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Current Perspectives of Calcium Hydroxide, Mineral Trioxide Aggregate and Biodentine Used in Direct Pulp Capping Treatments

Yıl 2022, Cilt: 3 Sayı: 1, 127 - 135, 17.06.2022

Öz

Dental pulp vitality is important for maintaining tooth health and function. The aim of direct pulp capping treatments is to maintain the vitality of the tooth. The properties of pulp capping materials are important in the success of the treatment. Calcium hydroxide has been used as the popular several decades. Calcium hydroxide has excellent antibacterial properties. Provides reparative dentin formation. However, calcium hydroxide is easily soluble and provides a poor seal. Due to such disadvantages, alternative materials have been producted. Mineral Trioxide Aggregate is nonsoluble. And more effective than calcium hydroxide as a direct pulp capping material. However, the setting time is longer than calcium hydroxide and it is expensive. Therefore, the number of sessions and the cost of the treatment increase. Biodentine (Septodont) allows the treatment to be completed in an one session with it is short setting time. However, it is low radiopacity makes clinical follow-up difficult. Calcium hydroxide, Mineral Trioxide Aggregate and Biodentine reveal different properties from each other in these aspects. The aim of this review article is to research the properties of calcium hydroxide, Mineral Trioxide Aggregate and Biodentine used in direct pulp capping treatment with current data.

