Shear Bond Strength of Zirconia to Flowable Resin Composite with Resin Cement Containing Different Functional Monomers

Main Article Content

Panravee Thanomsakchai
Pisaisit Chaijareenont
Nathawat Pleumsamran
Thanapat Sastraruji

Abstract

The objective was to study mechanical properties of zirconia after bonded with flowable resin composite using resin cement containing different functional monomers. A sintered YTZP zirconia blank was cut into 60 blocks (7x7x1mm3) then embedded in cylindrical tube with epoxy resin. All specimens were soaked in artificial saliva for 3 minutes then cleaned and dried. Specimens were divided into 5 groups; Group1: directly bonded with flowable resin composite (control), Group2: sandblasted with 50 micron aluminum oxide particle at 2.0 bar pressure for 20 seconds then directly bonded with resin composite. A total of 36 resin composite rods (3mm diameter and 2mm height) were fabricated for group 3-5; Group3: sandblasted then bonded with resin composite rod using Panavia F2.0, Group4: sandblasted then bonded with resin composite rod using Clearfil ceramic primer and Panavia F2.0, Group5: sandblasted then bonded with resin composite rod using Superbond C&B. All specimens were tested for shear bond strength using universal testing machine with a crosshead-speed of 1.0 mm/min. All data were statistically analyzed using One-way ANOVA and Tukey’s HSD test. Group5 had the highest mean shear bond strength, not significantly different with Group3 and 4, but significantly higher than Group1 and 2 (p<0.05). In conclusion, different functional monomers in resin cement had no effect on shear bond strength between zirconia and resin composite.

Article Details

How to Cite
1.
Thanomsakchai P, Chaijareenont P, Pleumsamran N, Sastraruji T. Shear Bond Strength of Zirconia to Flowable Resin Composite with Resin Cement Containing Different Functional Monomers. Khon Kaen Dent J [Internet]. 2021 Dec. 9 [cited 2024 Mar. 29];24(3):69-81. Available from: https://he01.tci-thaijo.org/index.php/KDJ/article/view/247692
Section
Research Articles
Share |

References

Piconi C, Maccauro G. Zirconia as a ceramic biomaterial. Biomaterials 1999;20(1):1-25.

Manicone PF, Rossi Iommetti P, Raffaelli L. An overview of zirconia ceramics: basic properties and clinical applications. J Dent 2007;35(11):819-26.

Chen YW, Moussi J, Drury JL, Wataha JC. Zirconia in biomedical applications. Expert Rev Med Devic 2016; 13(10):945-63.

Gautam C, Joyner J, Vajtai R, Gautam A, Rao J. Zirconia based dental ceramics: structure, mechanical properties, biocompatibility and applications. Dalton Trans 2016; 45(48):19194-215.

Magne P, Paranhos MP, Burnett LH, Jr. New zirconia primer improves bond strength of resin-based cements. Dent Mater 2010;26(4):345-52.

Moraes RR, Guimaraes GZ, Oliveira AS, Faot F, Cava SS. Impact of acidic monomer type and concentration on the adhesive performance of dental zirconia primers. Int J Adhes Adhes 2012;39(8):49-53.

Ozcan M, Cura C, Valandro LF. Early bond strength of two resin cements to Y-TZP ceramic using MPS or MPS/4-META silanes. Odontology 2011;99(1):62-7.

Ahn JS, Yi YA, Lee Y, Seo DG. Shear bond strength of MDP-containing self-adhesive resin cement and Y-TZP ceramics: effect of phosphate monomer-containing primers. Biomed Res Int 2015;2015:389234.

Sanli S, Comlekoglu MD, Comlekoglu E, Sonugelen M, Pamir T, Darvell BW. Influence of surface treatment on the resin-bonding of zirconia. Dent Mater 2015;31(6): 657-68.

Qeblawi DM, Munoz CA, Brewer JD, Monaco EA, Jr. The effect of zirconia surface treatment on flexural strength and shear bond strength to a resin cement. J Prosthet Dent 2010;103(4):210-20.

Esteves-Oliveira M, Jansen P, Wehner M, Dohrn A, Bello-Silva MS, Eduardo CP, et al. Surface characterization and short-term adhesion to zirconia after ultra-short pulsed laser irradiation. J Adhes Dent 2016;18(6):483-92.

Rona N, Yenisey M, Kucukturk G, Gurun H, Cogun C, Esen Z. Effect of electrical discharge machining on dental Y-TZP ceramic-resin bonding. J Prosthodont Res 2017;61(2):158-67.

Salem R, Naggar GE, Aboushelib M, Selim D. Microtensile bond strength of resin-bonded hightranslucency zirconia using different surface treatments. J Adhes Dent 2016; 18(3):191-6.

