MTA (MINERAL AGGREGATE TRIOXIDE) - DENTAL MATERIAL, WHICH IS THE ANSWER TO NEW CHALLENGES OF MODERN ENDODONTICS

  • Monika Tysiąc-Miśta Section of Dental Materials Science
  • Ewa Białożyt Section of Dental Materials Science
  • Marta Sitek Polonia University in Czestochowa
  • Wiktora Wierzba Polonia University in Czestochowa
  • Bartosz Wanot Polonia University in Czestochowa
  • Magdalena Cieślik Section of Dental Materials Science

Abstract

Endodontics is a branch of dentistry, in which the development of materials is particularly evident. This is due to increasingly higher standards of treatment, providing more and better tretment results. The aim of the study was to gather information on the properties of the MTA material. Materials and methods constituted a comprehensive, systematic review of the literature published in the years 1990-2015 in the database PubMed and GBL on the use of MTA in endodontics. The results and conclusions of the work indicate that this material perfectly fulfills its role in the cases of pulp capping, perforations, resorptions, apeksogenesis apeksyfication - procedures, which are important challenges of modern endodontics.

References

Lee SJ, Monsef M, Torabinejad M. Sealing ability of a mineral trioxide aggregate for repair of lateral root perforations. J Endod 1993, 19:541-4.

Dammaschke T et al. Chemical and physical surface and bulk material characterization of white ProRoot MTA and two Portland cements. Dent Materials 2005; 21: 731-8.

Zarzecka J, Gończowska K. Zastosowanie materiału MTA ( Mineral Trioxide Aggregate-Dentsply, Tulsa Dental, USA) w zabiegach z zakresu mikrochirurgii endodontycznej-przegląd piśmiennictwa. Por.Stom. 2003; 1:6-8.

Jańczuk Z, Kaczmarek U, Lipski M. Stomatologia zachowawcza z endodoncją, PZWL wyd. IV, Warszawa 2014.

Fridland M, Rosado R. Mineral Trioxide Aggregate (MTA) solubility and porosity with different water-to-powder rations. J. Endod. 2003:29:679-82.

Camilleri J et al. Biocompatibility of two commercial forms of mineral trioxide aggregate. Int.Endod.J. 2004; 37: 699-704.

Masuda YM et al. Evaluation of biocompatibility of mineral trioxide aggregate with an improved rabbit ear chamber. J. Oral Rahabil. 2005;32:145-50.

Ribeiro DA et al. Ex vivo biocompability tests of regular and white forms of mineral trioxide aggregate. Int Endod. J. 2006;39: 26-30.

Sarkar NK et al. Physicochemical basis of biologic properties of Mineral Trioxide Aggregate. J.Endod. 2005; 31:2, 97-100.

Torabinejad M, Hong CU, McDonald F, Pitt Ford TR. Investigation of mineral trioxide aggregate for root-end fillings in dogs. J Endod. 1995; 21:603-8.

Fuss Z., Tsesis I., Lin S., Root resorption-diagnosis, classification and treatment choices based on stimulation factors. Dent. Traumatol., 2003, 19, 4, 175-182.

Anan H., Akamine A., Maeda K. An enzyme histochemical study of the behavior of rat bone cells during experimental apical periodontitis. J. Endod, 1993, 19, 2, 83-86.

Jeanneret R: Internen Granulom. SSO Schweiz Monatsschr Zahnheilkd 1947; 57, 378-383.

Lee SJ, Monsef M, Torabinejad M. Sealing ability of a mineral trioxide aggregate for repair of lateral root perforations. J Endod 1993, 19:541-4.

Dammaschke T et al. Chemical and physical surface and bulk material characterization of white ProRoot MTA and two Portland cements. Dent Materials 2005; 21: 731-8.

Zarzecka J, Gończowska K. Zastosowanie materiału MTA ( Mineral Trioxide Aggregate-Dentsply, Tulsa Dental, USA) w zabiegach z zakresu mikrochirurgii endodontycznej-przegląd piśmiennictwa. Por.Stom. 2003; 1:6-8.

Jańczuk Z, Kaczmarek U, Lipski M. Stomatologia zachowawcza z endodoncją, PZWL wyd. IV, Warszawa 2014.

Fridland M, Rosado R. Mineral Trioxide Aggregate (MTA) solubility and porosity with different water-to-powder rations. J. Endod. 2003:29:679-82.

Camilleri J et al. Biocompatibility of two commercial forms of mineral trioxide aggregate. Int.Endod.J. 2004; 37: 699-704.