Kaynakça

  • 1. Hilton TJ (2009) Keys to Clinical Success with Pulp Capping: A Review of the Literature. Oper Dent.;34(5):615–25.1. . 2. Witherspoon DE, Small JC, Harris GZ (2006). ABSTRACT. ;137(May).
  • 3. Kundzina R, Stangvaltaite L, Eriksen HM, Kerosuo E. (2017) Capping carious exposures in adults: a randomized controlled trial investigating mineral trioxide aggregate versus calcium hydroxide. Int Endod J.;50(10):924–32.
  • 4. Hilton TJ, Ferracane JL, Mancl L.(2013) Comparison of CaOH with MTA for Direct Pulp Capping: A PBRN Randomized Clinical Trial. J Dent Res. ;92(July 2013):S16–22.
  • 5. Gandolfi MG, Siboni F, Prati C. (2012) Chemical-physical properties of TheraCal, a novel light-curable MTA-like material for pulp capping. Int Endod J.;45(6):571–9.
  • 6. Qureshi A, Soujanya E, Kumar N, Kumar P, Hivarao S. (2014) Recent advances in pulp capping materials: An overview. J Clin Diagnostic Res.;8(1):316–21.
  • 7. Mohammadi Z, Dummer PMH. (2011) Properties and applications of calcium hydroxide in endodontics and dental traumatology. Int Endod J.;44(8):697–730.
  • 8. Garg A, Garg N, Garg A. (2014) Cleaning and Shaping of Root Canal System. Textbook of Endodontics. 246–246 p.
  • 9. Parirokh M, Torabinejad M, Dummer PMH. (2018) Mineral trioxide aggregate and other bioactive endodontic cements: an updated overview – part I: vital pulp therapy. Int Endod J.;51(2):177–205.
  • 10. Hinata G, Yoshiba K, Han L, Edanami N, Yoshiba N, Okiji T. (2017) Bioactivity and biomineralization ability of calcium silicate-based pulp-capping materials after subcutaneous implantation. Int Endod J.;50:e40–51.
  • 11. Bakhtiar H, Nekoofar MH, Aminishakib P, Abedi F, Naghi Moosavi F, Esnaashari E, et al. (2017) Human Pulp Responses to Partial Pulpotomy Treatment with TheraCal as Compared with Biodentine and ProRoot MTA: A Clinical Trial. J Endod [Internet]. ;43(11):1786–91. Available from: http://dx.doi.org/10.1016/j.joen.2017.06.025
  • 12. Arandi NZ, Thabet M. (2021) Minimal Intervention in Dentistry: A Literature Review on Biodentine as a Bioactive Pulp Capping Material. Biomed Res Int.
  • 13. Kunert M, Lukomska-Szymanska M. (2020) Bio-Inductive Materials in Direct and Indirect Pulp Capping - A Review Article. Materials (Basel).;13(5).
  • 14. Rajasekharan S, Martens LC, Cauwels RGEC, Anthonappa RP. (2018) BiodentineTM material characteristics and clinical applications: a 3 year literature review and update. Eur Arch Paediatr Dent [Internet].;19(1):1–22. Available from: https://doi.org/10.1007/s40368-018-0328-x
  • 15. Tziafas D, Pantelidou O, Alvanou A, Belibasakis G, Papadimitriou S. (2002) The dentinogenic effect of mineral trioxide aggregate (MTA) in short-term capping experiments. Int Endod J.;35(3):245–54.
  • 16. Fava LRG, Saunders WP. (1999) Calcium hydroxide pastes: Classification and clinical indications. Int Endod J. ;32(4):257–82.
  • 17. Modena KC da S, Casas-Apayco LC, Atta MT, Costa CA de S, Hebling J, Sipert CR, et al. (2009) Cytotoxicity and biocompatibility of direct and indirect pulp capping materials. J Appl Oral Sci.;17(6):544–54.
  • 18. Arandi NZ. (2017) Calcium hydroxide liners: A literature review. Clin Cosmet Investig Dent. ;9:67–72.
  • 19. Graham L, Cooper PR, Cassidy N, Nor JE, Sloan AJ, Smith AJ. (2006) The effect of calcium hydroxide on solubilisation of bio-active dentine matrix components. Biomaterials.;27(14):2865–73.
  • 20. Andrei M, Vacaru RP, Coricovac A, Ilinca R, Didilescu AC, Demetrescu I. (2021) The effect of calcium-silicate cements on reparative dentinogenesis following direct pulp capping on animal models. Molecules. ;26(9).
  • 21. Vural UK, Kiremitci A, Gokalp S.(2017) Randomized clinical trial to evaluate MTA indirect pulp capping in deep caries lesions after 24-months. Oper Dent. ;42(5):470–7.
  • 22. Schmitt D, Jacob DDS, Dds L, George FC, Dds B. (2001) Repair material selection. (C).
  • 23. Namazikhah MS, Nekoofar MH, Sheykhrezae MS, Salariyeh S, Hayes SJ, Bryant ST, et al. (2008) The effect of pH on surface hardness and microstructure of mineral trioxide aggregate. Int Endod J. ;41(2):108–16.
  • 24. Parirokh M, Torabinejad M. (2010) Mineral Trioxide Aggregate: A Comprehensive Literature Review-Part I: Chemical, Physical, and Antibacterial Properties. J Endod [Internet].;36(1):16–27. Available from: http://dx.doi.org/10.1016/j.joen.2009.09.006
  • 25. Camilleri J, Pitt Ford TR. (2006) Mineral trioxide aggregate: A review of the constituents and biological properties of the material. Int Endod J. ;39(10):747–54.
  • 26. Kaur M, Singh H, Dhillon JS, Batra M, Saini M. (2017) MTA versus biodentine: Review of literature with a comparative analysis. J Clin Diagnostic Res. ;11(8):ZG01–5.
  • 27. Rao A, Rao A, Shenoy R. (2009) Mineral trioxide aggregate-a review. J Clin Pediatr Dent. ;34(1):1–8.
  • 28. Kayahan MB, Nekoofar MH, Kazandag̀ M, Canpolat C, Malkondu O, Kaptan F, et al. (2009) Effect of acid-etching procedure on selected physical properties of mineral trioxide aggregate. Int Endod J.;42(11):1004–14.
  • 29. Yamamoto S, Han L, Noiri Y, Okiji T. (2017) Evaluation of the Ca ion release, pH and surface apatite formation of a prototype tricalcium silicate cement. Int Endod J. ;50:e73–82.
  • 30. Srinivasan V, Waterhouse P, Whitworth J. (2009) Mineral trioxide aggregate in paediatric dentistry. Int J Paediatr Dent. ;19(1):34–47.
  • 31. Anthonappa RP, King NM, Martens LC. (2013) Is there sufficient evidence to support the long-term efficacy of mineral trioxide aggregate (MTA) for endodontic therapy in primary teeth? Int Endod J. ;46(3):198–204.
  • 32. Accorinte MLR, Loguercio AD, Reis A, Carneiro E, Grande RHM, Murata SS, et al. (2008) Response of human dental pulp capped with MTA and calcium hydroxide powder. Oper Dent. ;33(5):488–95.
  • 33. Septodont. (2015) Biodentine - Instruction.
  • 34. Malkondu Ö, Kazandaǧ MK, Kazazoǧlu E. (2014) A review on biodentine, a contemporary dentine replacement and repair material. Biomed Res Int.
  • 35. Caron G, Azérad J, Faure MO, Machtou P, Boucher Y. (2014) Use of a new retrograde filling material (Biodentine) for endodontic surgery: Two case reports. Int J Oral Sci. ;6(4):250–3.

