Stoma (dental surgeon)
Novokuznetsk, Kemerovo, Russian Federation
Regional Society of Maxillofacial Surgeons (teacher)
Novokuznetsk, Kemerovo, Russian Federation
The subject of the study is the prospects for the introduction of an endosseous all-ceramic screw one-stage immediate implant in the clinical practice of orthopedic rehabilitation. The objectives analysis of the prospects for the use of the developed dental implant (endossal all-ceramic screw single-stage implant) in dental practice during orthopedic rehabilitation of patients with adentia. Methodology. The study was performed on the basis of an analysis of orthopedic rehabilitation means and their effectiveness in patients of dental clinics in the cities of Kemerovo for 2018–2022. Results.The results of rehabilitation of patients with adentia using dental implants based on zirconium dioxide (both imported and patented bio-implants) and implants based on titanium alloys are presented. The new endosseous all-ceramic screw one-stage implant developed by the author of the study (RF Patent for Invention No. 2651052; Eurasian Patent No. 035482) is distinguished by its design (rough active two-component thread passing into a polished neck by switching the platform and then into a suprastructure with the possibility of its individualization in the cavity mouth) and the method of treating the surface of the exclusively threaded part of the implant with calcium hydroxyapatite. The possibility of using the developed implant will satisfy the needs of patients for a minimally invasive implantation procedure, ensuring its economic efficiency in relation to an analogue imported ceramic implant. In addition, due to the specialized surface treatment, the developed implant does not require the use of bone substitutes, and the presence of a biocoating allows expanding its use in groups of patients with somatic pathologies. Conclusions. The performed study allows us to recommend the use of the developed bio-implant in clinical dentistry in order to study the possibilities of its use in the near and long term.
ceramic implants, zirconium dioxide implants, minimally invasive implantation, implant treatment, bio-implant
1. Bari E. Primenenie individual'nyh implantatov v sovremennoy stomatologii i chelyustno-licevoy hirurgii. Institut stomatologii. 2018;3(80):64-65. [E. Bari. The use of individual implants in modern dentistry and maxillofacial surgery. Institute of Dentistry. 2018;3(80):64-65. (In Russ.)]. https://www.elibrary.ru/item.asp?id=35618905
2. Bikbaev A., Bungov V. Vozvraschenie estestvennoy krasoty ulybki. Esteticheskaya reabilitaciya pacienta keramicheskimi restavraciyami na svoih zubah i implantate. Esteticheskaya stomatologiya. 2020;1-4:279-283. [A. Bikbaev, V. Bungov. Return of the natural beauty of a smile. Aesthetic rehabilitation of the patient with ceramic restorations on their teeth and implant. Aesthetic dentistry. 2020;1-4:279-283. (In Russ.)]. https://www.elibrary.ru/item.asp?id=49341118
3. Zhidkih E.D., Robakidze N.S., Rekel' K.V. Planirovanie ustanovki implantatov s primeneniem hirurgicheskogo shablona. Institut stomatologii. 2019;3(84):50-53. [E.D. Zhidkikh, N.S. Robakidze, K.V. Rekel. Implant placement planning using a surgical template. Institute of Dentistry. 2019;3(84):50-53. (In Russ.)]. https://www.elibrary.ru/item.asp?id=40872531
4. Ivanov A.S., Martynov D.V., Olesova V.N., Zaslavskiy R.S., Shmatkov K.V., Lesner A.Ya., Morozov D.I. Dioksid cirkoniya kak sovremennyy material dlya zubnyh protezov i implantatov. Rossiyskiy stomatologicheskiy zhurnal. 2019;23(1):4-6. [A.S. Ivanov, D.V. Martynov, V.N. Olesova, R.S. Zaslavsky, K.V. Shmatkov, A.Ya. Lesner, D.I. Morozov. Zirconium dioxide as a modern material for dentures and implants. Russian Dental Journal. 2019;23(1):4-6. (In Russ.)]. https://www.elibrary.ru/item.asp?id=38537714
5. Kamalyan A.V. Ekspertnye kriterii ocenki oshibok i oslozhnenii pri stomatologicheskoy implantacii s cel'yu povysheniya ee effektivnosti. Aktual'nye problemy mediciny i biologii. 2021;1:97-105. [Kamalyan A.V. Expert criteria for assessing errors and complications in dental implantation in order to increase its effectiveness. Actual problems of medicine and biology. 2021;1:97-105. (In Russ.)]. https://www.elibrary.ru/item.asp?id=46283859
6. Mel'nikov Yu.A., Zholudev S.E., Zaikin D.A. Eksperimental'no-matematicheskoe obosnovanie primeneniya cifrovyh tehnologiy dlya registracii polozheniya nizhney chelyusti pri total'nom protezirovanii s ispol'zovaniem dental'nyh implantatov. Problemy stomatologii. 2021;17(3):108-113. [Yu.A. Melnikov, S.E. Zholudev, D.A. Zaikin. Experimental and mathematical substantiation of the use of digital technologies to register the position of the lower jaw in total prosthetics using dental implants. Actual problems in dentistry. 2021;17(3):108-113. (In Russ.)]. DOIhttps://doi.org/10.18481/2077-7566-21-17-3-108-113.