Masuda YM et al. Evaluation of biocompatibility of mineral trioxide aggregate with an improved rabbit ear chamber. J. Oral Rahabil. 2005;32:145-50.

Ribeiro DA et al. Ex vivo biocompability tests of regular and white forms of mineral trioxide aggregate. Int Endod. J. 2006;39: 26-30.

Sarkar NK et al. Physicochemical basis of biologic properties of Mineral Trioxide Aggregate. J.Endod. 2005; 31:2, 97-100.

Torabinejad M, Hong CU, McDonald F, Pitt Ford TR. Investigation of mineral trioxide aggregate for root-end fillings in dogs. J Endod. 1995; 21:603-8.

Fuss Z., Tsesis I., Lin S., Root resorption-diagnosis, classification and treatment choices based on stimulation factors. Dent. Traumatol., 2003, 19, 4, 175-182.

Anan H., Akamine A., Maeda K. An enzyme histochemical study of the behavior of rat bone cells during experimental apical periodontitis. J. Endod, 1993, 19, 2, 83-86.

Jeanneret R: Internen Granulom. SSO Schweiz Monatsschr Zahnheilkd 1947; 57, 378-383.

Ne RF, Witherspoon DE, Gutmann JL. Tooth resorption. Quintessence Int 1999, 30. 9-25.

Tronstad L. Endodontyczne aspekty resorpcji korzenia. In: Tronstad L, editor Endodoncja kliniczna, Warszawa, PZWL, 2004, 180-190.

Pace R, Guliani V, Pagavino G. Mineral Trioxide aggregate in the treatment of external invasive resorption: a case reoirt. International Endodontic Journal 2008, 41, 258-266.

Islam I, Chng H.K., Yap A.U. Comparison of the physical and mechanical properties of MTA and Portland cement, J. Endod. 2006, 32, 3, 193-197.

Guldener P.H.A. Perforacje przypadkowe, Endodontologia. Diagnostyka i leczenie chorób miazgi i ozębnej, PZWL, Warszawa 1996.

Ingle J.I. A standarized endodontic technique utilizing newly designed instruments and filling materials. Oral Surg. Oral med. Oral Pathol. 1961,14,1, 83-91.

Tsesis I, Fuss Z. Diagnosis and treatment of accidental root perforations. Endod. Topics, 2006, 95-107.

Menezes R. MTA repair of a superacrestal perforation: a case report. J. Endod., 2005, 31, 3, 212-214.

Lipski M. Leczenie zachowawcze siekacza bocznego szczęki z perforacją korzenia zlokalizowaną w jego odcinku środkowym. Opis przypadku. Magazyn Stomat. 2008, XVIII, 3, 61-64.

Bramante C.M. Czy matryca jest potrzebna do leczenia perforacji za pomocą MTA. Endodoncja.pl, 2008, 2, 6-10.

Piątowska D. Trudności i powikłania w leczeniu endodontycznym. Stomatologia zachowawcza. Zarys Kliniczny,red. Jańczuk Z. PZWL, Warszawa, 2004, 443-455.

Fuss Z., Trope M. Root perforations: classification and treatment choices basen on prognostic factors. Endod. Dent. Traumatol., 1996, 12, 3, 255-264.

Piesiak-Pańczyszyn D, Pregiel B, Fita K. Leczenie endodontyczne zębów stałych z niezakończonym rozwojem korzeni w zależności od zastosowanych materiałów. Implantoprotetyka 2010; 11, 1: 38-43.

http://www.dmp.umed.wroc.pl/index.php?menu=streszczenie &art=2009247

Blome B, Sobarzo V. Sukces i niepowodzenie po zamknięciu wierzchołka preparatem MTA. Endodoncja.pl 2009; 2: 86-93.

Roy CO, Jeansone BG, Gerrets T.F. Effect of an acid environment od leakage of root-end filling materials. J.Endod. 2001; 27;7-8.

Fogel HM, Peikoff MD. Microleakage of root-end filling materials. J. Endod., 2001;27; 456-458.


Abstract views: 520
PDF Downloads: 452
Published
2016-10-14
How to Cite
Tysiąc-Miśta, M., Białożyt, E., Sitek, M., Wierzba, W., Wanot, B., & Cieślik, M. (2016). MTA (MINERAL AGGREGATE TRIOXIDE) - DENTAL MATERIAL, WHICH IS THE ANSWER TO NEW CHALLENGES OF MODERN ENDODONTICS. Scientific Journal of Polonia University, 17(2), 45-53. https://doi.org/10.23856/1704

Most read articles by the same author(s)

1 2 > >>