Direkt Pulpa Kaplaması Tedavilerinde Kullanılan Materyallere Güncel Bir Bakış

Yıl 2022, Cilt: 3 Sayı: 1, 127 - 135, 17.06.2022

Öz

Dental pulpa vitalitesi, dişin sağlığını ve fonksiyonunu korumak için önemlidir. Direkt pulpa kaplaması tedavilerinde amaç, dişin vitalitesinin devamını sağlamaktır. Yapılacak olan tedavinin başarısında pulpa kaplama materyallerinin özellikleri önem taşır. Kalsiyum hidroksit, yıllarca popüler olarak kullanılmıştır. Mükemmel antibakteriyel özellik gösterir. Reperatif dentin oluşumunu sağlar. Ancak kalsiyum hidroksit, kolaylıkla çözünebilir ve zayıf örtücülük sağlar. Bu gibi dezavantajlarından dolayı alternatif materyaller üretilmiştir. Mineral Trioksit Agregat çözünmezdir. Direkt pulpa kaplama materyali olarak kalsiyum hidroksite göre daha etkilidir. Fakat kalsiyum hidroksite göre sertleşme süresi uzundur ve pahalıdır. Bundan dolayı tedavinin seans sayısı ve maliyeti artar. Biodentine (Septodont), sertleşme süresinin kısa olmasıyla tedavinin tek seansta bitirilmesine olanak sağlar. Ancak düşük radyoopasite göstermesi klinik takibini zorlaştırır. Kalsiyum hidroksit, Mineral Trioksit Agregat ve Biodentine bu yönleriyle birbirlerinden farklı özellikler ortaya koyar. Bu derleme makalesinin amacı; direkt pulpa kaplaması tedavisinde kullanılan kalsiyum hidroksit, Mineral Trioksit Agregat ve Biodentine’in özelliklerinin güncel verilerle araştırılmasıdır

