In-vitro Degradation and Bioactivity of Tailored Amorphous Multi Porous Scaffold Structure

A1 Journal article (refereed)


Internal Authors/Editors


Publication Details

List of Authors: Zhang D, Jain H, Hupa M, Hupa L
Publisher: WILEY-BLACKWELL
Publication year: 2012
Journal: Journal of the American Ceramic Society
Journal acronym: J AM CERAM SOC
Volume number: 95
Issue number: 9
Start page: 2687
End page: 2694
Number of pages: 8
ISSN: 0002-7820


Abstract

A key requirement for the use of bio scaffold is that its degradation rate matches the growth rate of target tissue. Therefore, the degradation of recently developed tailored amorphous multiporous (TAMP) scaffold of 70SiO2 center dot 30CaO (mol%) in simulated body fluid (SBF) was studied under both static and quasi-dynamic conditions. The degradation was assessed through the dissolution of silica from the glass into SBF, while the in-vitro bioactivity was characterized by precipitation of calcium phosphate (CaP) on and inside the scaffold. Under static conditions, the degradation stopped due to the saturation of solution with silica in 3 days, whereas the precipitation of CaP continued. Rapid degradation and better in-vitro bioactivity was found under quasi-dynamic conditions, where the concentration gradient across the sample was maintained. The degradation followed exponential dependence on time with a half-life of 15.4 days and initial degradation rate 4.5% day-1. The remaining samples maintained their integrity and pore structure during degradation. The degradation occurred in three distinct stages: (a) wetting stage, (b) initial degradation stage when CaP precipitation dominates, and (c) intensive degradation stage when the nanopores rupture and network dissolves. By varying the sintering parameters the nanopore structure, and hence the degradation rate, can be tailored to suit the anticipated tissue regeneration rate. With demonstrated rapid and controllable degradation and good in-vitro bioactivity, the TAMP scaffold shows promise as candidate for bone regeneration application under various conditions in the body.

Last updated on 2019-17-11 at 03:16