Litcius/Paper detail

Release of Interface Confined Water Significantly Improves Dentin Bonding

Mengqi Pan, ZhiTing Li, Jiake Xu, Yuqing Lei, C. Shu, W Lao, Ye Chen, Xiaodong Li, Xiaodong Li, Hongli Liao, Qiaojie Luo, Xiaodong Li, Xiaodong Li

2023Journal of Dental Research17 citationsDOI

Abstract

Water residue and replacement difficulty cause insufficient adhesive infiltration in demineralized dentin matrix (DDM), which produces a defective hybrid layer and thus a bonding durability problem, severely plaguing adhesive dentistry for decades. In this study, we propose that the unique properties of a highly hydrated interface of the porous DDM can give rise to 1 new type of interface, confined liquid water, which accounts for most of the residue water and may be the main cause of insufficient infiltration. To prove our hypothesis, 3 metal ions with increasing binding affinity and complex stability (Na + , Ca 2+ , and Cu 2+ ) were introduced respectively to coordinate negatively charged groups such as -PO 4 3− , -COO − abundant in the DDM interface. Strong chelation of Ca 2+ and Cu 2+ rapidly released the confined water, significantly improving penetration of hydrophobic adhesive monomers, while Na + had little effect. A significant decrease of defects in the hybrid layer and a much decreased modulus gap between the hybrid layer and the adhesive layer greatly optimized the microstructure and micromechanical properties of the tooth–resin bonding interface, thus improving the effectiveness and durability of dentin bonding substantially. This study paves the way for a solution to the core scientific issue of contemporary adhesive dentistry: water residue and replacement in dentin bonding, both theoretically and practically.

Topics & Concepts

AdhesiveDentinDurabilityPenetration (warfare)Materials scienceComposite materialComposite numberChemical engineeringChelationLayer (electronics)MetallurgyEngineeringOperations researchDental materials and restorationsDental Erosion and TreatmentBuilding materials and conservation