Kaynakça

  • 1. Hilton TJ (2009) Keys to Clinical Success with Pulp Capping: A Review of the Literature. Oper Dent.;34(5):615–25.1. . 2. Witherspoon DE, Small JC, Harris GZ (2006). ABSTRACT. ;137(May).
  • 3. Kundzina R, Stangvaltaite L, Eriksen HM, Kerosuo E. (2017) Capping carious exposures in adults: a randomized controlled trial investigating mineral trioxide aggregate versus calcium hydroxide. Int Endod J.;50(10):924–32.
  • 4. Hilton TJ, Ferracane JL, Mancl L.(2013) Comparison of CaOH with MTA for Direct Pulp Capping: A PBRN Randomized Clinical Trial. J Dent Res. ;92(July 2013):S16–22.
  • 5. Gandolfi MG, Siboni F, Prati C. (2012) Chemical-physical properties of TheraCal, a novel light-curable MTA-like material for pulp capping. Int Endod J.;45(6):571–9.
  • 6. Qureshi A, Soujanya E, Kumar N, Kumar P, Hivarao S. (2014) Recent advances in pulp capping materials: An overview. J Clin Diagnostic Res.;8(1):316–21.
  • 7. Mohammadi Z, Dummer PMH. (2011) Properties and applications of calcium hydroxide in endodontics and dental traumatology. Int Endod J.;44(8):697–730.
  • 8. Garg A, Garg N, Garg A. (2014) Cleaning and Shaping of Root Canal System. Textbook of Endodontics. 246–246 p.
  • 9. Parirokh M, Torabinejad M, Dummer PMH. (2018) Mineral trioxide aggregate and other bioactive endodontic cements: an updated overview – part I: vital pulp therapy. Int Endod J.;51(2):177–205.
  • 10. Hinata G, Yoshiba K, Han L, Edanami N, Yoshiba N, Okiji T. (2017) Bioactivity and biomineralization ability of calcium silicate-based pulp-capping materials after subcutaneous implantation. Int Endod J.;50:e40–51.
  • 11. Bakhtiar H, Nekoofar MH, Aminishakib P, Abedi F, Naghi Moosavi F, Esnaashari E, et al. (2017) Human Pulp Responses to Partial Pulpotomy Treatment with TheraCal as Compared with Biodentine and ProRoot MTA: A Clinical Trial. J Endod [Internet]. ;43(11):1786–91. Available from: http://dx.doi.org/10.1016/j.joen.2017.06.025
  • 12. Arandi NZ, Thabet M. (2021) Minimal Intervention in Dentistry: A Literature Review on Biodentine as a Bioactive Pulp Capping Material. Biomed Res Int.
  • 13. Kunert M, Lukomska-Szymanska M. (2020) Bio-Inductive Materials in Direct and Indirect Pulp Capping - A Review Article. Materials (Basel).;13(5).
  • 14. Rajasekharan S, Martens LC, Cauwels RGEC, Anthonappa RP. (2018) BiodentineTM material characteristics and clinical applications: a 3 year literature review and update. Eur Arch Paediatr Dent [Internet].;19(1):1–22. Available from: https://doi.org/10.1007/s40368-018-0328-x
  • 15. Tziafas D, Pantelidou O, Alvanou A, Belibasakis G, Papadimitriou S. (2002) The dentinogenic effect of mineral trioxide aggregate (MTA) in short-term capping experiments. Int Endod J.;35(3):245–54.
  • 16. Fava LRG, Saunders WP. (1999) Calcium hydroxide pastes: Classification and clinical indications. Int Endod J. ;32(4):257–82.
  • 17. Modena KC da S, Casas-Apayco LC, Atta MT, Costa CA de S, Hebling J, Sipert CR, et al. (2009) Cytotoxicity and biocompatibility of direct and indirect pulp capping materials. J Appl Oral Sci.;17(6):544–54.
  • 18. Arandi NZ. (2017) Calcium hydroxide liners: A literature review. Clin Cosmet Investig Dent. ;9:67–72.
  • 19. Graham L, Cooper PR, Cassidy N, Nor JE, Sloan AJ, Smith AJ. (2006) The effect of calcium hydroxide on solubilisation of bio-active dentine matrix components. Biomaterials.;27(14):2865–73.