7. Morozov D.I., Zaslavskiy R.S., Martynov D.V., Shmatov K.V., Lerner A.Ya. Sravnenie harakteristik keramicheskih i titanovyh implantatov. Aktual'nye voprosy stomatologii. 2019:227-231. [D.I. Morozov, R.S. Zaslavsky, D.V. Martynov, K.V. Shmatov, A.Ya. Lerner. Comparison of characteristics of ceramic and titanium implants. Topical issues of dentistry. 2019:227-231. (In Russ.)]. https://www.elibrary.ru/item.asp?id=37301000
8. Olesova V.N., Ivanov A.S., Martynov D.V., Zaslavskiy R.S., Shmatov K.V., Lerner A.Ya., Morozov D.I. Dioksid cirkoniya kak sovremennyy material dlya zubnyh protezov i implantatov. Rossiyskiy stomatologicheskiy zhurnal. 2019; 23(1) 4-6. [V.N. Olesova, A.S. Ivanov, D.V. Martynov, R.S. Zaslavsky, K.V. Shmatov, A.I. Lerner, D.I. Morozov.P.V. Zirconia as a modern material for prostheses and implants. Rossiyskii stomatologicheskii zhurnal. 2019; 23(1) 4-6. (In Russ.)]. https://dx.doi.org/10.18821/1728-2802-2019-23-1-4-6
9. Sadovoy M.A., Kirilova I.A., Podorozhnaya V.T., Rozhnova O.M., Mamonova E.V. Kompozicionnyy kostno-keramicheskiy implantat na osnove keramicheskogo materiala sistemy oksid cirkoniya-oksid alyuminiya. Patent № 2542496 C1 Rossiyskaya Federaciya. MPK A61L 27/54, A61L 27/04, A61L 27/10. № 2013138335/15. zayavl. 19.08.2013. opubl. 20.02.2015. [M.A. Sadovoy, I.A. Kirilova, V.T. Podorozhnaya, O.M. Rozhnova, E.V. Mamonova. Composite bone-ceramic implant based on ceramic material of the zirconium oxide-aluminum oxide system. Patent No. 2542496 C1 Russian Federation. IPC A61L 27/54, A61L 27/04, A61L 27/10. No. 2013138335/15. dec. 08/19/2013. publ. 20.02.2015. (In Russ.)]. https://www.elibrary.ru/item.asp?id=37426515
10. Shumakov F.G. Eksperimental'no-klinicheskoe sravnenie keramicheskih i titanovyh dental'nyh implantatov : dis. … kand. med. nauk. Institut poslediplomnogo professional'nogo obrazovaniya FGBU «Gosudarstvennyy nauchnyy centr Rossiyskoy Federacii - Federal'nyy medicinskiy biofizicheskiy centr imeni A. I. Burnazyana FMBA Rossii». Moskva, 2018:136. [F.G. Shumakov. Experimental and clinical comparison of ceramic and titanium dental implants : dis. … cand. med. Sciences. Institute of Postgraduate Professional Education of the Federal State Budgetary Institution "State Scientific Center of the Russian Federation - Federal Medical Biophysical Center named after A.I. Burnazyan FMBA of Russia". Moscow, 2018:136. (In Russ.)]. https://www.elibrary.ru/item.asp?id=49969352
11. Henao P.A.R., Queija L.C., Mareque S., Pereira A.T., González A.L., Carrión J.B. Titanium vs ceramic single dental implants in the anterior maxilla: A 12-month randomized clinical trial // Clinical oral implants research. - 2021;32(8):951-961. DOI:https://doi.org/10.1111/clr.13788.
12. Prakash M., Audi K., Vaderhobli R.M. Long-Term Success of All-Ceramic Dental Implants Compared with Titanium Implants // Journal of long-term effects of medical implants compared with titanium implants. - 2021;31(1):73-89. DOI:https://doi.org/10.1615/JLongTermEffMedImplants.2021037400.
13. Schünemann F.H., Galárraga-Vinueza M.E., Magini R., Fredel M., Silva F., Souza J.C.M., Zhang Y., Henriques B. Zirconia surface modifications for implant dentistry // Materials science & engineering. C, Materials for biological applications. - 2019;98:1294-1305. DOI:https://doi.org/10.1016/j.msec.2019.01.062.