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Effects of thermal cycles and immersion in different beverages on color, translucency and hardness of different composite resins

Year 2023, , 362 - 370, 21.08.2023
https://doi.org/10.15311/selcukdentj.1082703

Abstract

The aim of this study is to evaluate the color stability, translucency and hardness of eight different composite resins, after thermal cycling and immersion in beverages. Six light-cured dimethacrylate-based composite (Clearfil Majesty Esthetic, Clearfil Majesty Posterior, Grandio, Grandio Flow, Arabesk Top, Valux Plus), an ormocer (Admira) and a silorane-based composite (Filtek Silorane) were tested in this study. Fifteen samples (8x2 mm) from each composite were prepared. All samples were subjected to thermal cycling [(5.0 ± 0.5)~(55.0 ± 1.0) °C, 1000 cycles]. After thermal cycling, fifteen specimens in each group were divided into three subgroups (n = 5): distilled water (control), coffee, and red wine at 37°C for 30 days. With a spectrophotometer, the △E and Translucency Parameter (TP) were calculated against white and black backgrounds. Color, translucency and hardness of all samples were remeasured baseline, after thermal cycles and after immersion in beverages. The data were analyzed using repeated measured analysis of variance and Bonferroni multiple-comparison test (P<0.05). Red wine and coffee caused perceptible discolorations in all composite resin materials (△E>3.3). The effect of thermal cycles on color and transluceny was not statistically significant (P>0.05). TP values generally decreased especially after immersion in red wine (P<0.05). Hardness values were varied among composite resins but generally decreased after thermal cycles and immersion especially in red wine. Thermal cycling and immersion in beverages caused to decrease in hardness values for composite materials. Because of negative effects on color and translucency, it should be noted especially red wine consumption.

