Сylindrical dental implant positioning devices

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Abstract

  • Modern digital technologies and their software open up new possibilities in dentistry. For example, the use of computed tomography is becoming more and more affordable. Almost every dental tomograph has the necessary software for 3D planning of dental procedures. Dental implantation has developed significantly in our country. The available surgical equipment make it possible to put dental implants even with the deficit of bone tissue. The purpose of this article was to summarize various methods to plan the placing the dental implant and to manufacture surgical templates. Dentistry has always been closely associated with other areas of science and industry, it tends to use a large number of modern innovations and developments. In this article, we have collected materials to demonstrate how the treatment process is changing in response to the integration of computer diagnostics and manufacturing (CAD / CAM) technologies. Consequently, we have more efficient and less traumatic dental implant planning systems based on the accurate data and computer calculations that minimize technological and human negative factors.

About the authors

Aleksandr V. Ivashchenko

Samara State Medical University

Author for correspondence.
Email: a.v.ivaschenko@samsmu.ru

Doctor of Medical Sciences, Associate Professor of the Department of Orthopedic Dentistry

Russian Federation, Samara

Aleksey E. Yablokov

426 Military Hospital of the Ministry of Defense of the Russian Federation

Email: s1131149@yandex.ru

Candidate of Medical Sciences, Dental Surgeon, Head of the Dental Department

Russian Federation, Samara

Sergey V. Vinnik

Samara State Medical University

Email: s.v.vinnik@samsmu.ru

Candidate of Medical Sciences, Associate Professor, Department of Orthopedic Dentistry

Russian Federation, Samara

Valentina P. Tlustenko

Samara State Medical University

Email: gbuz5905@bk.ru

Doctor of Medical Sciences, Professor, Head of the Department of Orthopedic Dentistry

