Russian system of nanostructured titanium dental implants

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Abstract

Despite the progress in the development of modern dentistry and maxillofacial surgery and significant improvements in diagnostic, surgical, and restoration methods, currently, the number of patients with tooth loss is not decreasing. This trend is also characteristic of modern Russia. The number of implants installed to replace lost teeth in our country is increasing annually; despite this, the share of implantation systems with full localization in the territory of the Russian Federation is small. This study aimed to demonstrate the possibilities and effectiveness of using a Russian-made innovative system of dental implants made of nanostructured titanium in various clinical cases. The results of dental rehabilitation of patients with orthopedic structures supported by dental implants with a follow-up period of up to 5 years were analyzed. The results were presented with an indication of all stages of treatment of patients using modern methods of complex dental rehabilitation.

About the authors

Maxim I. Muzikin

St.-Petersburg Scientific Research Institute of Ear, Nose, Throat and Speech; Kirov Military Medical Academy; Saint Petersburg Medico-Social Institute

Author for correspondence.
Email: MuzikinM@gmail.com
ORCID iD: 0000-0003-1941-7909
SPIN-code: 7169-1489

MD, Dr. Sci. (Med.), Professor

Russian Federation, 9 Bronnitskaya street, 190013 Saint Petersburg; 6 Akademika Lebedeva street, 194044 Saint Petersburg; Saint Petersburg

Alexey N. Yankevich

Dental clinic “Aura Dent”

Email: aleksei.yankevich@yandex.ru
ORCID iD: 0009-0003-5237-424X
SPIN-code: 5972-5198
Russian Federation, Krasnoyarsk

Dmitry V. Balin

Saint Petersburg Medico-Social Institute

Email: baldent@mail.ru
ORCID iD: 0000-0001-8795-4947
SPIN-code: 3500-6837

MD, Cand. Sci. (Med.), Assistant Professor

Russian Federation, Saint Petersburg

Vasily S. Dyuryagin

Ufa State Aviation Technical University

Email: vd@nct.dental

Research Associate

Russian Federation, Ufa

Sergey Y. Tytyuk

Kirov Military Medical Academy; Saint Petersburg Medico-Social Institute

Email: sergei_tytyuk@mail.ru
SPIN-code: 2475-4340

MD, Cand. Sci. (Med.), Lecturer

Russian Federation, 6 Akademika Lebedeva street, 194044 Saint Petersburg; Saint Petersburg

References

  1. Gasilovskiy AE, Pavlyuk VP, Chikalova AE. The main trends and prospects for the development of foreign economic activity of the Russian Federation. Fundamental’nye issledovaniya. 2022;(7):30–34. doi: 10.17513/fr.43279
  2. Zhdanyuk IV, Iordanishvili AK, Volodin AI, Veretenko EA, Muzykin MI. Medical, economic and social aspects of dental prosthetics for older people. Specialist zdravoohraneniya. 2018;(1):25–26. (In Russ).
  3. Parfenov EV, Raab GI, Dyuryagin VS. Application of nanotitan in dental implants. Dental’naya implantologiya i hirurgiya. 2022;(2):80–82. (In Russ).
  4. Valiev RZ, Prokofiev EA, Kazarinov NA, et al. Developing nanostructured Ti alloys for innovative implantable medical devices. Materials (Basel). 2020;13(4):967. doi: 10.3390/ma13040967
  5. Raab GI, Kodirov IS, Aksenov DA, Valiev RZ. The formation of a high-strength state in martensitic Ti Grade 4 by ECAP. J Alloys Compd. 2022;922:166205. doi: 10.1016/j.jallcom.2022.166205
  6. Nazarov D, Zemtsova E, Smirnov V, et al. The effects of chemical etching and ultra-fine grain structure of titanium on MG-63 cells response. Metals. 2021;11(3):510. doi: 10.3390/met11030510
  7. Parfenov EV, Parfenova LV, Dyakonov GS, et al. Surface functionalization via PEO coating and RGD peptide for nanostructured titanium implants and their in vitro assessment. Surf Coat Technol. 2019;357:669–683. doi: 10.1016/j.surfcoat.2018.10.068
  8. Muzikin MI, Kokovihina EV, Gerasimova EA, et al. Age-related and post-extraction atrophy of the jaws and modern possibilities for restoring the masticatory apparatus in the elderly people. Advances in Gerontology. 2021;34(1):134–143. doi: 10.34922/AE.2021.34.1.019
  9. Chappuis V, Araújo MG, Buser D. Clinical relevance of dimensional bone and soft tissue alterations post-extraction in esthetic sites. Periodontol 2000. 2017;73(1):73–83. doi: 10.1111/prd.12167
  10. Muzykin MI, Iordanishvili AK. Post-extraction regeneration of jaw bone sanogenesis model. Human Ecology. 2020;(8):40–48. doi: 10.33396/1728-0869-2020-8-40-48
  11. Muzikin MI, Balin DV, Iordanishvili AK. Survival rate of zygomatic and root dental implants: the 5-year observation. Russian Bulletin of Dental Implantology. 2020;(3 Pt 4):59–68.

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2. Fig. 1. Stages of dental rehabilitation of patient L., 37-years-old: a, b, c — sections of a computed tomogram in the area of missing teeth; d — the initial clinical picture in the oral cavity; e, f, g — the stages of installing dental implants in the area of missing teeth; h — installation of gingival cuff shapers; i — fixing the final orthopedic restoration.

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3. Fig. 2. Stages of dental rehabilitation of patient L., 37-years-old: a — fragment of an orthopantomogram before the installation of the gingival cuff shapers; b — fragment of an orthopantomogram a year after the installation of a permanent orthopedic structure; c — view of the oral cavity after fixing the final orthopedic structure; d — control examination of the patient 1.5 years after the completion of dental rehabilitation.

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4. Fig. 3. Stages of dental rehabilitation of the patient M., 35-years-old: a — the initial clinical picture; b, c, d — the installation of a dental implant with fixation of the gingival cuff shaper and correction of the soft tissue profile was performed; e — the stage of fixation of the final orthopedic structure; f — control examination after 1 year; g, h — control sighting images at the stages of dental rehabilitation

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5. Fig. 4. Stages of dental rehabilitation of the patient Yu., 58-years-old: a, b — the initial clinical picture; c, d, e, f, g, h — the stages of targeted bone regeneration in order to increase the volume of bone tissue of the lower jaw in width simultaneously with the installation of dental implants; i, j — the type of stable soft tissues in the area of multiunit abutments before the prosthetics stage; k, l — fixation of permanent orthopedic structures made of zirconium dioxide, completion of the first stage of dental rehabilitation.

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6. Fig. 5. Stages of dental rehabilitation of patient J., 56-years-old: a, b — initial clinical picture; c, d, e — sections of a computed tomogram of the frontal group of teeth on the upper jaw; f, g — stages of surgical treatment; h, i — installation of a temporary orthopedic structure with immediate loading; j — fixation of permanent crowns made of zirconium dioxide.

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