Year 2019,
Volume: 9 Issue: 4, 304 - 309, 31.12.2019
Esra Özyurt
,
Aysegul Kurt
,
Handan Yıldırım
References
- 1. Lindberg A, Peutzfeldt A,van Dijken JW: Effect of power density of curing unit, exposure duration, and light guide distance on composite depth of cure. Clin Oral Investig 2005; 9:71-76
- 2. Pianelli C, Devaux J, Bebelman S, et al: The micro‐Raman spectroscopy, a useful tool to determine the degree of conversion of light‐activated composite resins. Journal of Biomedical Materials Research: An Official Journal of The Society for Biomaterials, The Japanese Society for Biomaterials, and The Australian Society for Biomaterials and the Korean Society for Biomaterials 1999; 48:675-681
- 3. Caughman WF, Caughman GB, Shiflett RA, et al: Correlation of cytotoxicity, filler loading and curing time of dental composites. Biomaterials 1991; 12:737-740
- 4. Ferracane JL, Mitchem JC, Condon JR, et al: Wear and marginal breakdown of composites with various degrees of cure. J Dent Res 1997; 76:1508-1516
- 5. Kovarik R,Ergle J: Fracture toughness of posterior composite resins fabricated by incremental layering. The Journal of prosthetic dentistry 1993; 69:557-560
- 6. Knežević A, Tarle Z, Meniga A, et al: Degree of conversion and temperature rise during polymerization of composite resin samples with blue diodes. Journal of Oral Rehabilitation 2001; 28:586-591
- 7. Son SA, Park JK, Seo DG, et al: How light attenuation and filler content affect the microhardness and polymerization shrinkage and translucency of bulk-fill composites? Clin Oral Investig 2017; 21:559-565
- 8. Kramer N, Lohbauer U, García-Godoy F, et al: Light curing of resin-based composites in the LED era. American Journal of Dentistry 2008; 21:135
- 9. Martin F: A survey of the efficiency of visible light curing units. Journal of dentistry 1998; 26:239-243
- 10. Abbas G, Fleming GJP, Harrington E, et al: Cuspal movement and microleakage in premolar teeth restored with a packable composite cured in bulk or in increments. Journal of Dentistry 2003; 31:437-444
- 11. Howard B, Wilson ND, Newman SM, et al: Relationships between conversion, temperature and optical properties during composite photopolymerization. Acta Biomater 2010; 6:2053-2059
- 12. Bucuta S,Ilie N: Light transmittance and micro-mechanical properties of bulk fill vs. conventional resin based composites. Clin Oral Investig 2014; 18:1991-2000
- 13. Czasch P,Ilie N: In vitro comparison of mechanical properties and degree of cure of bulk fill composites. Clin Oral Investig 2013; 17:227-235
- 14. Garoushi S, Vallittu P, Shinya A, et al: Influence of increment thickness on light transmission, degree of conversion and micro hardness of bulk fill composites. Odontology 2016; 104:291-297
- 15. Schattenberg A, Lichtenberg D, Stender E, et al: Minimal exposure time of different LED-curing devices. Dent Mater 2008; 24:1043-1049
- 16. Tsai P: Depth of cure and surface microhardness of composite resin cured with blue LED curing lights. Dental Materials 2004; 20:364-369
- 17. Campodonico CE, Tantbirojn D, Olin PS, et al: Cuspal deflection and depth of cure in resin-based composite restorations filled by using bulk, incremental and transtooth-illumination techniques. The Journal of the American Dental Association 2011; 142:1176-1182
- 18. Bouschlicher M, Rueggeberg F,Wilson B: Correlation of bottom-to-top surface microhardness and conversion ratios for a variety of resin composite compositions. Oper Dent 2004; 29:698-704
- 19. Garcia D, Yaman P, Dennison J, et al: Polymerization shrinkage and depth of cure of bulk fill flowable composite resins. Oper Dent 2014; 39:441-448
- 20. Herrero AA, Yaman P,Dennison JB: Polymerization shrinkage and depth of cure of packable composites. Quintessence International 2005; 36:449
- 21. Flury S, Hayoz S, Peutzfeldt A, et al: Depth of cure of resin composites: is the ISO 4049 method suitable for bulk fill materials? Dent Mater 2012; 28:521-528