References

  • 1. Villarroel, M., et al., Direct Esthetic Restorations Based on Translucency and Opacity of Composite Resins. Journal of Esthetic and Restorative Dentistry, 2011. 23(2): p. 73-87.
  • 2. Obrien, W.J., Double-Layer Effect and Other Optical Phenomena Related to Aesthetics. Dental Clinics of North America, 1985. 29(4): p. 667-&.
  • 3. Poggio, C., et al., Color Stability of New Esthetic Restorative Materials: A Spectrophotometric Analysis. Journal of Functional Biomaterials, 2017. 8(3).
  • 4. Carossa, S., et al., Influence of posts and cores on light transmission through different all-ceramic crowns: Spectrophotometric and clinical evaluation. International Journal of Prosthodontics, 2001. 14(1): p. 9-14.
  • 5. Pissis, P., Fabrication of a metal-free ceramic restoration utilizing the monobloc technique. Pract Periodontics Aesthet Dent, 1995. 7(5): p. 83-94.
  • 6. Palmer, D.S., et al., Wear of human enamel against a commercial castable ceramic restorative material. J Prosthet Dent, 1991. 65(2): p. 192-5.
  • 7. Lazarchik, D.A., et al., Hardness comparison of bulk-filled/transtooth and incremental-filled/occlusally irradiated composite resins. J Prosthet Dent, 2007. 98(2): p. 129-40.
  • 8. Nikzad, S., A. Azari, and M. Poursina, Effects of beverage colorants and accelerated aging on the color stability of indirect resin composites. Journal of Dental Sciences, 2012. 7(3): p. 231-237.
  • 9. Li, Y., et al., Materials Science Effect of Filler Content and Size on Properties of Composites. Journal of Dental Research, 1985. 64(12): p. 1396-1403.
  • 10. Chen, M.-H., Update on Dental Nanocomposites. Journal of Dental Research, 2010. 89(6): p. 549-560.
  • 11. Palaniappan, S., et al., Three-year randomised clinical trial to evaluate the clinical performance, quantitative and qualitative wear patterns of hybrid composite restorations. Clinical Oral Investigations, 2010. 14(4): p. 441-458.
  • 12. de Gouvea, C.V., et al., Surface roughness and translucency of resin composites after immersion in coffee and soft drink. Acta Odontol Latinoam, 2011. 24(1): p. 3-7.
  • 13. Diamantopoulou, S., et al., Change of optical properties of contemporary resin composites after one week and one month water ageing. J Dent, 2013. 41 Suppl 5: p. e62-9.
  • 14. Um, C.M. and I.E. Ruyter, Staining of resin-based veneering materials with coffee and tea. Quintessence Int, 1991. 22(5): p. 377-86.
  • 15. Topcu, F.T., et al., Influence of different drinks on the colour stability of dental resin composites. Eur J Dent, 2009. 3(1): p. 50-6.
  • 16. Villalta, P., et al., Effects of staining and bleaching on color change of dental composite resins. J Prosthet Dent, 2006. 95(2): p. 137-42.
  • 17. Sidhu, S.K., et al., Change of color and translucency by light curing in resin composites. Oper Dent, 2006. 31(5): p. 598-603.
  • 18. Jung, Y.H., et al., Effect of diode-pumped solid state laser on polymerization shrinkage and color change in composite resins. Lasers Med Sci, 2010. 25(3): p. 339-43.
  • 19. Zhang, X., et al., [Effects of ultraviolet aging on color and translucency of composite resin cements]. Hua Xi Kou Qiang Yi Xue Za Zhi, 2009. 27(2): p. 175-7.
  • 20. Turker, S.B. and T. Biskin, Effect of three bleaching agents on the surface properties of three different esthetic restorative materials. J Prosthet Dent, 2003. 89(5): p. 466-73.
  • 21. Avsar, A., E. Yuzbasioglu, and D. Sarac, The Effect of Finishing and Polishing Techniques on the Surface Roughness and the Color of Nanocomposite Resin Restorative Materials. Adv Clin Exp Med, 2015. 24(5): p. 881-90.
  • 22. Sarac, D., et al., The effect of polishing techniques on the surface roughness and color change of composite resins. J Prosthet Dent, 2006. 96(1): p. 33-40.
  • 23. Ergucu, Z., L.S. Turkun, and A. Aladag, Color stability of nanocomposites polished with one-step systems. Oper Dent, 2008. 33(4): p. 413-20.
  • 24. Chrysanthakopoulos, N.A., Reasons for Placement and Replacement of Resin-based Composite Restorations in Greece. J Dent Res Dent Clin Dent Prospects, 2011. 5(3): p. 87-93.
  • 25. Terry, D.A., et al., Anatomical form defines color: function, form, and aesthetics. Pract Proced Aesthet Dent, 2002. 14(1): p. 59-67; quiz 68.
  • 26. Winter, R., Visualizing the natural dentition. J Esthet Dent, 1993. 5(3): p. 102-17.
