Evaluation Of Bonding Strength Of Composite Resins To Laser Applicated Dentin Surfaces
Year 2021,
Volume: 5 Issue: 2, 57 - 63, 30.12.2021
Merve Gürses
,
Dilek Tağtekin
,
Mehmet Sertaç Peker
,
Funda Yanikoglu
Abstract
Objectives: The aim of this study is to determine the microtensile bond strength (µTBS) of two different composite resins on flat dentin surfaces, which were roughened with three different applications using different frequencies and modes of the Er:YAG laser.
Materials and Methods: This study was performed on 32 third molar teeth. Teeth were randomly selected and divided into four groups, Er:YAG laser 1, Er:YAG laser 2, Er:YAG laser 3 and control group. Futurabond SingleDose VOCO adhesive system was used in all groups. Each gruop was divided into two sub-groups based on composite types (X-tra Fill VOCO, Grandio VOCO). 6 rods were obtained from the center of each tooth. µTBS test was applied to all samples and data was collected. Statistical analysis was performed in Sigmaplot 14 software.
Results: There was no statistically significant difference between the median values of the groups (p=0,0964). The highest bonding value was seen in the control group without Er:YAG laser application.
Conclusions: Er: YAG laser application did not increase the bond strength to dentin; it has been observed that bonding strengths of bulk fill and conventional composites are similar.
References
- 1. Pamir T, Türkün M. Factors affecting microleakage of a packable resin composite: an in vitro study. Oper Dent. 2005 May;30(3):338–45.
- 2. Petrovic LM, Zorica DM, Stojanac IL, Krstonosic VS, Hadnadjev MS, Atanackovic TM. A model of the viscoelastic behavior of flowable resin composites prior to setting. Dent Mater. 2013 Sep;29(9):929–34.
- 3. Bicalho AA, Pereira RD, Zanatta RF, Franco SD, Tantbirojn D, Versluis A, et al. Incremental filling technique and composite material--part I: cuspal deformation, bond strength, and physical properties. Oper Dent. 2014 Mar;39(2):E71–82.
- 4. Bicalho AA, Valdívia ADCM, Barreto BCF, Tantbirojn D, Versluis A, Soares CJ. Incremental filling technique and composite material--part II: shrinkage and shrinkage stresses. Oper Dent. 2014 Mar;39(2):E83–92.
- 5. Ilie N, Hickel R. Investigations on a methacrylate-based flowable composite based on the SDRTM technology [Internet]. Vol. 27, Dental Materials. 2011. p. 348–55. Available from: http://dx.doi.org/10.1016/j.dental.2010.11.014
- 6. Jang J-H, Park S-H, Hwang I-N. Polymerization shrinkage and depth of cure of bulk-fill resin composites and highly filled flowable resin. Oper Dent. 2015 Mar;40(2):172–80.
- 7. Heintze SD, Rousson V. Clinical effectiveness of direct class II restorations - a meta-analysis. J Adhes Dent. 2012 Aug;14(5):407–31.
- 8. Bader C, Krejci I. Indications and limitations of Er:YAG laser applications in dentistry. Am J Dent. 2006 Jun;19(3):178–86.
- 9. Ceballos L, Toledano M, Osorio R, Tay FR, Marshall GW. Bonding to Er-YAG-laser-treated Dentin [Internet]. Vol. 81, Journal of Dental Research. 2002. p. 119–22. Available from: http://dx.doi.org/10.1177/154405910208100207
- 10. Schreiner RF, Chappell RP, Glaros AG, Eick JD. Microtensile testing of dentin adhesives. Dent Mater. 1998 Jun;14(3):194–201.
- 11. Pashley DH, Carvalho RM, Sano H, Nakajima M, Yoshiyama M, Shono Y, et al. The microtensile bond test: a review. J Adhes Dent. 1999 Winter;1(4):299–309.
- 12. Sano H, Chowdhury AFMA, Saikaew P, Matsumoto M, Hoshika S, Yamauti M. The microtensile bond strength test: Its historical background and application to bond testing. Jpn Dent Sci Rev. 2020 Dec;56(1):24–31.