- 22. Rueggeberg FA, Ergle JW,Mettenburg DJ: Polymerization depths of contemporary light‐curing units using microhardness. Journal of Esthetic and Restorative Dentistry 2000; 12:340-349
- 23. Alrahlah A, Silikas N,Watts DC: Post-cure depth of cure of bulk fill dental resin-composites. Dent Mater 2014; 30:149-154
- 24. Arikawa H, Kanie T, Fujii K, et al: Effect of inhomogeneity of light from light curing units on the surface hardness of composite resin. Dental materials journal 2008; 27:21-28
- 25. Tarle Z, Attin T, Marovic D, et al: Influence of irradiation time on subsurface degree of conversion and microhardness of high-viscosity bulk-fill resin composites. Clin Oral Investig 2015; 19:831-840
- 26. Skrtic D,Antonucci JM: Effect of chemical structure and composition of the resin phase on vinyl conversion of amorphous calcium phosphate‐filled composites. Polymer international 2007; 56:497-505
- 27. Stansbury JW: Dimethacrylate network formation and polymer property evolution as determined by the selection of monomers and curing conditions. Dental Materials 2012; 28:13-22
- 28. CARDOSO KAORd, Zarpellon DC, MADRUGA CFL, et al: Effects of radiant exposure values using second and third generation light curing units on the degree of conversion of a lucirin-based resin composite. Journal of Applied Oral Science 2017; 25:140-146
- 29. Shimokawa C, Sullivan B, Turbino M, et al: Influence of emission spectrum and irradiance on light curing of resin-based composites. Operative dentistry 2017; 42:537-547
- 30. Harlow J, Rueggeberg F, Labrie D, et al: Transmission of violet and blue light through conventional (layered) and bulk cured resin-based composites. Journal of dentistry 2016; 53:44-50
- 31. Shimokawa CAK, Turbino ML, Giannini M, et al: Effect of light curing units on the polymerization of bulk fill resin-based composites. Dent Mater 2018; 34:1211-1221
- 32. Neumann MG, Miranda Jr WG, Schmitt CC, et al: Molar extinction coefficients and the photon absorption efficiency of dental photoinitiators and light curing units. Journal of dentistry 2005; 33:525-532
- 33. Ilie N,Hickel R: Can CQ be completely replaced by alternative initiators in dental adhesives? Dental Materials Journal 2008; 27:221-228
- 34. Rueggeberg FA,Swift Jr EJ: Exposure times for contemporary composites. Journal of Esthetic and Restorative Dentistry 2013; 25:82-84
- 35. Uhl A, Sigusch BW,Jandt KD: Second generation LEDs for the polymerization of oral biomaterials. Dental Materials 2004; 20:80-87
- 36. Jang JH, Park SH,Hwang IN: Polymerization shrinkage and depth of cure of bulk-fill resin composites and highly filled flowable resin. Oper Dent 2015; 40:172-180
- 37. Karacolak G, Turkun LS, Boyacioglu H, et al: Influence of increment thickness on radiant energy and microhardness of bulk-fill resin composites. Dent Mater J 2018; 37:206-213
- 38. Kim EH, Jung KH, Son SA, et al: Effect of resin thickness on the microhardness and optical properties of bulk-fill resin composites. Restor Dent Endod 2015; 40:128-135
- 39. Marais J, Dannheimer M, Germishuys P, et al: Depth of cure of light-cured composite resin with light-curing units of different intensity. The Journal of the Dental Association of South Africa= Die Tydskrif van die Tandheelkundige Vereniging van Suid-Afrika 1997; 52:403-407
- 40. Feilzer A, Dooren L, De Gee A, et al: Influence of light intensity on polymerization shrinkage and integrity of restoration‐cavity interface. European Journal of Oral Sciences 1995; 103:322-326
Evaluation of the Polymerization Depth of Bulk Fill Resin Composites Polymerized by Different Procedures: An In-Vitro Study
Year 2019,
Volume: 9 Issue: 4, 304 - 309, 31.12.2019
Esra Özyurt
,
Aysegul Kurt
,
Handan Yıldırım
Abstract
Objective: The aim of this study is to investigate the depth of cure (DOC) of the bulk fill composite samples prepared in different thicknesses with two different modes of light curing device with Vickers hardness tester.
