Interface between calcium silicate cement and adhesive systems according to adhesive families and cement maturation
Pradelle-Plasse Nelly, Mocquot Caroline, Semennikova Katherine, Colon Pierre, Grosgogeat Brigitte,
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( Pradelle-Plasse Nelly ) - University of Paris Faculty of Dental Surgery Department of Conservative Dentistry - Endodontics
( Mocquot Caroline ) - University of Paris Faculty of Dental Surgery Department of Conservative Dentistry - Endodontics
( Semennikova Katherine ) - University of Paris Faculty of Dental Surgery Department of Conservative Dentistry - Endodontics
( Colon Pierre ) - University of Paris Faculty of Dental Surgery Department of Conservative Dentistry - Endodontics
( Grosgogeat Brigitte ) - University of Lyon 1 Faculty of Dental Surgery Department of Biomaterials
Abstract
Objectives: This study aimed to evaluate the interface between a calcium silicate cement (CSC), Biodentine and dental adhesives in terms of sealing ability.
Materials and Methods: Microleakage test: 160 standardized class II cavities were prepared on 80 extracted human molars. The cavities were filled with Biodentine and then divided into 2 experimental groups according to the time of restoration: composite resin obturation 15 minutes after Biodentine handling (D0); restoration after 7 days (D7). Each group was then divided into 8 subgroups (n = 5) according to the adhesive system used: etch-and-rinse adhesive (Prime & Bond); self-etch adhesive 2 steps (Optibond XTR and Clearfil SE Bond); self-etch adhesive 1 step (Xeno III, G-aenial Bond, and Clearfil Tri-S Bond); and universal used as etch-and-rinse or self-etch (ScotchBond Universal ER or SE). After thermocycling, the teeth were immersed in a silver nitrate solution, stained, longitudinally sectioned, and the Biodentine/adhesive percolation was quantified. Scanning electron microscopic observations: Biodentine/adhesive interfaces were observed.
Results: A tendency towards less microleakage was observed when Biodentine was etched (2.47%) and when restorations were done without delay (D0: 4.31%, D7: 6.78%), but this was not significant. The adhesives containing 10-methacryloyloxydecyl dihydrogen phosphate monomer showed the most stable results at both times studied. All Biodentine/adhesive interfaces were homogeneous and regular.
Conclusions: The good sealing of the CSC/adhesive interface is not a function of the system adhesive family used or the cement maturation before restoration. Biodentine can be used as a dentine substitute.
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Adhesives; Calcium silicate; Substitutes; Leakage; 10-MDP
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