- 13. Van Meerbeek B, Peumans M, Poitevin A, Mine A, Van Ende A, Neves A, et al. Relationship between bond-strength tests and clinical outcomes [Internet]. Vol. 26, Dental Materials. 2010. p. e100–21. Available from: http://dx.doi.org/10.1016/j.dental.2009.11.148
- 14. De Munck J, Van Landuyt K, Peumans M, Poitevin A, Lambrechts P, Braem M, et al. A critical review of the durability of adhesion to tooth tissue: methods and results. J Dent Res. 2005 Feb;84(2):118–32.
- 15. Ferracane JL. Buonocore Lecture. Placing dental composites--a stressful experience. Oper Dent. 2008 May;33(3):247–57.
- 16. Motamedi MH. A Textbook of Advanced Oral and Maxillofacial Surgery. BoD – Books on Demand; 2015. 862 p.
- 17. Hossain M, Nakamura Y, Yamada Y, Kimura Y, Nakamura G, Matsumoto K. Ablation depths and morphological changes in human enamel and dentin after Er:YAG laser irradiation with or without water mist. J Clin Laser Med Surg. 1999 Jun;17(3):105–9.
- 18. Garshasbzadeh NZ, Mirzaie M, Yassini E, Shahabi S, Benedicenti S, Angiero F, et al. Microtensile strength of resin cement bond to indirect composite treated by different output powers of Er:YAG laser [Internet]. Vol. 79, Microscopy Research and Technique. 2016. p. 328–33. Available from: http://dx.doi.org/10.1002/jemt.22634
- 19. Baraba A, Dukić W, Chieffi N, Ferrari M, Anić I, Miletić I. Influence of different pulse durations of Er:YAG laser based on variable square pulse technology on microtensile bond strength of a self-etch adhesive to dentin. Photomed Laser Surg. 2013 Mar;31(3):116–24.
- 20. Kucukyilmaz E, Botsali MS, Korkut E, Sener Y, Sari T. Effect of different modes of erbium:yttrium aluminum garnet laser on shear bond strength to dentin. Niger J Clin Pract. 2017 Oct;20(10):1277–82.
- 21. de Oliveira MT, Reis AF, Arrais CAG, Cavalcanti AN, Aranha ACC, de Paula Eduardo C, et al. Analysis of the interfacial micromorphology and bond strength of adhesive systems to Er:YAG laser-irradiated dentin. Lasers Med Sci. 2013 Jul;28(4):1069–76.
- 22. Ramos ACB, Esteves-Oliveira M, Arana-Chavez VE, de Paula Eduardo C. Adhesives bonded to erbium:yttrium-aluminum-garnet laser-irradiated dentin: transmission electron microscopy, scanning electron microscopy and tensile bond strength analyses. Lasers Med Sci. 2010 Mar;25(2):181–9.
- 23. Ferracane JL. Resin composite--state of the art. Dent Mater. 2011 Jan;27(1):29–38.
- 24. El-Damanhoury H, Platt J. Polymerization shrinkage stress kinetics and related properties of bulk-fill resin composites. Oper Dent. 2014 Jul;39(4):374–82.
- 25. Mandava J, Vegesna D-P, Ravi R, Boddeda M-R, Uppalapati L-V, Ghazanfaruddin MD. Microtensile bond strength of bulk-fill restorative composites to dentin. J Clin Exp Dent. 2017 Aug;9(8):e1023–8.
- 26. Rosatto CMP, Bicalho AA, Veríssimo C, Bragança GF, Rodrigues MP, Tantbirojn D, et al. Mechanical properties, shrinkage stress, cuspal strain and fracture resistance of molars restored with bulk-fill composites and incremental filling technique. J Dent. 2015 Dec;43(12):1519–28.
- 27. Heintze SD. Clinical relevance of tests on bond strength, microleakage and marginal adaptation [Internet]. Vol. 29, Dental Materials. 2013. p. 59–84. Available from: http://dx.doi.org/10.1016/j.dental.2012.07.158
Lazerle Pürüzlendirilen Dentin Yüzeyine Kompozit Rezinlerin Mikro Bağlanma Dayanımlarının İncelenmesi
Year 2021,
Volume: 5 Issue: 2, 57 - 63, 30.12.2021
Merve Gürses
,
Dilek Tağtekin
,
Mehmet Sertaç Peker
,
Funda Yanikoglu
Abstract
Amaç: Bu çalışmada, Er:YAG lazerin farklı frekans ve modları kullanılarak 3 farklı uygulamayla pürüzlendirilen düz dentin yüzeylerinde, tek adeziv sistem ve farklı kompozit materyalleri uygulanarak dentine mikrogerilim bağlanma kuvvetlerinin (µTBS) belirlenmesi ve bağlanma dayanımı üzerine etkilerinin incelenmesi amaçlanmıştır.
