Bond strength repair of a bulk-fill composite using different adhesive systems and resin composites

Mariana Sati Cantalejo Tsutsumi; Terezinha Fatima de  Souza; Victor Eduardo de Souza  Batista; Larissa Sgarbosa de Araújo Matuda; Paulo Henrique dos  Santos; Anderson Catelan

doi:10.33448/rsd-v10i5.14951

Authors

Mariana Sati Cantalejo Tsutsumi University of Western São Paulo https://orcid.org/0000-0001-7104-712X
Terezinha Fatima de Souza University of Western São Paulo https://orcid.org/0000-0003-0934-3192
Victor Eduardo de Souza Batista University of Western São Paulo https://orcid.org/0000-0003-0246-8101
Larissa Sgarbosa de Araújo Matuda University of Western São Paulo https://orcid.org/0000-0002-9033-9029
Paulo Henrique dos Santos São Paulo State University https://orcid.org/0000-0002-4100-5153
Anderson Catelan University of Western São Paulo https://orcid.org/0000-0002-5916-8655

DOI:

https://doi.org/10.33448/rsd-v10i5.14951

Keywords:

Adhesiveness; Dentin-Bonding agents; Dental restoration repair; Composite resins.

Abstract

In this study evaluated the effect of different adhesive systems and resin composites on the microtensile bond strength of repairs using a bulk-fill composite. Ninety specimens were prepared using a half-hourglass mold of composite Filtek Bulk Fill using a silicone matrix. Specimens were randomly distributed in 9 experimental groups (n=10) according to adhesive [Universal Single Bond (SBU), Scotchbond Multipurpose Adhesive (SBMP), and Single Bond 2 (SB2)] and resin composite (Filtek Bulk Fill, Aura Bulk Fill, and Filtek Z250). For control group, hourglass specimens were used to measure the ultimate bond strength. Specimens were submitted to thermal cycling (5,000 cycles, 5 and 55°C, 30s) to simulate the aging of restoration and then the repair procedure was performed. After the diamond-tipped surface roughening to be repaired, the adhesive protocol was performed according to group, the specimen was placed in an hourglass-shaped mold and the other half was filled with the repair composite. After 24h, bond strength of specimens was obtained by microtensile using a universal testing machine at a speed of 0.5mm/min. Data were statistically analyzed by two-way ANOVA, Tukey’s and Dunnett’s tests (α=0.05). SBU showed higher bond strength compared to SB2, while SBMP showed intermediate values. However, all experimental groups showed lower bond strength compared to ultimate bond strength. In conclusion, bulk-fill composite repair using universal or conventional solvent-free adhesive improved the adhesion independent of composite tested.

References

Ahmadizenouz, G., Esmaeili, B., Tagvaei, A., Jamali, Z., Jafari, T., Daneshvar, F. A. & Khafri, S. (2016) Effect of different surface treatments on the shear bond strength of nanofilled composite repairs. J Dent Res Dent Clin Dent Prospects, 10, 9-16.

Ayar, M. K., Guven, M. E., Burduroglu, H. D. & Erdemir, F. (2019) Repair of aged bulk-fill composite with posterior composite: Effect of different surface treatments. J Esthet Restor Dent, 31, 246-252.

Baena, E., Vignolo, V., Fuentes, M. V. & Ceballos, L. (2015) Influence of repair procedure on composite-to-composite microtensile bond strength. Am J Dent, 28, 255-260.

Baur, V. & Ilie, N. (2013) Repair of dental resin-based composites. Clin Oral Investig, 17, 601-608.

Benetti, A. R., Havndrup-Pedersen, C., Honoré, D., Pedersen, M. K. & Pallesen, U. (2015) Bulk-fill resin composites: polymerization contraction, depth of cure, and gap formation. Oper Dent, 40, 190-200.

Brunton, P. A., Ghazali, A., Tarif, Z. H., Loch, C., Lynch, C., Wilson, N. & Brum, I. R. (2017) Repair vs replacement of direct composite restorations: a survey of teaching and operative techniques in Oceania. J Dent, 59, 62-67.

Çakir, N. N., Demirbuga, S., Balkaya, H. & Karadaş, M. (2018) Bonding performance of universal adhesives on composite repairs, with or without silane application. J Conserv Dent, 21, 263-268.

Carvalho, H. C., Geha, O., Zanin, G. T., Reis, M. F. B., Guiraldo, R. D., Matos, A. N. F., Aranha, A. M. F. & Berger, S. B. (2020) Effect of bleaching agents on mechanical properties of bulk fill and conventional composites. Res, Soc Dev, 9, e918998279.

Cho, S. D., Rajitrangson, P., Matis, B. A. & Platt, J. A. (2013) Effect of Er,Cr:YSGG laser, air abrasion, and silane application on repaired shear bond strength of composites. Oper Dent, 38, E1-9.

Cuevas-Suárez, C. E., Nakanishi, L., Isolan, C. P., Ribeiro, J. S., Moreira, A. G. & Piva, E. (2020) Repair bond strength of bulk-fill resin composite: Effect of different adhesive protocols. Dent Mater J, 39, 236-241.