  • 20. Andrei M, Vacaru RP, Coricovac A, Ilinca R, Didilescu AC, Demetrescu I. (2021) The effect of calcium-silicate cements on reparative dentinogenesis following direct pulp capping on animal models. Molecules. ;26(9).
  • 21. Vural UK, Kiremitci A, Gokalp S.(2017) Randomized clinical trial to evaluate MTA indirect pulp capping in deep caries lesions after 24-months. Oper Dent. ;42(5):470–7.
  • 22. Schmitt D, Jacob DDS, Dds L, George FC, Dds B. (2001) Repair material selection. (C).
  • 23. Namazikhah MS, Nekoofar MH, Sheykhrezae MS, Salariyeh S, Hayes SJ, Bryant ST, et al. (2008) The effect of pH on surface hardness and microstructure of mineral trioxide aggregate. Int Endod J. ;41(2):108–16.
  • 24. Parirokh M, Torabinejad M. (2010) Mineral Trioxide Aggregate: A Comprehensive Literature Review-Part I: Chemical, Physical, and Antibacterial Properties. J Endod [Internet].;36(1):16–27. Available from: http://dx.doi.org/10.1016/j.joen.2009.09.006
  • 25. Camilleri J, Pitt Ford TR. (2006) Mineral trioxide aggregate: A review of the constituents and biological properties of the material. Int Endod J. ;39(10):747–54.
  • 26. Kaur M, Singh H, Dhillon JS, Batra M, Saini M. (2017) MTA versus biodentine: Review of literature with a comparative analysis. J Clin Diagnostic Res. ;11(8):ZG01–5.
  • 27. Rao A, Rao A, Shenoy R. (2009) Mineral trioxide aggregate-a review. J Clin Pediatr Dent. ;34(1):1–8.
  • 28. Kayahan MB, Nekoofar MH, Kazandag̀ M, Canpolat C, Malkondu O, Kaptan F, et al. (2009) Effect of acid-etching procedure on selected physical properties of mineral trioxide aggregate. Int Endod J.;42(11):1004–14.
  • 29. Yamamoto S, Han L, Noiri Y, Okiji T. (2017) Evaluation of the Ca ion release, pH and surface apatite formation of a prototype tricalcium silicate cement. Int Endod J. ;50:e73–82.
  • 30. Srinivasan V, Waterhouse P, Whitworth J. (2009) Mineral trioxide aggregate in paediatric dentistry. Int J Paediatr Dent. ;19(1):34–47.
  • 31. Anthonappa RP, King NM, Martens LC. (2013) Is there sufficient evidence to support the long-term efficacy of mineral trioxide aggregate (MTA) for endodontic therapy in primary teeth? Int Endod J. ;46(3):198–204.
  • 32. Accorinte MLR, Loguercio AD, Reis A, Carneiro E, Grande RHM, Murata SS, et al. (2008) Response of human dental pulp capped with MTA and calcium hydroxide powder. Oper Dent. ;33(5):488–95.
  • 33. Septodont. (2015) Biodentine - Instruction.
  • 34. Malkondu Ö, Kazandaǧ MK, Kazazoǧlu E. (2014) A review on biodentine, a contemporary dentine replacement and repair material. Biomed Res Int.
  • 35. Caron G, Azérad J, Faure MO, Machtou P, Boucher Y. (2014) Use of a new retrograde filling material (Biodentine) for endodontic surgery: Two case reports. Int J Oral Sci. ;6(4):250–3.
Toplam 34 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Sağlık Kurumları Yönetimi
Bölüm Derlemeler
Yazarlar

Esra Baltacıoğlu 0000-0003-1203-4147

Rukiye Demir Dikmen 0000-0002-7236-6672

Elif Ayfer Baltacı Yıldız 0000-0002-4405-2211

Yayımlanma Tarihi 17 Haziran 2022
Gönderilme Tarihi 6 Mayıs 2022
Yayımlandığı Sayı Yıl 2022 Cilt: 3 Sayı: 1

Kaynak Göster

Vancouver Baltacıoğlu E, Demir Dikmen R, Baltacı Yıldız EA. Direkt Pulpa Kaplaması Tedavilerinde Kullanılan Materyallere Güncel Bir Bakış. BÜSAD. 2022;3(1):127-35.