You are here

Lazerle aktive edilen beyazlatma sonrası uygulanan farklı restoratif materyallerin makaslama bağlanma dayanımı kuvvetlerinin değerlendirilmesi

Evaluation of shear bond strength values of various restorative materials applied after diode laser activated bleaching

Journal Name:

Publication Year:

Keywords (Original Language):

Abstract (2. Language): 
The aim of this study was to evaluate enamel bond strength of various restorative systems containing silorane or dimethacrylate-based composite resins and self-etch and total-etch adhesives after hydrogen peroxide bleaching, activated by a diode laser. For this purpose a 38% hydrogen peroxide gel was applied onto sound flattened labial enamel surfaces and activated by diode laser. Restorative systems were applied onto power bleached enamel surfaces after a waiting period of three weeks, and shear bond adhesion test was performed. Statistical analysis showed significant influence of the variable, different restorative systems on shear bond strength to enamel. The data suggest that application of different restorative systems may provide various shear bond strengths to enamel after power bleaching. Further studies examining the structural changes of activated hydrogen peroxide treated enamel are needed. Application of silorane and dimethacrylate-based composite restorative systems containing two-step self-etch or one-step total-etch adhesives may be more convenient rather than the application of dimethacrylate-based composite restorative systems containing all-in-one self-etch adhesives after power bleaching.
Abstract (Original Language): 
Bu çalışmanın amacı diyot lazerle aktive edilmiş hidrojen peroksid içerikli beyazlatma uygulamasını takiben siloran ve dimetakrilat bazlı kompozit rezin ve “self-etch”, “total-etch” adezivleri içeren farklı restoratif materyallerin mineye makaslama bağlanma dayanımı kuvvetlerinin değerlendirilmesidir. Bu amaçla çekilmiş dişlerin düzleştirilmiş labiyal mine yüzeylerine %38 hidrojen peroksid içeren jel uygulanmış ve diyot lazer ile aktive edilmiştir. Restoratif materyaller, beyazlatma işleminden sonra üç haftalık bekleme süresini takiben mine yüzeylerine uygulanmış ve makaslama bağlanma dayanımı testi gerçekleştirilmiştir. Yapılan istatistiksel incelemeler, beyazlatma sonrası uygulanan restoratif sistemlerin makaslama bağlanma dayanımı değerlerinde anlamlı farklılıklar olduğunu göstermiştir. Aktive edilmiş hidrojen peroksid uygulanan mine yüzeylerindeki yapısal değişikliklerin ileri çalışmalarla incelenmesi yararlı olacaktır. Beyazlatma işlemleri sonrasında siloran ve dimetakrilat bazlı kompozit restoratif sistemlerin tek basamaklı “total-etch” ve iki basamaklı “self-etch” adezivleriyle birlikte kullanılmasının, dimetakrilat bazlı kompozit rezin ve tek basamaklı (“all-in-one”) “self-etch” adeziv kombinasyonuna göre daha uygun olacağı düşünülmüştür.



