DOI:

10.37988/1811-153X_2019_2_72

Modification of the air conditioner with acrylic and maleic acid copolymer as a way to increase the adhesion strength of glass ionomer cements in combination with hard tooth tissues

Authors

  • N.S. Tyshhenko 1, dentist
  • A.A. Kopytov 1, PhD in Medical Sciences, PhD in Social Sciences, full professor of the Prosthodontics Department
  • S.V. Poklad 2, specialist of the Pharmaceutical and cosmetics chemicals technology Division
  • P.I. Shapovalov 3, 5th year student at the Maxillofacial and plastic surgery Department
  • 1 Belgorod State University, 308015, Belgorod, Russia
  • 2 Mendeleev University of Chemical Technology of Russia, 125047, Moscow, Russia
  • 3 Moscow State University of Medicine and Dentistry, 127473, Moscow, Russia

Abstract

Improving the operational and technological characteristics of glass ionomer cements for fixing plays an important role in the reliability increase of orthopedic treatment. The purpose of study was to find way to increase the adhesion index of glass ionomer cements for fixation in combination with hard tooth tissues. The study revealed an increase in the adhesion strength of glass ionomer cements in conjunction with hard tooth tissues by adding acrylic and maleic acids to the conditioner of the copolymer.

Key words:

glass ionomer cement, fixed prosthesis, conditioner, adhesion, copolymer, polyacrylic acid

For Citation

[1]
Tyshhenko N.S., Kopytov A.A., Poklad S.V., Shapovalov P.I. Modification of the air conditioner with acrylic and maleic acid copolymer as a way to increase the adhesion strength of glass ionomer cements in combination with hard tooth tissues. Clinical Dentistry (Russia).  2019; 2 (90): 72—75. DOI: 10.37988/1811-153X_2019_2_72

References

  1. Пешко А.А. Цементы для фиксации: что, где, когда и как? - Проблемы стоматологии. - 2007; 6: 57-60.
  2. Копытов А.А., Тыщенко Н.С., Поклад С.В. Стеклоиономерный цемент «Полиакрилин» для надежной фиксации. - Клиническая стоматология. - 2017; 2 (82): 62-5.
  3. Robertello F.J., Coffey J.P., Lynde T.A., King P. Fluoride release of glass ionomer-based luting cements in vitro. - J Prosthet Dent. - 1999; 82 (2): 172-6.
  4. Нурт Р.В. Основы стоматологического материаловедения (пер. с англ.). Уч. пособ. - 2-е изд. - КМК-Инвест, 2004. - 304 с.
  5. Tscymbalystov A.V., Kopytov A.A., Tyshchenko N.S., Poklad S.V., Ivanov S.Y. Estimation of changes in some hydrodynamic characteristics of glass ionomer cements for non-removable structures fixation. - Journal of Engineering and Applied Sciences. - 2017; 12 (spec. issue 10): 8949-53.http://medwelljournals.com/abstract/?doi=jeasci.2017.8949.8953
  6. Wilson A.D., McLean J.W. Glass ionomer cement. - Chicago: Quintessence, 1988.
  7. Graham J., Mount A.M. Адгезия стеклоиономерных цементов. - Новое в стоматологии. - 2003; 4 (112): 1-4.
  8. Hoshika S., De Munck J., Sano H., Sidhu S.K., Van Meerbeek B. Effect of conditioning and aging on the bond strength and interfacial morphology of glass-ionomer cement bonded to dentin. - J Adhes Dent. - 2015; 17 (2): 141-6.
  9. Nicholson J.W., Abiden F. Changes in compressive strength on ageing in glass polyalkenoate (glass-ionomer) cements prepared from acrylic/maleic acid copolymers. - Biomaterials. - 1997; 18 (1): 59-62.
  10. Sidhu S.K., Nicholson J.W. A review of glass-ionomer cements for clinical dentistry. - J Funct Biomater. - 2016; 7 (3), 16 p.DOI: 10.3390/jfb7030016

Published on

June 1, 2019