeneniya dioksida cirkoniya v ortopedicheskoy stomatologii. Molodezhnyy innovacionnyy vestnik. 2021;10(S1):400-402. [A.K. Litvinova. Modern aspects of the use of zirconium dioxide in orthopedic dentistry. Youth Innovation Bulletin. 2021;10(S1):400-402. (In Russ.)]. https://www.elibrary.ru/item.asp?id=47248531&ysclid=lqjcnc1in209103783
21. Rogozhnikov A.G., Shulyatnikova O.A., Rogozhnikov G.I., Chetvetrnyh L.A. Morfologicheskoe issledovanie regeneracii kostnoy tkani laboratornyh zhivotnyh pri implantacii granul dioksida cirkoniya s biomodul'nym raspredeleniem por. Stomatolog. Minsk. 2023;1(48):26-31. [A.G. Rogozhnikov, O.A. Shuljatnikova, G.I. Rogozhnikov, L.A. Chetvetrnyh. Morphological study of bone regeneration in laboratory animals during implantation of zirconium dioxide granules with biomodular pore distribution. Dentist. Minsk. 2023;1(48):26-31. (In Russ.)]. https://doi.org/10.17816/pmj40580-89
22. Porozova S.E., Gurov A.A., Kamenschikov O.Y., Shuliatnikova O.A., Rogozhnikov G.I. Study of a nanostructured anatase coating on the rutile surface // Russian Journal of Non-Ferrous Metals. - 2019;2(60):194-199. https://doi.org/10.3103/S1067821219020093
23. Lebedenko I.Yu., D'yakonenko E.E., Sahabieva D.A., Llaka E. Prozrachnaya keramika na osnove dioksida cirkoniya dlya izgotovleniya monolitnyh zubnyh protezov. Obzor publikaciy v mezhdunarodnyh zhurnalah. Chast' 1. Stomatologiya. 2020;5(99):111-115. [I.Ju. Lebedenko, E.E. D'jakonenko, D.A. Sahabieva, Je. Llaka. Transparent ceramics based on zirconium dioxide for the manufacture of monolithic dentures. Review of publications in international journals. Part 1. Dentistry. 2020;5(99):111-115. (In Russ.)]. https://doi.org/10.17116/stomat202099051111
24. Porozova S.E., Kul'met'eva V.B., Vohmyanin D.S., Rogozhnikov A.G. Sposob izgotovleniya keramicheskih izdeliy. Patent RF №2545578, 2014;10. [S.E. Porozova, V.B. Kul'met'eva, D.S. Vohmjanin, A.G. Rogozhnikov. The method of making ceramic products. Patent RF №2545578. 2014;10. (In Russ.)]. https://findpatent.ru/patent/254/2545578.html
25. Belyanin A.F., Bagdasaryan A.S., Yurin A.I. Spektroskopiya kombinacionnogo rasseyaniya sveta i rentgenovskaya difraktometriya dioksida cirkoniya, legirovannogo redkozemel'nymi metallami. Naukoemkie tehnologii. 2018;11(19):39-45. [A.F. Beljanin, A.S. Bagdasarjan, A.I. Jurin. Raman spectroscopy and X-ray diffractometry of zirconium dioxide doped with rare earth metals. High-tech technologies. 2018;11(19):39-45. (In Russ.)]. https://doi.org/10.18127/j19998465-201811-07
26. Ramos-Tonello C.M., Tabata A.S., Cesar P.F., Rubo J.H., Fracisconi P.A., Sanches Borges A.F. Application of micro-Raman spectroscopy to the study of yttria-stabilized tetragonal zirconia polycrystal (Y-TZP) phase transformation // Applied Spectroscopy. - 2015;69(7):810-814. http://dx.doi.org/10.1366/14-07793