Cura, M., González-González, I., Fuentes, V. & Ceballos, L. (2016) Effect of surface treatment and aging on bond strength of composite resin onlays. J Prosthet Dent, 116, 389-396.

De Jesus Tavarez, R. R., Almeida Júnior, L. J., Guará, T. C., Ribeiro, I. S., Maia Filho, E. M. & Firoozmand, L. M. (2017) Shear bond strength of different surface treatments in bulk fill, microhybrid, and nanoparticle repair resins. Clin Cosmet Investig Dent, 9, 61-66.

De Medeiros, T. C., De Lima, M. R., Bessa, S. C., De Araújo, D. F. & Galvão, M. R. (2019) Repair bond strength of bulk fill composites after different adhesion protocols. J Clin Exp Dent, 11, e1000-1005.

Demarco, F. F., Corrêa, M. B., Cenci, M. S., Moraes, R. R. & Opdam, N. J. (2012) Longevity of posterior composite restorations: not only a matter of materials. Dent Mater, 28, 87-101.

Duran, İ., Ural, Ç., Yilmaz, B. & Tatar, N. (2015) Effects of Er:YAG laser pretreatment with different energy levels on bond strength of repairing composite materials. Photomed Laser Surg, 33, 320-325.

Ferracane, J. L. (2011) Resin composite - state of the art. Dent Mater, 27, 29-38.

Fornazari, I. A., Wille, I., Meda, E. M., Brum, R. T. & Souza, E. M. (2017) Effect of surface treatment, silane, and universal adhesive on microshear bond strength of nanofilled composite repairs. Oper Dent, 42, 367-374.

Fronza, B. M., Rueggeberg, F. A., Braga, R. R., Mogilevych, B., Soares, L. E., Martin, A. A., Ambrosano, G. & Giannini, M. (2015) Monomer conversion, microhardness, internal marginal adaptation, and shrinkage stress of bulk-fill resin composites. Dent Mater, 31, 1542-1551.

Gaglianone, L. A., Lima, A. F., Gonçalves, L. S., Cavalcanti, A. N., Aguiar, F. H. & Marchi, G. M. (2012) Mechanical properties and degree of conversion of etch-and-rinse and self-etch adhesive systems cured by a quartz tungsten halogen lamp and a light-emitting diode. J Mech Behav Biomed Mater, 12, 139-143.

Ghavam, M., Naeemi, M., Hashemikamangar, S. S., Ebrahimi, H. & Kharazifard, M. J. (2018) Repair bond strength of composite: Effect of surface treatment and type of composite. J Clin Exp Dent, 10, e520-527.

Ilie, N., Bucuta, S. & Draenert, M. (2013) Bulk-fill resin-based composites: an in vitro assessment of their mechanical performance. Oper Dent, 38, 618-625.

Ilie, N., Schöner, C., Bücher, K. & Hickel, R. (2014) An in-vitro assessment of the shear bond strength of bulk-fill resin composites to permanent and deciduous teeth. J Dent, 42, 850-855.

Kiomarsi, N., Saburian, P., Chiniforush, N., Karazifard, M. J. & Hashemikamangar, S. S. (2017) Effect of thermocycling and surface treatment on repair bond strength of composite. J Clin Exp Dent, 9, e945-951.

Lima, A. F., Ferreira, S. F., Catelan, A., Palialol, A. R., Gonçalves, L. S., Aguiar, F. H. & Marchi, M. G. (2014) The effect of surface treatment and bonding procedures on the bond strength of silorane composite repairs. Acta Odontol Scand, 72, 71-75.

Lima, A. F., Leite, T. V., Palialol, A. M., Catelan, A, Aguiar, F. H. B., Marchi, G. M., Yuzbasiogluc, E., Özcan, M. (2016) Effect of surface conditioning methods, adhesive systems and resin composite on repair strength of dimethacrylate and silorane resin composites. J Adhes Sci Technol, 30, 2736-2744.

Rocha, M. I. S., Santos-Filho, P. C. F., Dietrich, L., Reis, T. A., Magalhaes, M. A. & Martins, V. M. (2020) Depth of cure of the bulk fill resin composite from different light source. Res Soc Dev, 9, e7509109190.

Shahdad, S. A. & Kennedy, J. G. (1998) Bond strength of repaired anterior composite resins: an in vitro study. J Dent, 26, 685-694.

Tantbirojn, D., Fernando, C. & Versluis, A. (2015) Failure Strengths of composite additions and repairs. Oper Dent, 40, 364-371.

Turner, C. W. & Meiers, J. C. (1993) Repair of an aged, contaminated indirect composite resin with a direct, visible-light-cured composite resin. Oper Dent, 18, 187-194.

Bond strength repair of a bulk-fill composite using different adhesive systems and resin composites

Authors

DOI:

Keywords:

Abstract

References

Downloads

Published

How to Cite

Issue

Section

License

JOURNAL METRICS

Language

Make a Submission