Methods: Five different bulk-fill composite materials were used in the present study. 20 sample of 2 mm and 20 sample of 4 mm thick samples were prepared, 10 samples from each group were polymerized for 20 seconds with the standard mode (Mode 1) of the light curing device and 10 samples polymerized with soft-start mode (Mode 2) for 25 seconds (n=10). Hardness measurements were made from the upper and lower surfaces of each sample and the hardness ratio was calculated. The statistical analysis was performed using three-way analysis of variance (ANOVA) and Tukey multiple comparisons (p = 0.05).
Results: The hardness ratios of all composites were determined to be over 80%, which is clinically acceptable. There was a statistically significant difference between the DOC levels according to the composites (p <0.05). There was a statistically significant difference according to the thickness (p <0.05). There was no statistically significant difference according to polymerization procedures (p >0.05).
Conclusions: The surface hardness ratios of all groups were determined to be over 80%, which is clinically acceptable. The polymerization with soft start technique may not different from the standard-mode for polymerization depth.
References
- 1. Lindberg A, Peutzfeldt A,van Dijken JW: Effect of power density of curing unit, exposure duration, and light guide distance on composite depth of cure. Clin Oral Investig 2005; 9:71-76
- 2. Pianelli C, Devaux J, Bebelman S, et al: The micro‐Raman spectroscopy, a useful tool to determine the degree of conversion of light‐activated composite resins. Journal of Biomedical Materials Research: An Official Journal of The Society for Biomaterials, The Japanese Society for Biomaterials, and The Australian Society for Biomaterials and the Korean Society for Biomaterials 1999; 48:675-681
- 3. Caughman WF, Caughman GB, Shiflett RA, et al: Correlation of cytotoxicity, filler loading and curing time of dental composites. Biomaterials 1991; 12:737-740
- 4. Ferracane JL, Mitchem JC, Condon JR, et al: Wear and marginal breakdown of composites with various degrees of cure. J Dent Res 1997; 76:1508-1516
- 5. Kovarik R,Ergle J: Fracture toughness of posterior composite resins fabricated by incremental layering. The Journal of prosthetic dentistry 1993; 69:557-560
- 6. Knežević A, Tarle Z, Meniga A, et al: Degree of conversion and temperature rise during polymerization of composite resin samples with blue diodes. Journal of Oral Rehabilitation 2001; 28:586-591
- 7. Son SA, Park JK, Seo DG, et al: How light attenuation and filler content affect the microhardness and polymerization shrinkage and translucency of bulk-fill composites? Clin Oral Investig 2017; 21:559-565
- 8. Kramer N, Lohbauer U, García-Godoy F, et al: Light curing of resin-based composites in the LED era. American Journal of Dentistry 2008; 21:135
- 9. Martin F: A survey of the efficiency of visible light curing units. Journal of dentistry 1998; 26:239-243
- 10. Abbas G, Fleming GJP, Harrington E, et al: Cuspal movement and microleakage in premolar teeth restored with a packable composite cured in bulk or in increments. Journal of Dentistry 2003; 31:437-444
- 11. Howard B, Wilson ND, Newman SM, et al: Relationships between conversion, temperature and optical properties during composite photopolymerization. Acta Biomater 2010; 6:2053-2059
- 12. Bucuta S,Ilie N: Light transmittance and micro-mechanical properties of bulk fill vs. conventional resin based composites. Clin Oral Investig 2014; 18:1991-2000
- 13. Czasch P,Ilie N: In vitro comparison of mechanical properties and degree of cure of bulk fill composites. Clin Oral Investig 2013; 17:227-235
- 14. Garoushi S, Vallittu P, Shinya A, et al: Influence of increment thickness on light transmission, degree of conversion and micro hardness of bulk fill composites. Odontology 2016; 104:291-297
- 15. Schattenberg A, Lichtenberg D, Stender E, et al: Minimal exposure time of different LED-curing devices. Dent Mater 2008; 24:1043-1049
- 16. Tsai P: Depth of cure and surface microhardness of composite resin cured with blue LED curing lights. Dental Materials 2004; 20:364-369