Gereç ve Yöntem: 32 adet insan 3. büyük azı dişinde düz dentin yüzeyleri hazırlanmıştır. Dişler rastgele 4 gruba ayrılarak Er:YAG lazer 1, Er:YAG lazer 2, Er:YAG lazer 3 ve kontrol grupları hazırlanmıştır. Lazer kullanılan gruplarda ve kontrol grubunda pürüzlendirme işlemleri yapıldıktan sonra tek aşamalı self etch (Futurabond M SingleDose VOCO) uygulanmıştır. Her bir grup, X-tra fil VOCO (bulk) ve Grandio VOCO (inkremental) kompozit uygulananlar olmak üzere iki alt gruba ayrılmıştır. Tüm dişlerin merkezinden 6’şar adet çubuk şeklinde numune elde edilmiştir. Tüm numunelere µTBS testi uygulanmıştır. İstatistiksel analiz testleri Sigmaplot 14 paket programında yapılmıştır.
Bulgular: Kruskal-Wallis testinin sonuçlarına göre grupların median değerleri arasında istatistiksel olarak anlamlı bir farklılık olmadığı görülmüştür (p=0.964). Grupların ortalama değerlerine bakıldığında, her 4 grupta da birbirine yakın değerler elde edilmiştir. En yüksek bağlanma değerleri; Er:YAG lazer uygulanmayan kontrol grubunda gözlenmiştir.
Sonuç: Er:YAG lazer uygulamasının dentine bağlanma dayanımını arttırmadığı; bulk fill ve geleneksel kompozitlerin bağlanma kuvvetlerinin benzer olduğu görülmüştür.
Thanks
Araştırmadaki değerli katkılarından dolayı Dt. Merve Yüksel’ e teşekkür ederiz.
References
- 1. Pamir T, Türkün M. Factors affecting microleakage of a packable resin composite: an in vitro study. Oper Dent. 2005 May;30(3):338–45.
- 2. Petrovic LM, Zorica DM, Stojanac IL, Krstonosic VS, Hadnadjev MS, Atanackovic TM. A model of the viscoelastic behavior of flowable resin composites prior to setting. Dent Mater. 2013 Sep;29(9):929–34.
- 3. Bicalho AA, Pereira RD, Zanatta RF, Franco SD, Tantbirojn D, Versluis A, et al. Incremental filling technique and composite material--part I: cuspal deformation, bond strength, and physical properties. Oper Dent. 2014 Mar;39(2):E71–82.
- 4. Bicalho AA, Valdívia ADCM, Barreto BCF, Tantbirojn D, Versluis A, Soares CJ. Incremental filling technique and composite material--part II: shrinkage and shrinkage stresses. Oper Dent. 2014 Mar;39(2):E83–92.
- 5. Ilie N, Hickel R. Investigations on a methacrylate-based flowable composite based on the SDRTM technology [Internet]. Vol. 27, Dental Materials. 2011. p. 348–55. Available from: http://dx.doi.org/10.1016/j.dental.2010.11.014
- 6. Jang J-H, Park S-H, Hwang I-N. Polymerization shrinkage and depth of cure of bulk-fill resin composites and highly filled flowable resin. Oper Dent. 2015 Mar;40(2):172–80.
- 7. Heintze SD, Rousson V. Clinical effectiveness of direct class II restorations - a meta-analysis. J Adhes Dent. 2012 Aug;14(5):407–31.
- 8. Bader C, Krejci I. Indications and limitations of Er:YAG laser applications in dentistry. Am J Dent. 2006 Jun;19(3):178–86.
- 9. Ceballos L, Toledano M, Osorio R, Tay FR, Marshall GW. Bonding to Er-YAG-laser-treated Dentin [Internet]. Vol. 81, Journal of Dental Research. 2002. p. 119–22. Available from: http://dx.doi.org/10.1177/154405910208100207
- 10. Schreiner RF, Chappell RP, Glaros AG, Eick JD. Microtensile testing of dentin adhesives. Dent Mater. 1998 Jun;14(3):194–201.
- 11. Pashley DH, Carvalho RM, Sano H, Nakajima M, Yoshiyama M, Shono Y, et al. The microtensile bond test: a review. J Adhes Dent. 1999 Winter;1(4):299–309.