  • 27. Johnston, W.M., T. Ma, and B.H. Kienle, Translucency parameter of colorants for maxillofacial prostheses. International Journal of Prosthodontics, 1995. 8(1): p. 79-86.
  • 28. Vanini, L. and F.M. Mangani, Determination and communication of color using the five color dimensions of teeth. Pract Proced Aesthet Dent, 2001. 13(1): p. 19-26; quiz 28.
  • 29. Türkün, L.S. and M. Türkün, Effect of bleaching and repolishing procedures on coffee and tea stain removal from three anterior composite veneering materials. J Esthet Restor Dent, 2004. 16(5): p. 290-301; discussion 301-2.
  • 30. Guler, A.U., et al., Effects of different drinks on stainability of resin composite provisional restorative materials. J Prosthet Dent, 2005. 94(2): p. 118-24.
  • 31. Buchalla, W., et al., The effect of water storage and light exposure on the color and translucency of a hybrid and a microfilled composite. The Journal of Prosthetic Dentistry, 2002. 87(3): p. 264-270.
  • 32. Vichi, A., M. Ferrari, and C.L. Davidson, Color and opacity variations in three different resin-based composite products after water aging. Dental Materials, 2004. 20(6): p. 530-534.
  • 33. Lee, Y.K., et al., Color and translucency of A2 shade resin composites after curing, polishing and thermocycling. Operative Dentistry, 2005. 30(4): p. 436-442.
  • 34. Soares-Geraldo, D., et al., Interaction between staining and degradation of a composite resin in contact with colored foods. Brazilian Oral Research, 2011. 25(4): p. 369-375.
  • 35. Barghi, N., T. Berry, and C. Hatton, Evaluating intensity output of curing lights in private dental offices. J Am Dent Assoc, 1994. 125(7): p. 992-6.
  • 36. Correa, M.B., et al., Amalgam or composite resin? Factors influencing the choice of restorative material. J Dent, 2012. 40(9): p. 703-10.
  • 37. Nascimento, G.G., et al., Do clinical experience time and postgraduate training influence the choice of materials for posterior restorations? Results of a survey with Brazilian general dentists. Braz Dent J, 2013. 24(6): p. 642-6.
  • 38. Demarco, F.F., et al., Longevity of posterior composite restorations: Not only a matter of materials. Dental Materials, 2012. 28(1): p. 87-101.
  • 39. Demarco, F.F., et al., Anterior composite restorations: A systematic review on long-term survival and reasons for failure. Dental Materials, 2015. 31(10): p. 1214-1224.
  • 40. Opdam, N.J.M., et al., Longevity of Posterior Composite Restorations: A Systematic Review and Meta-analysis. Journal of Dental Research, 2014. 93(10): p. 943-949.
  • 41. Ruyter, I.E., K. Nilner, and B. Moller, Color stability of dental composite resin materials for crown and bridge veneers. Dent Mater, 1987. 3(5): p. 246-51.
  • 42. Kamheya M, G.B., Guray Efes B, Color stability of bulk-fill composites exposed to different beverages and the effect of whitening dentifrices. Oral Health and Care, 2018. 3(1): p. 1-6.
  • 43. Yu, B. and Y.K. Lee, Comparison of the color stability of flowable and universal resin composites. Am J Dent, 2009. 22(3): p. 160-4.
  • 44. Choi, M.S., et al., Changes in color and translucency of porcelain-repairing resin composites after thermocycling. J Biomed Mater Res B Appl Biomater, 2006. 78(1): p. 1-6.
  • 45. Arikawa, H., et al., Light transmittance characteristics of light-cured composite resins. Dental Materials, 1998. 14(6): p. 405-411.
  • 46. Kelly, J.R. and P. Benetti, Ceramic materials in dentistry: historical evolution and current practice. Aust Dent J, 2011. 56 Suppl 1: p. 84-96.
  • 47. Yu, B., J.-S. Ahn, and Y.-K. Lee, Measurement of translucency of tooth enamel and dentin. Acta Odontologica Scandinavica, 2009. 67(1): p. 57-64.
  • 48. Turgut, S., et al., Effect of ultraviolet aging on translucency of resin-cemented ceramic veneers: an in vitro study. J Prosthodont, 2014. 23(1): p. 39-44.
  • 49. Perez, M.M., et al., Color and translucency in silorane-based resin composite compared to universal and nanofilled composites. J Dent, 2010. 38 Suppl 2: p. e110-6.
  • 50. Moszner N, K.S., Nanotechnology for dental composites. International Journal of Nanotechnology, 2004. 1(1-2): p. 130-156.
  • 51. Mitra, S.B., D. Wu, and B.N. Holmes, An application of nanotechnology in advanced dental materials. The Journal of the American Dental Association, 2003. 134(10): p. 1382-1390.

