from 01.01.2017 to 01.01.2019
Ekaterinburg, Ekaterinburg, Russian Federation
from 01.01.1992 until now
Ekaterinburg, Ekaterinburg, Russian Federation
Ekaterinburg, Ekaterinburg, Russian Federation
Introduction. Today, for the manufacture of prostheses with a plastic base, hot polymerization acrylic plastic is most often used, which contains a free monomer — methyl methacrylate. However, in some patients, after their placement in the oral cavity, as a result of orthopedic treatment, various clinical pathological manifestations may occur, which in general are defined as individual intolerance to dental materials. The aim is to carry out a systematic analysis of domestic and foreign literary sources to determine the most suitable base material in patients with intolerance to structural materials. Methodology. The research was carried out on the basis of the search for scientific papers, in the electronic scientific library elibrary.ru for the last 15 years, as well as in the search engines PubMed, Scopus and Wiley Inter Science for 2009–2020. The search was carried out by keywords. Results. The article analyzes the literature data indicating the importance of the choice of the base material in the pathogenesis of intolerance to dental materials. During the analysis of the literature, the positive properties of a new, alternative light-curing base material, which can be used in patients with acrylate intolerance, have been substantiated. Conclusions. The results obtained, in the course of the literature analysis, allow us to highlight the advantages of using a light-curing base material in comparison with acrylic plastics and thermoplastic resins. The results of the use of the light-curing base material in clinical practice will be communicated by us to the dental community in subsequent publications.
intolerance to construction materials, methyl methacrylate, acrylic plastic, burning sensation in the mouth, monomer
1. Dubova L.V., Madzhidova E.R., Dzaurova M.A., Kitkina T.B., Lebedenko I.Yu. Blizhayshie rezul'taty primeneniya s'emnyh zubnyh protezov iz novogo otechestvennogo bazisnogo materiala «Nolatek». Rossiyskiy stomatologicheskiy zhurnal. 2016;1:16-19. [L.V. Dubova, E.R. Madzhidova, M.A. Dzaurova, T.B. Kitkina, I.Yu. Lebedenko. Immediate results of the use of removable dentures from the new domestic base material "Nolatek". Russian dental journal. 2016;1:16-19. (In Russ.)]. https://www.elibrary.ru/item.asp?id=26001557
2. Zholudev S.E. Osobennosti protezirovaniya polnymi s'emnymi protezami i adaptacii k nim u lic pozhilogo i starcheskogo vozrasta. Ural'skiy medicinskiy zhurnal. 2012;8:31. [S.E. Zholudev. Features of prosthetics with complete removable dentures and adaptation to them in elderly and senile persons. Ural Medical Journal. 2012;8:31. (In Russ.)]. https://www.elibrary.ru/item.asp?id=18070758
3. Zholudev S.E. Reshenie problemy adaptacii k s'emnym konstrukciyam zubnyh protezov pri polnoy utrate zubov (klinicheskiy sluchay). Problemy stomatologii. 2016;12;3;46-51. [S.E. Zholudev. Solving the problem of adaptation to removable denture constructions in case of complete loss of teeth (clinical case). Actual problems in dentistry. 2016;12;3:46-51. (In Russ.)]. https://www.elibrary.ru/item.asp?id=26717412
4. Zholudev S.E. Sposoby uluchsheniya adaptacii u lic s problemami perenosimosti materialov s'emnyh zubnyh protezov. Maestro stomatologii. 2005;19:6-11. [S.E. Zholudev. Methods for improving adaptation in persons with problems of tolerance of materials of removable dentures. Maestro of Dentistry. 2005;19:6-11. (In Russ.)].
5. Kosorukov N.V., Struev I.V., Zaharov A.V. Zabolevanie slizistoy obolochki proteznogo lozha u lic, pol'zuyuschihsya s'emnymi zubnymi konstrukciyami. Problemy stomatologii. 2006;6:22-23. [N.V. Kosorukov, I. V. Struev, A.V. Zakharov. Disease of the mucous membrane of the prosthetic bed in persons using removable dental structures. Actual problems in dentistry. 2006;6:22-23. (In Russ.)].
6. Lebedev K.A., Mitronin A.V., Polyakina I.D. Neperenosimost' zuboproteznyh materialov. 2009. [K.A. Lebedev, A.V. Mitronin, I. D. Polyakin. Intolerance to denture materials. 2009. (In Russ.)].
7. Soboleva A.V. Himicheskie i fiziko-himicheskie svoystva svetootverzhdaemogo bazisnogo materiala «Nolatek». Zhurnal Nauchnye vedomosti Belgorodskogo gosudarstvennogo universiteta. 2018:346-355. [A.V. Soboleva. Chemical and physicochemical properties of the light-cured base material "Nolatek". Journal of Scientific Bulletins of Belgorod State University. 2018:346-355. (In Russ.)].