Russian Federation, Samara

Elena M. Shestun

Samara State Medical University

Email: shestun99@mail.ru

3rd-year student of the Institute of Dentistry

Russian Federation, Samara

References

  1. Avanesov AM. Hirurgicheskie napravlyayushchie shablony kak innovacionnyj instrument optimizacii implanto-ortopedicheskogo lecheniya. Conference proceedings Sovremennye kontseptsii nauchnykh issledovanii: materialy IV Mezhdunarodnoi nauchno-prakticheskoi konferentsii; 2014 July 25; Moscow. Moscow; 2014. P. 153–154. (In Russ.)
  2. Amhadova MA, Ignatov AIu. Computer planning of dental implantations with the use of navigational implantological sampler made by CAD / CAM technology. Stomatologiya. 2011;9(2):49–52. (In Russ.)
  3. Aushaev AR. Analiz raspredeleniya nagruzok i veroyatnosti neobratimyh izmenenij v kostnyh tkanyah chelyusti pri ortopedicheskom lechenii s ispol’zovaniem dental’nyh vnutrikostnyh implantatov. Institut Stomatologii. 2002;(2(15)):44–49. (In Russ.)
  4. Fedyaev IM, Khamadeeva AM, Nikol’skiy VYu, Ganzha IR. Vtorichnaya adentiya pri dental’noy implantatsii (epidemiologicheskoe i sotsiologicheskoe issledovanie s pomoshch’yu metoda telefonnogo interv’yu). Stomatologiya. 2004;83(6):65–68. (In Russ.)
  5. Dzhalalova MV, Stepanov AG. Influence of tooth root resection level on stress-strain state of endodontic endosseous implant in dentoalveolar segment. Russian Journal of Biomechanics. 2017;21(1):51–63. (In Russ.)
  6. Zhusev AI, Remov AYu. Oshibki i uspekh v dental’noj implantacii. Institut stomatologii. 2002;(1(14)):22–23. (In Russ.)
  7. Zagorskij VA, Zagorskij VV. Biomekhanika odinochnyh implantatov. Stomatologiya. 2013;92(3):9–10. (In Russ.)
  8. Ivashchenko AV. Ocenka rezul’tatov ustanovki implantatov v fantom nizhnej chelyusti, ne soderzhashchej myagkih tkanej. Proceedings of the konferentsiya s mezhdunarodnym uchastiem “Molodye uchyonye XXI veka – ot sovremennyh tekhnologij k innovaciyam.” Samara; 2014. P. 323–325. (In Russ.)
  9. Ivashchenko AV. Sposob detektirovaniya polozheniya stomatologicheskogo nakonechnika. In: Sbornik nauchnykh trudov, posvyashchenny 95-letiyu so dnya rozhdeniya prof. M.A. Makienko. Samara; 2013. P. 103–113. (In Russ.)
  10. Kuvshinnikov AV. Analiz oshibok i oslozhnenij pri dental’noj implantacii (obzor literatury). Proceedings of the nauchno-prakticheskaya konferentsiya studentov i molodyh uchenyh v ramkah III Vseros. olimpiady po stomatologii “Stomatologiya – nauka i praktika. Perspektivy razvitiya”. 2012 Oct 4–5; Volgograd. Volgograd; 2013. P. 53–59. (In Russ.)
  11. Kulakov AA. Diagnosticheskaya znachimost’ metodik rentgenologicheskogo issledovaniya pri dental’noj implantacii. Stomatologiya. 2006;(1):34–40. (In Russ.)
  12. Kulakov AA. Zubnaya implantaciya: osnovnye principy, sovremennye dostizheniya. Moscow: MIA; 2006. (In Russ.)
  13. Lajva OV. Application of a 3D-imensial approach to placing dental implants. Journal of Volgograd State Medical University. 2015;(1(53)):100–104. (In Russ.)
  14. Las’kov VV, Simonov EN. Computed tomography artifacts analysis, simulation and reduction. Bulletin of the South Ural State University. series: computer technologies, automatic control, radio electronics. 2013;13(3):13–21. (In Russ.)
  15. Konyukhova SG, Rogozhnikov GI, Nyashin YuI, et al. Napryazhennoe sostoyanie parodonta v oblasti plastinchatogo implantata pri okklyuzionnoj nagruzke. Russian Journal of Biomechanics. 2003;7(2):35–44. (In Russ.)
  16. Yudin PF, Losev FF, Sharin AN, Plyakov MK. Immediate implantation with immediate loading on the lower jaw using a surgical template and temporary restoration. Rossiyskiy Vestnik dentalnoy implantologii. 2013;(2(28)):54–61. (In Russ.)
  17. Nechaeva NK. Oslozhneniya dental’noj implantacii. Military Medical Journal. 2009;330(3):39–41. (In Russ.)
  18. Potapov IV, Ivashchenko AV, Bairikov AI, et al. Obosnovanie ispol’zovaniya navigacionnoj sistemy v dental’noj implantologii. Institut stomatologii. 2014;(4(65)):83–85. (In Russ.)