Effects of thermal cycles and immersion in different beverages on color, translucency and hardness of different composite resins

Year 2023, , 362 - 370, 21.08.2023
https://doi.org/10.15311/selcukdentj.1082703

Abstract

The aim of this study is to evaluate the color stability, translucency and hardness of eight different composite resins, after thermal cycling and immersion in beverages. Six light-cured dimethacrylate-based composite (Clearfil Majesty Esthetic, Clearfil Majesty Posterior, Grandio, Grandio Flow, Arabesk Top, Valux Plus), an ormocer (Admira) and a silorane-based composite (Filtek Silorane) were tested in this study. Fifteen samples (8x2 mm) from each composite were prepared. All samples were subjected to thermal cycling [(5.0 ± 0.5)~(55.0 ± 1.0) °C, 1000 cycles]. After thermal cycling, fifteen specimens in each group were divided into three subgroups (n = 5): distilled water (control), coffee, and red wine at 37°C for 30 days. With a spectrophotometer, the △E and Translucency Parameter (TP) were calculated against white and black backgrounds. Color, translucency and hardness of all samples were remeasured baseline, after thermal cycles and after immersion in beverages. The data were analyzed using repeated measured analysis of variance and Bonferroni multiple-comparison test (P<0.05). Red wine and coffee caused perceptible discolorations in all composite resin materials (△E>3.3). The effect of thermal cycles on color and transluceny was not statistically significant (P>0.05). TP values generally decreased especially after immersion in red wine (P<0.05). Hardness values were varied among composite resins but generally decreased after thermal cycles and immersion especially in red wine. Thermal cycling and immersion in beverages caused to decrease in hardness values for composite materials. Because of negative effects on color and translucency, it should be noted especially red wine consumption.

