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Original Research

Open Access

Composite resin bond strength to primary dentin prepared with ER, CR:YSSG laser

  • Eric C Sung1,*,
  • Torin Chenard1
  • Angelo A. Caputo1
  • Michael Amodeo2
  • Evelyn M. Chung1
  • Ioana M. Rizoiu3

1Division of Advanced Prosthodontics, Biomaterials, and Hospital Dentistry. University of California at Los Angeles, School of Dentistry, Los Angeles, CA

2University of California at Los Angeles, School of Dentistry, Los Angeles, CA

3Vice President Clinical Research and Development, Biolase Technology, San Clemente, CA

DOI: 10.17796/jcpd.30.1.el385u211tnu2574 Vol.30,Issue 1,January 2006 pp.45-50

Published: 01 January 2006

*Corresponding Author(s): Eric C Sung E-mail: ericsung@ucla.edu

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Abstract

This in vitro study evaluated the shear bond strength of a hybrid composite resin bonded to primary dentin prepared with an Er,Cr:YSGG hydrokinetic laser compared to conventional bur prepared pri-mary dentin. The results suggest that primary dentin surfaces treated with the Er,Cr:YSGG laser, with or without etching, may provide comparable or increased composite resin bond strengths depending upon bonding agent used


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Eric C Sung,Torin Chenard,Angelo A. Caputo,Michael Amodeo,Evelyn M. Chung,Ioana M. Rizoiu. Composite resin bond strength to primary dentin prepared with ER, CR:YSSG laser. Journal of Clinical Pediatric Dentistry. 2006. 30(1);45-50.

URL:

https://www.jocpd.com/articles/10.17796/jcpd.30.1.el385u211tnu2574

References

1. Agostini FG, Kaaden C. Powers JM, Bond strength of self-etch-ing primers to enamel and dentin of primary teeth. Pediatr Dent 23:481–6, 2001.

2. Hadley J, Young DA, Eversole LR, Gornbein JA. A laser-pow-ered hydrokinetic system for caries removal and cavity prepara-tion. J Am Dent Assoc 131:777–85, 2000.

3. Bordin-Aykroyd S, Sefton J, Davies EH. In vitro bond strengths of three current dentin adhesives to primary and permanent teeth. Dent Mater 8:74–8, 1992.

4. Fagan TR, Crall JJ, Jensen ME, Chalkley Y, Clarkson B. A com-parison of two dentin bonding agents in primary and permanent dentition. Pediatr Dent 8:144–146, 1986.

5. Sumikawa DA, Marshall GW, Gee L, Marshall SJ. Microstructure of Primary Tooth Dentin. Pediatr Dent 21:439–44, 1999.

6. Cooper LF, Myers ML, Nelson DG, Mowery AS. Shear bond strength of composite bonded to laser-pre-treated dentin. J. Prosthet Dent 60:45–49, 1988.

7. Lin S, Caputo AA, Eversole LR, Rizoiu I. Topographical charac-teristics and shear bond strength of tooth surfaces cut with a laser-powered hydrokinetic system. J Prosthet Dent 82:451–5, 1999.

8. Keller U, Hibst R. Effects of Er:YAG laser in caries treatment: a clinical pilot study. Lasers Surg Med 20:32–8, 1997.

9. Arcoria CJ, Dusek M, Vitasek-Arcoria B. Pulpal effects of a high rep rate ND:YAG laser. J Clin Laser Med Surg 12:21–5, 1994.

10. Cernavin I. A comparison of the effects of Nd:YAG and Ho:YAG laser irradiation on dentine and enamel. Aust Dent J 40:79–84, 1995.

11. Cox CJ, Pearson GJ, Palmer G. Preliminary in vitro investigation of the effects of pulsed ND:YAG laser radiation on enamel and dentine. Biomaterials 15:1145–51, 1994;

12. Miserendino LJ, Levy GC, Abt E, Rizoiu IM. Histologic effects of a thermal cooled Nd:YAG laser on the dental pulp and sup-porting structures of rabbit teeth. Oral Surg Oral Med Oral Pathol 78:93–100, 1994.

13. Pogrel MA, Muff DF, Marshall GW. Structural changes in dental enamel induced by high energy continuous wave carbon dioxide laser. Lasers Surg Med 13:89–96, 1993.

14. Burkes EJ Jr., Hoke J, Gomes E, Wolbarsht M. Wet versus dry enamel ablation by Er:YAG laser. J Prosthet Dent 67:847–51, 1992.

