Degradation and Stabilization of Resin-Dentine Interfaces in Polymeric Dental Adhesives: An Updated Review

Instability of the dentine-resin interface is owed to the partial/incomplete penetration of the resin adhesives in the collagen fibrils. However, interfacial hydrolysis of the resin-matrix hybrid layer complex activates the collagenolytic and esterase enzymes that cause the degradation of the hybrid...

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Bibliographic Details
Published in:Coatings (Basel) 2022-08, Vol.12 (8), p.1094
Main Authors: Amin, Faiza, Fareed, Muhammad Amber, Zafar, Muhammad Sohail, Khurshid, Zohaib, Palma, Paulo J, Kumar, Naresh
Format: Article
Language:English
Subjects:
Acids
Adhesion
Adhesives
Biomimetics
Bond strength
Bonding strength
Chemical bonds
Chemistry
Collagen
Composition
Crosslinking
Degradation
Denaturation
Dental adhesives
Dental glass ionomer cements
Dentistry
Enamel
Enzymes
Esterases
Hydroxyapatite
Interface stability
Interfaces
Penetration
Polymerization
Polymers
Properties
Protease inhibitors
R&D
Research & development
Resins
Sensitivity enhancement
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Summary:Instability of the dentine-resin interface is owed to the partial/incomplete penetration of the resin adhesives in the collagen fibrils. However, interfacial hydrolysis of the resin-matrix hybrid layer complex activates the collagenolytic and esterase enzymes that cause the degradation of the hybrid layer. Adequate hybridization is often prevented due to the water trapped between the interfibrillar spaces of the collagen network. Cyclic fatigue rupture and denaturation of the exposed collagen fibrils have been observed on repeated application of masticatory forces. To prevent interfacial microstructure, various approaches have been explored. Techniques that stabilize the resin–dentine bond have utilized endogenous proteases inhibitors, cross linking agents’ incorporation in the exposed collagen fibrils, an adhesive system free of water, and methods to increase the monomer penetration into the adhesives interface. Therefore, it is important to discover and analyze the causes of interfacial degradation and discover methods to stabilize the hybrid layer to execute new technique and materials. To achieve a predictable and durable adhesive resin, restoration is a solution to the many clinical problems arising due to microleakage, loss of integrity of the restoration, secondary caries, and postoperative sensitivity. To enhance the longevity of the resin-dentine bond strength, several experimental strategies have been carried out to improve the resistance to enzymatic degradation by inhibiting intrinsic collagenolytic activity. In addition, biomimetic remineralization research has advanced considerably to contemporary approaches of both intrafibrillar and extrafibrillar remineralization of dental hard tissues. Thus, in the presence of biomimetic analog complete remineralization of collagen, fibers are identified.
ISSN:2079-6412
2079-6412
DOI:10.3390/coatings12081094