References

  • 1. Villarroel, M., et al., Direct Esthetic Restorations Based on Translucency and Opacity of Composite Resins. Journal of Esthetic and Restorative Dentistry, 2011. 23(2): p. 73-87.
  • 2. Obrien, W.J., Double-Layer Effect and Other Optical Phenomena Related to Aesthetics. Dental Clinics of North America, 1985. 29(4): p. 667-&.
  • 3. Poggio, C., et al., Color Stability of New Esthetic Restorative Materials: A Spectrophotometric Analysis. Journal of Functional Biomaterials, 2017. 8(3).
  • 4. Carossa, S., et al., Influence of posts and cores on light transmission through different all-ceramic crowns: Spectrophotometric and clinical evaluation. International Journal of Prosthodontics, 2001. 14(1): p. 9-14.
  • 5. Pissis, P., Fabrication of a metal-free ceramic restoration utilizing the monobloc technique. Pract Periodontics Aesthet Dent, 1995. 7(5): p. 83-94.
  • 6. Palmer, D.S., et al., Wear of human enamel against a commercial castable ceramic restorative material. J Prosthet Dent, 1991. 65(2): p. 192-5.
  • 7. Lazarchik, D.A., et al., Hardness comparison of bulk-filled/transtooth and incremental-filled/occlusally irradiated composite resins. J Prosthet Dent, 2007. 98(2): p. 129-40.
  • 8. Nikzad, S., A. Azari, and M. Poursina, Effects of beverage colorants and accelerated aging on the color stability of indirect resin composites. Journal of Dental Sciences, 2012. 7(3): p. 231-237.
  • 9. Li, Y., et al., Materials Science Effect of Filler Content and Size on Properties of Composites. Journal of Dental Research, 1985. 64(12): p. 1396-1403.
  • 10. Chen, M.-H., Update on Dental Nanocomposites. Journal of Dental Research, 2010. 89(6): p. 549-560.
  • 11. Palaniappan, S., et al., Three-year randomised clinical trial to evaluate the clinical performance, quantitative and qualitative wear patterns of hybrid composite restorations. Clinical Oral Investigations, 2010. 14(4): p. 441-458.
  • 12. de Gouvea, C.V., et al., Surface roughness and translucency of resin composites after immersion in coffee and soft drink. Acta Odontol Latinoam, 2011. 24(1): p. 3-7.
  • 13. Diamantopoulou, S., et al., Change of optical properties of contemporary resin composites after one week and one month water ageing. J Dent, 2013. 41 Suppl 5: p. e62-9.
  • 14. Um, C.M. and I.E. Ruyter, Staining of resin-based veneering materials with coffee and tea. Quintessence Int, 1991. 22(5): p. 377-86.
  • 15. Topcu, F.T., et al., Influence of different drinks on the colour stability of dental resin composites. Eur J Dent, 2009. 3(1): p. 50-6.
  • 16. Villalta, P., et al., Effects of staining and bleaching on color change of dental composite resins. J Prosthet Dent, 2006. 95(2): p. 137-42.
  • 17. Sidhu, S.K., et al., Change of color and translucency by light curing in resin composites. Oper Dent, 2006. 31(5): p. 598-603.
  • 18. Jung, Y.H., et al., Effect of diode-pumped solid state laser on polymerization shrinkage and color change in composite resins. Lasers Med Sci, 2010. 25(3): p. 339-43.
  • 19. Zhang, X., et al., [Effects of ultraviolet aging on color and translucency of composite resin cements]. Hua Xi Kou Qiang Yi Xue Za Zhi, 2009. 27(2): p. 175-7.
  • 20. Turker, S.B. and T. Biskin, Effect of three bleaching agents on the surface properties of three different esthetic restorative materials. J Prosthet Dent, 2003. 89(5): p. 466-73.
  • 21. Avsar, A., E. Yuzbasioglu, and D. Sarac, The Effect of Finishing and Polishing Techniques on the Surface Roughness and the Color of Nanocomposite Resin Restorative Materials. Adv Clin Exp Med, 2015. 24(5): p. 881-90.
  • 22. Sarac, D., et al., The effect of polishing techniques on the surface roughness and color change of composite resins. J Prosthet Dent, 2006. 96(1): p. 33-40.
  • 23. Ergucu, Z., L.S. Turkun, and A. Aladag, Color stability of nanocomposites polished with one-step systems. Oper Dent, 2008. 33(4): p. 413-20.
  • 24. Chrysanthakopoulos, N.A., Reasons for Placement and Replacement of Resin-based Composite Restorations in Greece. J Dent Res Dent Clin Dent Prospects, 2011. 5(3): p. 87-93.
  • 25. Terry, D.A., et al., Anatomical form defines color: function, form, and aesthetics. Pract Proced Aesthet Dent, 2002. 14(1): p. 59-67; quiz 68.
  • 26. Winter, R., Visualizing the natural dentition. J Esthet Dent, 1993. 5(3): p. 102-17.
  • 27. Johnston, W.M., T. Ma, and B.H. Kienle, Translucency parameter of colorants for maxillofacial prostheses. International Journal of Prosthodontics, 1995. 8(1): p. 79-86.
