Do Self-Etching Adhesive Systems Improve Reliability of Dentin Bonding? In Vitro Study
Authors:
P. Bradna; M. Dudek; A. Roubíčková; M. Mikšovský; R. Vrbová; D. Houšová
Authors place of work:
Výzkumný ústav stomatologický 1. LF UK a VFN, Praha
Published in the journal:
Česká stomatologie / Praktické zubní lékařství, ročník 108, 2008, 5, s. 109-116
Summary
A shear bond strength and fractography analysis was used to evaluate reliability of nine total- and self-etching adhesives OptiBond FL, Gluma Comfort Bond, Prime&Bond NT, AdheSE, Adper Prompt, Adper Prompt L-Pop, Clearfil SE Bond, Xeno III and iBond. A critical bond strength at which 10 % samples failed was used as a measure of the adhesive reliability. Significant differences in reliability and also in mode of their fracture were found between total- and self-etching systems and also in adhesives in these groups. The highest reliability and mixed mode of fracture were found with group of classical total-etch 3- and 2-step adhesives OptiBond FL a Gluma Comfort Bond and also with 2-step self-etching AdheSE and Clearfil SE Bond. With these adhesives both high bond strength and highly predictable properties can be expected. Compromised reliability as manifested in decreased bond strength and predominantly less energetically demanding cohesive fractures of the adhesive layer or less frequently mixed fractures occurred for Adper Promt, iBond a Xeno III. On the other hand, Prime & Bond NT and especially Adper Prompt L-Pop in blisters were characterized as systems with a low reliability. Adhesive properties of self-etching systems might decrease as a result of aging processes during their shelf-life.
Key words:
dentin - adhesives - bond strength - reliability
Zdroje
1. ADA. Dentin and Enamel Adhesive Materials. Acceptance Program Guidelines, 2001, Council on Scientific Affairs.
2. Bona, A. D., Anusavice, K. J. Mecholsky, J. J. Jr.: Failure analysis of resin composite bonded to ceramic. Dent. Mater., roč. 19, 2003, č. 8, s. 693-699.
3. Carvalho, R. M., Chersoni, S., Frankenberger, R. et al.: A challenge to the conventional wisdom that simultaneous etching and resin infiltration always occurs in self-etch adhesives. Biomaterials, roč. 26, 2005, č. 9, s. 1035-1042.
4. De Munck, J., Van Landuyt, K., Peumans, M. et al.: A critical review of the durability of adhesion to tooth tissue: methods and results. J. Dent. Res., roč. 84, 2005, č. 2, s. 118-1132.
5. Dias, W. R., Pereira, P. N. Swift, E. J. Jr.: Effect of bur type on microtensile bond strengths of self-etching systems to human dentin. J. Adhes. Dent., roč. 6, 2004, č. 3, s. 195-203.
6. Hashimoto, M., Tay, F. R., Svizero, N. R. et al.: The effects of common errors on sealing ability of total-etch adhesives. Dent. Mater., roč. 22, 2006, č. 6, s. 560-568.
7. Heintze, S. D.: Systematic reviews: I. The correlation between laboratory tests on marginal quality and bond strength. II: The correlation between marginal quality and clinical outcome. J. Adhes. Dent., roč. 9, 2007, č. 1, s. 77-106.
8. ISO. Technical Specification ISO/TS 11405: 2003(E) Dental materials – Testing of adhesion to tooth structure.
9. Jacobsen, T. Soderholm, K. J.: Some effects of water on dentin bonding. Dent. Mater., roč. 11, 1995, č. 2, s. 132-136.
10. Jacobsen, T., Soderholm, K. J., Yang, M. et al.: Effect of composition and complexity of dentin-bonding agents on operator variability—analysis of gap formation using confocal microscopy. Eur J. Oral. Sci., roč. 111, 2003, č. 6, s. 523-528.
11. McCabe, J. F. Carrick, T. E.: A statistical approach to the mechanical testing of dental materials. Dent. Mater., roč. 2, 1986, č. 4, s. 139-142.
12. Pashley, E. L., Agee, K. A., Pashley, D. H. et al.: Effects of one versus two applications of an unfilled, all-in-one adhesive on dentine bonding. J. Dent., roč. 30, 2002, č. 2-3, s. 83-90.