- 17. Campodonico CE, Tantbirojn D, Olin PS, et al: Cuspal deflection and depth of cure in resin-based composite restorations filled by using bulk, incremental and transtooth-illumination techniques. The Journal of the American Dental Association 2011; 142:1176-1182
- 18. Bouschlicher M, Rueggeberg F,Wilson B: Correlation of bottom-to-top surface microhardness and conversion ratios for a variety of resin composite compositions. Oper Dent 2004; 29:698-704
- 19. Garcia D, Yaman P, Dennison J, et al: Polymerization shrinkage and depth of cure of bulk fill flowable composite resins. Oper Dent 2014; 39:441-448
- 20. Herrero AA, Yaman P,Dennison JB: Polymerization shrinkage and depth of cure of packable composites. Quintessence International 2005; 36:449
- 21. Flury S, Hayoz S, Peutzfeldt A, et al: Depth of cure of resin composites: is the ISO 4049 method suitable for bulk fill materials? Dent Mater 2012; 28:521-528
- 22. Rueggeberg FA, Ergle JW,Mettenburg DJ: Polymerization depths of contemporary light‐curing units using microhardness. Journal of Esthetic and Restorative Dentistry 2000; 12:340-349
- 23. Alrahlah A, Silikas N,Watts DC: Post-cure depth of cure of bulk fill dental resin-composites. Dent Mater 2014; 30:149-154
- 24. Arikawa H, Kanie T, Fujii K, et al: Effect of inhomogeneity of light from light curing units on the surface hardness of composite resin. Dental materials journal 2008; 27:21-28
- 25. Tarle Z, Attin T, Marovic D, et al: Influence of irradiation time on subsurface degree of conversion and microhardness of high-viscosity bulk-fill resin composites. Clin Oral Investig 2015; 19:831-840
- 26. Skrtic D,Antonucci JM: Effect of chemical structure and composition of the resin phase on vinyl conversion of amorphous calcium phosphate‐filled composites. Polymer international 2007; 56:497-505
- 27. Stansbury JW: Dimethacrylate network formation and polymer property evolution as determined by the selection of monomers and curing conditions. Dental Materials 2012; 28:13-22
- 28. CARDOSO KAORd, Zarpellon DC, MADRUGA CFL, et al: Effects of radiant exposure values using second and third generation light curing units on the degree of conversion of a lucirin-based resin composite. Journal of Applied Oral Science 2017; 25:140-146
- 29. Shimokawa C, Sullivan B, Turbino M, et al: Influence of emission spectrum and irradiance on light curing of resin-based composites. Operative dentistry 2017; 42:537-547
- 30. Harlow J, Rueggeberg F, Labrie D, et al: Transmission of violet and blue light through conventional (layered) and bulk cured resin-based composites. Journal of dentistry 2016; 53:44-50
- 31. Shimokawa CAK, Turbino ML, Giannini M, et al: Effect of light curing units on the polymerization of bulk fill resin-based composites. Dent Mater 2018; 34:1211-1221
- 32. Neumann MG, Miranda Jr WG, Schmitt CC, et al: Molar extinction coefficients and the photon absorption efficiency of dental photoinitiators and light curing units. Journal of dentistry 2005; 33:525-532
- 33. Ilie N,Hickel R: Can CQ be completely replaced by alternative initiators in dental adhesives? Dental Materials Journal 2008; 27:221-228
- 34. Rueggeberg FA,Swift Jr EJ: Exposure times for contemporary composites. Journal of Esthetic and Restorative Dentistry 2013; 25:82-84
- 35. Uhl A, Sigusch BW,Jandt KD: Second generation LEDs for the polymerization of oral biomaterials. Dental Materials 2004; 20:80-87
- 36. Jang JH, Park SH,Hwang IN: Polymerization shrinkage and depth of cure of bulk-fill resin composites and highly filled flowable resin. Oper Dent 2015; 40:172-180
- 37. Karacolak G, Turkun LS, Boyacioglu H, et al: Influence of increment thickness on radiant energy and microhardness of bulk-fill resin composites. Dent Mater J 2018; 37:206-213
- 38. Kim EH, Jung KH, Son SA, et al: Effect of resin thickness on the microhardness and optical properties of bulk-fill resin composites. Restor Dent Endod 2015; 40:128-135
- 39. Marais J, Dannheimer M, Germishuys P, et al: Depth of cure of light-cured composite resin with light-curing units of different intensity. The Journal of the Dental Association of South Africa= Die Tydskrif van die Tandheelkundige Vereniging van Suid-Afrika 1997; 52:403-407
- 40. Feilzer A, Dooren L, De Gee A, et al: Influence of light intensity on polymerization shrinkage and integrity of restoration‐cavity interface. European Journal of Oral Sciences 1995; 103:322-326