1. Buchalla W, Attin T. External bleaching therapy with
activation by heat, light or laser-a systematic review.
Dent Mater 2007; 23: 586-596.
2. Wetter NU, Barroso MC, Pelino JE. Dental bleaching
efficacy with diode laser and LED irradiation: an in
vitro study. Lasers Surg Med 2004; 35: 254-258.Cilt 52 • Sayı 3 Beyazlatma ve uygun restoratif sistem • 179
3. Zhang C, Wang X, Kinoshita J, et al. Effects of KTP laser
irradiation, diode laser, and LED on tooth bleaching:
a comparative study. Photomed Laser Surg 2007; 25:
4. Wetter NU, Walverde D, Kato IT, Eduardo C de P.
Bleaching efficacy of whitening agents activated by
xenon lamp and 960-nm diode radiation. Photomed
Laser Surg 2004; 22: 489-493.
5. Wetter NU, Branco EP, Deana AM, Pelino JE. Color
differences of canines and incisors in a comparative
long-term clinical trial of three bleaching systems.
Lasers Med Sci 2009; 24: 941-947.
6. Dostalova T, Jelinkova H, Housova D, et al. Diode laseractivated bleaching. Braz Dent J 2004; (Spec Issue 15):
7. Patel A, Louca C, Millar BJ. An in vitro comparison of
tooth whitening techniques on natural tooth colour. Br
Dent J 2008; 204: 516-517.
8. Sulieman M, Rees JS, Addy M. Surface and pulp chamber
temperature rises during tooth bleaching using a diode
laser: a study in vitro. Br Dent J 2006; 200: 631-634.
9. Lin CH, Chou TM, Chen JH, et al. Evaluation of the
effect of laser tooth whitening. Int J Prosthodont 2008;
21: 415-418.
10. Gurgan S, Alpaslan T, Kiremitci A, Cakir FY, Yazici E,
Gorucu J. Effect of different adhesive systems and laser
treatment on the shear bond strength of bleached
enamel. J Dent 2009; 37: 527-534.
11. Montalvan E, Vaidyanathan TK, Shey Z, Janal MN,
Caceda JH. The shear bond strength of acetone and
ethanol-based bonding agents to bleached teeth.
Pediatr Dent 2006; 28: 531-536.
12. Unlu N, Cobankara FK, Ozer F. Effect of elapsed time
following bleaching on the shear bond strength of
composite resin to enamel. J Biomed Mater Res B Appl
Biomater 2008; 84: 363-368.
13. Cavalli V, Reis AF, Giannini M, Ambrosano GM. The
effect of elapsed time following bleaching on enamel
bond strength of resin composite. Oper Dent 2001; 26:
14. Barbosa CM, Sasaki RT, Florio FM, Basting RT. Influence
of time on bond strength after bleaching with 35%
hydrogen peroxide. J Contemp Dent Prac 2008; 9:
15. Swift EJ Jr. Critical appraisal: effects of bleaching
on tooth structure and restorations, part II: enamel
bonding. J Esthet Restor Dent 2008; 20: 68-73.
16. Da Silva Machado J, Cândido MS, Sundfeld RH, De
Alexandre RS, Cardoso JD, Sundefeld ML. The influence
of time interval between bleaching and enamel
bonding. J Esthet Restor Dent 2007; 19: 111-118.
17. Senawongse P, Pongprueksa P. Surface roughness
of nanofill and nanohybrid resin composites after
polishing and brushing. J Esthet Restor Dent 2007; 19:
18. Başeren M. Surface roughness of nanofill and
nanohybrid composite resin and ormocer-based toothcolored restorative materials after several finishing and
polishing procedures. Biomater Appl 2004; 19: 121-134.
19. Weinmann W, Thalacker C, Guggenberger R. Siloranes
in dental composites. Dent Mater 2005; 21: 68-74.
20. Duarte S Jr, Botta AC, Phark JH, Sadan A. Selected
mechanical and physical properties and clinical
application of a new low-shrinkage composite
restoration. Quintessence Int 2009; 40: 631-638.
21. Magni E, Ferrari M, Hickel R, Huth KC, Ilie N. Effect of
ozone gas application on the mechanical properties of
dental adhesives bonded to dentin. Dent Mater 2008;
24: 1428-1434.
22. Tezvergil-Mutluay A, Lassila LV, Vallittu PK.
Incremental layers bonding of silorane composite: the
initial bonding properties. J Dent 2008; 36: 560-563.
23. Shawkat ES, Shortall AC, Addison O, Palin WM. Oxygen
inhibition and incremental layer bond strengths of
resin composites. Dent Mater 2009; 25: 1338-1346.
24. Navarra CO, Cadenaro M, Armstrong SR, et al. Degree
of conversion of Filtek Silorane Adhesive System
and Clearfil SE Bond within the hybrid and adhesive
layer: an in situ Raman analysis. Dent Mater 2009; 25:
25. Sauro S, Mannocci F, Toledano M, Osorio R, Thompson I,
Watson TF. Influence of the hydrostatic pulpal pressure
on droplets formation in current etch-and-rinse and
self-etch adhesives: A video rate/TSM microscopy and
fluid filtration study. Dent Mater 2009; 25: 1392-1402.
26. Fabre HS, Fabre S, Cefaly DF, de Oliveira Carrilho MR,
Garcia FC, Wang L. Water sorption and solubility of
dentin bonding agents light-cured with different light
sources. J Dent 2007; 35: 253-258.
27. ISO-Standards (2003) ISO/TS 11405 Dental Materials-
Testing of Adhesion to Tooth Structure Geneve:
International Organization for Standardization. 2nd
edition. 1-16.
28. Al Wazzan KA. Effect of three endodontic materials on
the bond strength of two composite core materials to
dentin. J Prosthodont 2002; 11: 92-97.
29. Joiner A. Review of the effects of peroxide on enamel
and dentine properties. J Dent 2007; 35: 889-896.
30. Luk K, Tam L, Hubert M. Effect of light energy on
peroxide tooth bleaching. J Am Dent Assoc 2004; 135:
31. Severcan F, Gokduman K, Dogan A, Bolay S, Gokalp S.
Effects of in-office and at-home bleaching on human
enamel and dentin: an in vitro application of Fourier
transform infrared study. Appl Spectrosc 2008; 62:
32. Amaral C, Jorge A, Veloso K, Erhardt M, Arias V,
Rodrigues JA. The effect of in-office in combination
with intracoronal bleaching on enamel and dentin
bond strength and dentin morphology. J Contemp
Dent Prac 2008; 9: 17-24.
33. Jiang T, Ma X, Wang Y, et al. Investigation of the effects
of 30% hydrogen peroxide on human tooth enamel
by Raman scattering and laser-induced fluorescence. J
Biomed Opt 2008; 13: 14-19.
34. Celiberti P, Pazera P, Lussi A. The impact of ozone
treatment on enamel physical properties. Am J Dent
2006; 19: 67-72.
35. Davidson CL, de Gee AJ, Feilzer A. The competition
between the composite-dentin bond strength and the
polymerization contraction stress. J Dent Res 1984; 63:
1396-1399.180 • Eylül 2010 • Gülhane Tıp Derg Karabulut ve ark.
36. Adebayo OA, Burrow MF, Tyas MJ. Bonding of one-step
and two-step self-etching primer adhesives to dentin
with different tubule orientations. Acta Odontol Scand
2008; 66: 159-168.
37. Van Meerbeek B, Van Landuyt K, De Munck J, et al.
Technique-sensitivity of contemporary adhesives. Dent
Mater J 2005; 24: 1-13.
38. Chiba Y, Rikuta A, Yasuda G, et al. Influence of moisture
conditions on dentin bond strength of single-step selfetch adhesive systems. J Oral Sci 2006; 48: 131-137.
39. Tunç ES, Sönmez IS, Bayrak S, Eğilmez T. The evaluation
of bond strength of a composite and a compomer to
white mineral trioxide aggregate with two different
bonding systems. J Endod 2008; 34: 603-605.
40. Lopes GC, Cardoso PC, Vieira LC, Baratieri LN,
Rampinelli K, Costa G. Shear bond strength of acetonebased one-bottle adhesive systems. Braz Dent J 2006;
17: 39-43.
41. Can-Karabulut DC, Karabulut B. Shear bond strength
to enamel after power bleaching activated by different
sources. Eur J Esthet Dent (Baskıda).

Thank you for copying data from