13. Perinka, L., Sano, H. Hosoda, H.: Dentin thickness, hardness, and Ca-concentration vs bond strength of dentin adhesives. Dent. Mater., roč. 8, 1992, č. 4, s. 229-233.
14. Peumans, M., Kanumilli, P., De Munck, J. et al.: Clinical effectiveness of contemporary adhesives: A systematic review of current clinical trials. Dent. Mater., roč. 21, 2005, č. 9, s. 864-881.
15. Ritter, J. E.: Predicting lifetimes of materials and material structures. Dent. Mater., roč. 11, 1995, č. 2, s. 142-146.
16. Sadr, A., Ghasemi, A., Shimada, Y. et al.: Effects of storage time and temperature on the properties of two self-etching systems. J. Dent., roč. 35, 2007, č. 3, s. 218-225.
17. Salz, U., Zimmermann, J., Zeuner, F. et al.: Hydrolytic stability of self-etching adhesive systems. J. Adhes. Dent., roč. 7, 2005, č. 2, s. 107-116.
18. Sano, H., Kanemura, N., Burrow, M. F. et al.: Effect of operator variability on dentin adhesion: students vs. dentists. Dent. Mater. J., roč. 17, 1998, č. 1, s. 51-58.
19. Sano, H., Shono, T., Sonoda, H. et al.: Relationship between surface area for adhesion and tensile bond strength — Evaluation of a micro-tensile bond test. Dent. Mater., roč. 10, 1994, č. 4, s. 236-240.
20. Sano, H., Shono, T., Takatsu, T. et al.: Microporous dentin zone beneath resin-impregnated layer. Oper. Dent., roč. 19, 1994, č. 2, s. 59-64.
21 Sano, H., Takatsu, T., Ciucchi, B. et al.: Nanoleakage: leakage within the hybrid layer. Oper. Dent, roč. 20, 1995, č. 1, s. 18-25.
22. Schreiner, R. F., Chappell, R. P., Glaros, A. G. et al.: Microtensile testing of dentin adhesives. Dent. Mater., roč. 14, 1998, č. 3, s. 194-201.
23. Soderholm, K. J., Guelmann, M. Bimstein, E.: Shear bond strength of one 4th and two 7th generation bonding agents when used by operators with different bonding experience. J. Adhes. Dent., roč. 7, 2005, č. 1, s. 57-64.
24. Tay, F. R., Gwinnett, J. A. Wei, S. H.: Micromorphological spectrum from overdrying to overwetting acid-conditioned dentin in water-free acetone-based, single-bottle primer/adhesives. Dent. Mater., roč. 12, 1996, č. 4, s. 236-244.
25. Tay, F. R. Pashley, D. H.: Aggressiveness of contemporary self-etching systems. I: Depth of penetration beyond dentin smear layers. Dent. Mater., roč. 17, 2001, č. 4, s. 296-308.
26. Tay, F. R., Pashley, D. H., Suh, B. I. et al.: Single-step adhesives are permeable membranes. J. Dent., roč. 30, 2002, č. 7-8, s. 371-382.
27. Van Landuyt, K. L., De Munck, J., Snauwaert, J. et al.: Monomer-solvent phase separation in one-step self-etch adhesives. J. Dent. Res., roč. 84, 2005, č. 2, s. 183-188.
28. Van Meerbeek, B., Inokoshi, S., Braem, M. et al.: Morphological aspects of the resin-dentin interdiffusion zone with different dentin adhesive systems. J. Dent. Res., roč. 71, 1992, č. 8, s. 1530-1540.
29. Van Noort, R., Cardew, G. E., Howard, I. C. et al.: The effect of local interfacial geometry on the measurement of the tensile bond strength to dentin. J. Dent. Res., roč. 70, 1991, č. 5, s. 889-893.
30. Versluis, A., Tantbirojn, D. Douglas, W. H.: Why do shear bond tests pull out dentin? J. Dent. Res., roč. 76, 1997, č. 6, s. 1298-1307.
31. Wang, Y. Spencer, P.: Continuing etching of an all-in-one adhesive in wet dentin tubules. J. Dent. Res., roč. 84, 2005, č. 4, s. 350-354.
Štítky
Maxillofacial surgery Orthodontics Dental medicineČlánok vyšiel v časopise
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