Hydrolytic stability of self-etch adhesives bonded to dentin
- PMID: 16304447
- DOI: 10.1177/154405910508401213
Hydrolytic stability of self-etch adhesives bonded to dentin
Abstract
Functional monomers chemically interact with hydroxyapatite that remains within submicron hybrid layers produced by mild self-etch adhesives. The functional monomer 10-MDP interacts most intensively with hydroxyapatite, and its calcium salt appeared most hydrolytically stable, as compared with 4-MET and phenyl-P. We investigated the hypothesis that additional chemical interaction of self-etch adhesives improves bond stability. The micro-tensile bond strength (muTBS) of the 10-MDP-based adhesive did not decrease significantly after 100,000 cycles, but did after 50,000 and 30,000 cycles, respectively, for the 4-MET-based and the phenyl-P-based adhesives. Likewise, the interfacial ultrastructure was unchanged after 100,000 thermocycles for the 10-MDP-based adhesive, while that of both the 4-MET- and phenyl-P-based adhesives contained voids and less-defined collagen. The findings of this study support the concept that long-term durability of adhesive-dentin bonds depends on the chemical bonding potential of the functional monomer.
Comment in
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Critical appraisal. Options for dentin/enamel bonding: part III.J Esthet Restor Dent. 2010 Jun;22(3):200-5. doi: 10.1111/j.1708-8240.2010.00338.x. J Esthet Restor Dent. 2010. PMID: 20590975
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