- 12. Sano H, Chowdhury AFMA, Saikaew P, Matsumoto M, Hoshika S, Yamauti M. The microtensile bond strength test: Its historical background and application to bond testing. Jpn Dent Sci Rev. 2020 Dec;56(1):24–31.
- 13. Van Meerbeek B, Peumans M, Poitevin A, Mine A, Van Ende A, Neves A, et al. Relationship between bond-strength tests and clinical outcomes [Internet]. Vol. 26, Dental Materials. 2010. p. e100–21. Available from: http://dx.doi.org/10.1016/j.dental.2009.11.148
- 14. De Munck J, Van Landuyt K, Peumans M, Poitevin A, Lambrechts P, Braem M, et al. A critical review of the durability of adhesion to tooth tissue: methods and results. J Dent Res. 2005 Feb;84(2):118–32.
- 15. Ferracane JL. Buonocore Lecture. Placing dental composites--a stressful experience. Oper Dent. 2008 May;33(3):247–57.
- 16. Motamedi MH. A Textbook of Advanced Oral and Maxillofacial Surgery. BoD – Books on Demand; 2015. 862 p.
- 17. Hossain M, Nakamura Y, Yamada Y, Kimura Y, Nakamura G, Matsumoto K. Ablation depths and morphological changes in human enamel and dentin after Er:YAG laser irradiation with or without water mist. J Clin Laser Med Surg. 1999 Jun;17(3):105–9.
- 18. Garshasbzadeh NZ, Mirzaie M, Yassini E, Shahabi S, Benedicenti S, Angiero F, et al. Microtensile strength of resin cement bond to indirect composite treated by different output powers of Er:YAG laser [Internet]. Vol. 79, Microscopy Research and Technique. 2016. p. 328–33. Available from: http://dx.doi.org/10.1002/jemt.22634
- 19. Baraba A, Dukić W, Chieffi N, Ferrari M, Anić I, Miletić I. Influence of different pulse durations of Er:YAG laser based on variable square pulse technology on microtensile bond strength of a self-etch adhesive to dentin. Photomed Laser Surg. 2013 Mar;31(3):116–24.
- 20. Kucukyilmaz E, Botsali MS, Korkut E, Sener Y, Sari T. Effect of different modes of erbium:yttrium aluminum garnet laser on shear bond strength to dentin. Niger J Clin Pract. 2017 Oct;20(10):1277–82.
- 21. de Oliveira MT, Reis AF, Arrais CAG, Cavalcanti AN, Aranha ACC, de Paula Eduardo C, et al. Analysis of the interfacial micromorphology and bond strength of adhesive systems to Er:YAG laser-irradiated dentin. Lasers Med Sci. 2013 Jul;28(4):1069–76.
- 22. Ramos ACB, Esteves-Oliveira M, Arana-Chavez VE, de Paula Eduardo C. Adhesives bonded to erbium:yttrium-aluminum-garnet laser-irradiated dentin: transmission electron microscopy, scanning electron microscopy and tensile bond strength analyses. Lasers Med Sci. 2010 Mar;25(2):181–9.
- 23. Ferracane JL. Resin composite--state of the art. Dent Mater. 2011 Jan;27(1):29–38.
- 24. El-Damanhoury H, Platt J. Polymerization shrinkage stress kinetics and related properties of bulk-fill resin composites. Oper Dent. 2014 Jul;39(4):374–82.
- 25. Mandava J, Vegesna D-P, Ravi R, Boddeda M-R, Uppalapati L-V, Ghazanfaruddin MD. Microtensile bond strength of bulk-fill restorative composites to dentin. J Clin Exp Dent. 2017 Aug;9(8):e1023–8.
- 26. Rosatto CMP, Bicalho AA, Veríssimo C, Bragança GF, Rodrigues MP, Tantbirojn D, et al. Mechanical properties, shrinkage stress, cuspal strain and fracture resistance of molars restored with bulk-fill composites and incremental filling technique. J Dent. 2015 Dec;43(12):1519–28.
- 27. Heintze SD. Clinical relevance of tests on bond strength, microleakage and marginal adaptation [Internet]. Vol. 29, Dental Materials. 2013. p. 59–84. Available from: http://dx.doi.org/10.1016/j.dental.2012.07.158