15. Hibst R, Keller U. Experimental studies of the application of the Er:YAG laser on dental hard substances: I. Measurement of the ablation rate. Lasers Surg Med 9:338–4, 1989.

16. Abt E, Wigdor HA, Walsh J, Brown J. The effect of the CO2, Nd:YAG and Er:YAG lasers on dentin and pulpal tissues in dogs. SPIE Proc 1643:464–74, 1992.

17. Paghdiwala AF,Vaidyanathan TK, Paghdiwala MF. Evaluation of erbium:YAG laser radiation of hard dental tissues: analysis of temperature changes, depth of cuts and structural effects. Scanning Microsc 7:989–97, 1993.

18. Eversole LR, Rizoiu IM. Preliminary investigations on the utili-ty of an erbium, chromium YSGG laser. J Calif Dent Assoc 23:41–7, 1995.

19. Eversole LR, Rizoiu IM, Kimmel AI. Pulpal response to cavity preparation by an erbium, chromium YSGG pulsed laser hydro-kinetic system. J Am Dent Assoc 128:1099–106, 1997.

20. Hossain M, Nakamura Y, Yamada Y, Kimura Y, Matsumoto N, and Matsumoto K. Effects of Er,Cr:YSGG laser irradiation in human enamel and dentin: ablation and morphological studies. J Clin Laser Med Surg. 17:155–9, 1999.

21. Hossain M, Nakamura Y, Yamada Y, Murakami Y, Matsumoto K. Microleakage of composite resin restoration in cavities prepared by Er,Cr:YSGG laser irradiation and etched bur cavities in pri-mary teeth. J Clin Pediatr Dent 26:263–8, 2002.

22. Rizoiu I, Kimmel AI, Eversole LR. The effects of an Er,Cr:YSGG laser on canine oral hard tissues. SPIE Proc 2922:74–83, 1996.

23. Kimmel AI, Rizoiu IM, Eversole LR. Phase Doppler particle analysis of laser energized exploding water droplets. Abstract 67. Int Laser Congress, Athens, Greece, Sept. 1996.

24. Rizoiu I, Deshazer L. New laser-matter interaction concept to enhance hard tissue cutting efficiency. SPIE Proc 2134A:309–17, 1994.

25. Featherstone JD, Barrett-Vespone NA, Fried D, Kantorowitz Z, Lofthouse J, Seka W. Rational choice of CO2 laser conditions for inhibition of caries progression. In: Wigdor HA, Featherstone JD, White JM, eds. SPIE proceedings: Lasers in dentistry. Vol. 2394. Bellingham, Wash.: The International Society for Optical Engineering; 1995:57–67.

26. Featherstone JD, Barrett-Vespone NA, Fried D, Kantorowitz Z, Seka W. CO2 laser inhibition of artificial caries-like lesion pro-gression in dental enamel. J Dent Res 77:1397–40, 1998.

27. Hossain M, Kimura Y, Nakamura Y, Yamada Y, Kinoshita J, and Matsumoto K.A study on acquired acid resistance of enamel and dentin irradiated by Er,Cr:YSGG laser. J Clin Laser Med Surg 19, 159–163, 2001.

28. Hossain M, Nakamura Y, Yamada Y, Suzuki N, Murakami Y, Matsumoto K. Analysis of surface roughnes of enamel and dentin after Er,Cr,YSGG laser irradiation. J Clin Laser Med Surg 19:297–303, 2001.

29. Martinez-Insura A, Da Silva Dominguez L, Rivera FG, Santana-Penin UA. Differences in bonding to acid etched or Er:Yag lased treated enamel and dentin surfaces. J Prosthet Dent 84:280–8, 2000.

30. Olmez A, Oztas N, Basak F, Erdal S. Comparison of the resin-dentin interface in primary and permanent teeth. J Clin Pediatr Dent. 22:293–8, 1998.

31. Selvig KA. Ultrastructural changes in human dentin exposed to weak acid. Arch Oral Biol. 13:719–34, 1968.

32. Matsumoto K, Hossain M, Hossain MM, Kawano H, Kimura Y. Clinical assessment of Er,Cr:YSGG laser application for cavity preparation. J Clin Laser Med Surg. 201:17–21, 2002.

33. Jacobson B, Berger J, Kravitz R, Ko J. Laser Pediatric Class II composites utilizing no anesthesia. J Clin Pediatr Dent 28:99–101, 2004:


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