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The importance of size-exclusion characteristics of type I collagen in bonding to dentin matrices

Paper ID Volume ID Publish Year Pages File Format Full-Text
655 53 2013 7 PDF Available
Title
The importance of size-exclusion characteristics of type I collagen in bonding to dentin matrices
Abstract

The mineral phase of dentin is located primarily within collagen fibrils. During development, bone or dentin collagen fibrils are formed first and then water within the fibril is replaced with apatite crystallites. Mineralized collagen contains very little water. During dentin bonding, acid-etching of mineralized dentin solubilizes the mineral crystallites and replaces them with water. During the infiltration phase of dentin bonding, adhesive comonomers are supposed to replace all of the collagen water with adhesive monomers that are then polymerized into copolymers. The authors of a recently published review suggested that dental monomers were too large to enter and displace water from collagen fibrils. If that were true, the endogenous proteases bound to dentin collagen could be responsible for unimpeded collagen degradation that is responsible for the poor durability of resin–dentin bonds. The current work studied the size–exclusion characteristics of dentin collagen, using a gel-filtration-like column chromatography technique, using dentin powder instead of Sephadex. The elution volumes of test molecules, including adhesive monomers, revealed that adhesive monomers smaller than ∼1000 Da can freely diffuse into collagen water, while molecules of 10,000 Da begin to be excluded, and bovine serum albumin (66,000 Da) was fully excluded. These results validate the concept that dental monomers can permeate between collagen molecules during infiltration by etch-and-rinse adhesives in water-saturated matrices.

Keywords
Size-exclusion; Collagen; Mineralized collagen; Collagen water; Resin–dentin bonding
First Page Preview
The importance of size-exclusion characteristics of type I collagen in bonding to dentin matrices
Publisher
Database: Elsevier - ScienceDirect
Journal: Acta Biomaterialia - Volume 9, Issue 12, December 2013, Pages 9522–9528
Authors
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Subjects
Physical Sciences and Engineering Chemical Engineering Bioengineering