8. Trezubov V.N., Mishnev L.M., Zhulev E.N., Trezubov V.V. Ortopedicheskaya stomatologiya: Prikladnoe materialovedenie. Moskva : MED press-inform. 2014:368. [V.N. Trezubov, L.M. Mishnev, E.N. Zhulev, V.V. Trezubov. Orthopedic dentistry: Applied materials science. Moscow : MED press-inform. 2014:368. (In Russ)].
9. Aalto-Korte K., Alanko K., Kuuliala O., Jolanki R. Methacrylate and acrylate allergy in dental personnel // Contact Dermatitis. - 2007;57:324-330.
10. Ardelean L., Bortun C., Motoc M. Metal-free removable partial dentures made of a thermoplastic acetal resin and two polyamide resins // Materiale Plastice. - 2007;44;4:345-348.
11. Ardelean L., Bortun C., Motoc M., Rusu L. Alternative technologies for dentures manufacturing using different types of resins // Materiale Plastice. - 2010;47;4:433-435.
12. Ata S., Yavuzyilmaz H. In vitro comparison of the cytotoxicity of acetal resin, heat-polymerized resin, and auto-polymerized resin as denture base materials // J Biomed Mater Res B Appl Biomater. - 2009;91:905-909.
13. Bayraktar G., Guvener B., Bural C., Uresin Y. Influence of polymerization method, curing process, and length of time of storage in water on the residual methyl methacrylate content in dental acrylic resin // J Biomed Mater Res B Appl Biomater. - 2006;76:340-345.
14. Celebi N., Yuzugullu B., Canay S., Yucel U. Effect of polymerization methods on the residual monomer level of acrylic resin denture base polymers // Polym Adv Technol. - 2008;1;9:201-206.
15. Gautam R., Singh R., Sharma V.P., Siddhartha R., Chand P., Kumar R. Biocompatibility of polymethylmethacrylate resins used in dentistry // Biocompatibility of polymethylmethacrylate resins used in dentistry. J Biomed Mater Res B Appl Biomater. - 2012;100:1444-1450.
16. Goiato M.C., dos Santos D.M., Haddad M.F., Pesqueira A.A. Effect of accelerated aging on the microhardness and color stability of flexible resins for dentures // Effect of accelerated aging on the microhardness and color stability of flexible resins for denture. J Brazilian Oral Research. - 2010;24:114-119.
17. Goldibi F., Asghari G. The level of residual monomer in acrylic denture base materials // Res. J. Biol. Sci. - 2009;4:244-249.
18. Gonçalves T.S., Morganti M.A., Campos L.C., Rizzatto, S.M., Menezes L.M. Allergy to auto-polymerized acrylic resin in an orthodontic patient // Am. J. Orthod. Dentofacial Orthop. - 2006;129:431-435.
19. Hill E.E., Rubel B., Smith J.B. Flexible removable partial dentures: a basic overview // Gen Dent. - 2014;62(2):32-36.
20. Kopperud H.M., Kleven I.S., Wellendorf H. Identification and quantification of leachable substances from polymer-based orthodontic base-plate materials // Eur J Orthod. - 2011;33:26-31.
21. KürkçüoğluI A., Özkır E.S., Özdemir T. comparative study of polyamide and PMMA denture base biomaterials: I. Thermal, mechanical, and dynamic mechanical properties // International Journal of Polymeric Materials. - 2012;61:768-777.
22. McCabe J.F., Walls A. Applid Dental Materials // Applid Dental Materials. - 2013:112-113.
23. Negrutiu A., Sinescu C., Romanu M., Pop D., Lakatos S. Thermoplastic resins for flexible framework removable partial dentures // TMJ. - 2005;55:295-299.
24. Rickman L.J., Padipatvuthikul P., Satterthwaite J.D. Contemporary denture base Resins: Part 1 // Dent Update. - 2012;39(1):25-30.
25. Soygun K., Bolayir G., Boztug A. Mechanical and thermal properties of polyamide versus reinforced PMMA denture base materials // Journal of Advanced Prosthodontics. - 2013;5:153-160.
26. Tandon R., Gupta S., Agarwal S.K. Denture base materials: From past to future // Ind J Dent Sci. - 2010;2(2):33-39.
27. Tanoue N., Matsuda Y., Yanagida H., Matsumura H., Sawase T. Factors affecting the bond strength of denture base and reline acrylic resins to base metal materials // J Appl Oral Sci. - 2013;21:320-326.
28. Urban V.M., Machado A.L., Vergani C.E., Giampaolo E.T. Effect of water-bath post-polymerization on the mechanical properties, degree of conversion, and leaching of residual compounds of hard chairside reline resins // Dent Mater. - 2009;25:662-671.