Yi YA, Ahn JS, Park YJ, Jun SH, Lee IB, Cho BH, et al. The effect of sandblasting and different primers on shear bond strength between yttria-tetragonal zirconia polycrystal ceramic and a self-adhesive resin cement. Oper Dent 2015;40(1):63-71.

Kern M. Bonding to oxide ceramics—laboratory testing versus clinical outcome. Dent Mater 2015;31(1):8-14.

Souza RO, Valandro LF, Melo RM, Machado JP, Bottino MA, Ozcan M. Air-particle abrasion on zirconia ceramic using different protocols: effects on biaxial flexural strength after cyclic loading, phase transformation and surface topography. J Mech Behav Biomed Mater 2013; 26:155-63.

Ozcan M. Air abrasion of zirconia resin-bonded fixed dental prostheses prior to adhesive cementation: why and how? J Adhes Dent 2013;15(4):394.

Ozcan M, Bernasconi M. Adhesion to zirconia used for dental restorations: a systematic review and meta-analysis. J Adhes Dent 2015;17(1):7-26.

Khan AA, Al Kheraif AA, Jamaluddin S, Elsharawy M, Divakar DD. Recent trends in surface treatment methods for bonding composite cement to zirconia: a reveiw. J Adhes Dent 2017;19(1):7-19.

Van Landuyt KL, Snauwaert J, De Munck J, Peumans M, Yoshida Y, Poitevin A, et al. Systematic review of the chemical composition of contemporary dental adhesives. Biomaterials 2007;28(26):3757-85.

Al-Harbi FA, Ayad NM, Khan ZA, Mahrous AA, Morgano SM. In vitro shear bond strength of Y-TZP ceramics to different core materials with the use of three primer/resin cement systems. J Prosthet Dent 2016; 115(1):84-9.

Derand P, Derand T. Bond strength of luting cements to zirconium oxide ceramics. Int J Prosthodont 2000;13(2):131-5.

Oba Y, Koizumi H, Nakayama D, Ishii T, Akazawa N, Matsumura H. Effect of silane and phosphate primers on the adhesive performance of atri-n-butylborane initiated luting agent bonded to zirconia. Dent Mater J 2014;33(2):226-32.

Yagawa S, Komine F, Fushiki R, Kubochi K, Kimura F, Matsumura H. Effect of priming agents on shear bond strengths of resin-based luting agents to a translucent zirconia material. J Prosthodont Res 2018;62(2):204-9.

Ernst CP, Cohnen U, Stender E, Willershausen B. In vitro retentive strength of zirconium oxide ceramic crowns using different luting agents. J Prosthet Dent 2005;93(6):551-8.

Moon JE, Kim SH, Lee JB, Ha SR, Choi YS. The effect of preparation order on the crystal structure of yttria-stabilized tetragonal zirconia polycrystal and the shear bond strength of dental resin cements. Dent Mater 2011;27(7):651-63.

Chuang SF, Kang LL, Liu YC, Lin JC, Wang CC, Chen HM, et al. Effects of silane-and MDP-based primers application orders on zirconia-resin adhesion-a ToF-SIMS study. Dent Mater 2017;33(8):923-33.

Russo DS, Cinelli F, Sarti C, Giachetti L. Adhesion to zirconia: a systematic review of current conditioning methods and bonding materials. Dent J 2019;7(3):74.

Valente F, Mavriqi L, Traini T. Effects of 10-MDP based primer on shear bond strength between zirconia and new experimental resin cement. Materials 2020;13(1):235.

Angkasith P, Burgess JO, Bottino MC, Lawson NC. Cleaning methods for zirconia following salivary contamination. J Prosthodont 2016;25(5):375-9.

Hallmann L, Ulmer P, Lehmann F, Wille S, Polonskyi O, Johannes M, et al. Effect of surface modifications on the bond strength of zirconia ceramic with resin cement resin. Dent Mater 2016;32(5):631-9.

Bona AD, Pecho OE, Alessandretti R. Zirconia as a dental biomaterial. Materials 2015;8(8):4978–91.

Inokoshi M, De Munck J, Minakuchi S, Van Meerbeek B. Meta-analysis of bonding effectiveness to zirconia ceramics. J Dent Res 2014;93(4):329-34.

Shimoe S, Hirata I, Otaku M, Matsumura H, Kato K, Satoda T. Formation of chemical bonds on zirconia surfaces with acidic functional monomers. J Oral Sci 2018;60(2):187-93.

Zhao L, Jian Y-T, Wang X-D, Zhao K. Bond strength of primer/cement systems to zirconia subjected to artificial aging. J Prosthet Dent 2016;116(5):790-6.