  • 28. Vanini, L. and F.M. Mangani, Determination and communication of color using the five color dimensions of teeth. Pract Proced Aesthet Dent, 2001. 13(1): p. 19-26; quiz 28.
  • 29. Türkün, L.S. and M. Türkün, Effect of bleaching and repolishing procedures on coffee and tea stain removal from three anterior composite veneering materials. J Esthet Restor Dent, 2004. 16(5): p. 290-301; discussion 301-2.
  • 30. Guler, A.U., et al., Effects of different drinks on stainability of resin composite provisional restorative materials. J Prosthet Dent, 2005. 94(2): p. 118-24.
  • 31. Buchalla, W., et al., The effect of water storage and light exposure on the color and translucency of a hybrid and a microfilled composite. The Journal of Prosthetic Dentistry, 2002. 87(3): p. 264-270.
  • 32. Vichi, A., M. Ferrari, and C.L. Davidson, Color and opacity variations in three different resin-based composite products after water aging. Dental Materials, 2004. 20(6): p. 530-534.
  • 33. Lee, Y.K., et al., Color and translucency of A2 shade resin composites after curing, polishing and thermocycling. Operative Dentistry, 2005. 30(4): p. 436-442.
  • 34. Soares-Geraldo, D., et al., Interaction between staining and degradation of a composite resin in contact with colored foods. Brazilian Oral Research, 2011. 25(4): p. 369-375.
  • 35. Barghi, N., T. Berry, and C. Hatton, Evaluating intensity output of curing lights in private dental offices. J Am Dent Assoc, 1994. 125(7): p. 992-6.
  • 36. Correa, M.B., et al., Amalgam or composite resin? Factors influencing the choice of restorative material. J Dent, 2012. 40(9): p. 703-10.
  • 37. Nascimento, G.G., et al., Do clinical experience time and postgraduate training influence the choice of materials for posterior restorations? Results of a survey with Brazilian general dentists. Braz Dent J, 2013. 24(6): p. 642-6.
  • 38. Demarco, F.F., et al., Longevity of posterior composite restorations: Not only a matter of materials. Dental Materials, 2012. 28(1): p. 87-101.
  • 39. Demarco, F.F., et al., Anterior composite restorations: A systematic review on long-term survival and reasons for failure. Dental Materials, 2015. 31(10): p. 1214-1224.
  • 40. Opdam, N.J.M., et al., Longevity of Posterior Composite Restorations: A Systematic Review and Meta-analysis. Journal of Dental Research, 2014. 93(10): p. 943-949.
  • 41. Ruyter, I.E., K. Nilner, and B. Moller, Color stability of dental composite resin materials for crown and bridge veneers. Dent Mater, 1987. 3(5): p. 246-51.
  • 42. Kamheya M, G.B., Guray Efes B, Color stability of bulk-fill composites exposed to different beverages and the effect of whitening dentifrices. Oral Health and Care, 2018. 3(1): p. 1-6.
  • 43. Yu, B. and Y.K. Lee, Comparison of the color stability of flowable and universal resin composites. Am J Dent, 2009. 22(3): p. 160-4.
  • 44. Choi, M.S., et al., Changes in color and translucency of porcelain-repairing resin composites after thermocycling. J Biomed Mater Res B Appl Biomater, 2006. 78(1): p. 1-6.
  • 45. Arikawa, H., et al., Light transmittance characteristics of light-cured composite resins. Dental Materials, 1998. 14(6): p. 405-411.
  • 46. Kelly, J.R. and P. Benetti, Ceramic materials in dentistry: historical evolution and current practice. Aust Dent J, 2011. 56 Suppl 1: p. 84-96.
  • 47. Yu, B., J.-S. Ahn, and Y.-K. Lee, Measurement of translucency of tooth enamel and dentin. Acta Odontologica Scandinavica, 2009. 67(1): p. 57-64.
  • 48. Turgut, S., et al., Effect of ultraviolet aging on translucency of resin-cemented ceramic veneers: an in vitro study. J Prosthodont, 2014. 23(1): p. 39-44.
  • 49. Perez, M.M., et al., Color and translucency in silorane-based resin composite compared to universal and nanofilled composites. J Dent, 2010. 38 Suppl 2: p. e110-6.
  • 50. Moszner N, K.S., Nanotechnology for dental composites. International Journal of Nanotechnology, 2004. 1(1-2): p. 130-156.
  • 51. Mitra, S.B., D. Wu, and B.N. Holmes, An application of nanotechnology in advanced dental materials. The Journal of the American Dental Association, 2003. 134(10): p. 1382-1390.
There are 51 citations in total.

Details

Primary Language English
Subjects Dentistry
Journal Section Research
Authors

Pınar Gül 0000-0003-3714-4991

Ömer Sağsöz 0000-0002-6506-537X

Publication Date August 21, 2023
Submission Date March 4, 2022
Published in Issue Year 2023

Cite

Vancouver Gül P, Sağsöz Ö. Effects of thermal cycles and immersion in different beverages on color, translucency and hardness of different composite resins. Selcuk Dent J. 2023;10(2):362-70.