  19. Olesova VI, Filonov MR, Pozdeev AI, et al. Electrochemical behaviour peculiarities of stomatological alloys in cases of prosthetic devices use on titanium implantates. Stomatologiya. 2007;86(6):74–78. (In Russ.)
  20. Ermak EYu, Olesova VN, Parilov VV, Nikolaenko MG. Remote results of using XIVE implants in clinical practice. Russian Journal of Dentistry. 2013;(5):8–11. (In Russ.)
  21. Patent RF № RU 2262905 C1/27.10.2005. Byul. № 30. Gadzhiev SA, Gadzhiev SS, Seidov SS. Ustroistvo dlya orientatsii rezhushchego instrumenta pri ustanovke tsilindricheskogo zubnogo implantata i sposob vnedreniya dental’nogo implantata. (In Russ.)
  22. Patent RF № RU 2416364 S2/20.04.2011. Byul. № 11. Glor F, Vrilink L. Sposob avtomaticheskogo planirovaniya vnutrichelyustnogo zubnogo implantata. (In Russ.)
  23. Patent RF № RU 2532886 S2/10.11.2014. Byul. № 31. Ivashchenko AV, Kondrashin DV, Laiva OV, Bairikov AI. Ustroistvo dlya kontrolya i korrektsii uglovykh otklonenii stomatologicheskogo instrumenta. (In Russ.)
  24. Pimenov AB. Diagnostika kostnyh deformacij pri planirovanii implantologicheskogo lecheniya. X-Ray Art. 2012;(1(01)):19–21. (In Russ.)
  25. Mikhailov MK, Saleeva GT, Yarulina ZI, Mikhalev PN. Role of modern methods of X-ray diagnostics in planning a surgical stage of implantation. Practical Medcine. 2009;(1(33)):24–28.(In Russ.)
  26. Ryahovskyi AN, Michascov SV. Usages of positioning templates during surgical step of implantation rehabilitation. Panorama ortopedicheskoy stomatologii. 2007;(1):6–11. (In Russ.)
  27. Ryahovskyi AN, Gorbynov EA, Subbotin A. Computer assisted planning of immediate loading implantation. Panorama ortopedicheskoy stomatologii. 2009;(1):3–9. (In Russ.)
  28. Ryahovskyj AN. Cifrovaya stomatologiya. Moscow: Avantis; 2010. (In Russ.)
  29. Saakyan ShKh, Kalamkarov AEh. The analysis of changes in bone at orthopedic treatment of patients with defects of tooth alignments with use the dental implants. Russian Journal of Dentistry. 2014;(2):13–16. (In Russ.)
  30. Saleeva GT, Sedov YuG, Yarullina ZI. Optimization of dental implant planning according to cone-beam computed tomography. Rossiyskiy Vestnik dentalnoy implantologii. 2014;(1(29)):14–18. (In Russ.)
  31. Serdobincev EV. Artefakty i iskazheniya pri konusno-luchevoj komp’yuternoj tomografii. X-Ray Art. 2012;(1(01)):22–28. (In Russ.)
  32. Serdobincev EV. Primenenie dannyh konusno-luchevoj komp’yuternoj tomografii pri raschete biometricheskih parametrov. X-Ray Art. 2014;(4(01)):32–35. (In Russ.)
  33. Chuiko AN, Levandovskii RA, Ugrin MM, Belikov AB. Terminy fiksaciya i stabilizaciya s pozicij biomekhanicheskogo analiza. Molodoj uchenyj. 2013;(9):98–108. (In Russ.)
  34. Ushakov RV, Panin AM, Ushakov AR. Planirovanie i provedenie dental’noj implantacii s ispol’zovaniem tekhnologii IMPLA 3D. Medicinskij alfavit. 2010;4(16):51–53. (In Russ.)
  35. Federal’noe agentstvo po tekhnicheskomu regulirovaniyu i metrologii. Nacional’nyj standart Rossijskoj Federacii. Chastichnoe otsutstvie zubov. Utverzhden prikazom ot 18 dekabrya 2008 g. № 465-st. P. 3. (In Russ.)
  36. Habiev KN. Metody resheniya nepravil’nogo pozicionirovaniya implantata. Dental’naya implantologiya i hirurgiya. 2013;(3(12)):148–150. (In Russ.)
  37. Hatit RA. Diagnosticheskie vozmozhnosti komp’yuternoj tomografii pri planirovanii ortopedicheskogo lecheniya na implantatah. 3D-hirurgicheskiy shablon. X-Ray Art. 2013;(2(01)):46–48.(In Russ.)
  38. Chujko AN, Shinchukovskij IA. Biomekhanika v stomatologii. Khar’kov: Fort; 2010. (In Russ.)
  39. Shlejko VV, Zholudev SE. Komp’yuternaya tomografiya kak osnovnoj instrument pri planirovanii i prognozirovanii kompleksnogo stomatologicheskogo lecheniya. Journal Actual problems in dentistry. 2013;(2)55–57. (In Russ.)
  40. Shpigel’ AS, Stolyarenko PYu, Mushiyakhov ShYa. Dokazatel’naya medicina v stomatologii: metodologiya, problemy i perspektivy. Stomatolog-praktik. 2014;(1):66–73. (In Russ.)

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Copyright (c) 2021 Ivashchenko A.V., Yablokov A.E., Vinnik S.V., Tlustenko V.P., Shestun E.M.

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