Issue 40, 2016

Size of silk fibroin β-sheet domains affected by Ca2+

Abstract

In the search for suitable scaffold materials for tissue regeneration, silk fibroin has become one of the most promising candidates due to its biocompatibility and good physical properties. To facilitate bone formation in osteochondral defects, it is often combined with a bone promoting additive. Here we demonstrate using HRTEM analysis how the release of Ca2+ ions from bioactive glass or Ca-salts results in the reduction of β-sheet domain size that effectively controls a scaffold's properties, such as degradation and mechanical stiffness. We show that these changes already occur in silk fibroin solution prior to scaffold preparation and are caused by a decrease in zeta potential that forces fibroin molecules into tighter packing resulting in higher scaffold crystallinity, smaller β-sheet domains and higher interconnectivity. The reduction of β-sheet domains improves the elastic modulus and allows faster degradation despite the higher crystallinity. Ca2+ was also shown to be beneficial to the formation of hydroxy-apatite sheets on the fibroin surface.

Graphical abstract: Size of silk fibroin β-sheet domains affected by Ca2+

Supplementary files

Article information

Article type
Paper
Submitted
03 May 2016
Accepted
13 Sep 2016
First published
15 Sep 2016

J. Mater. Chem. B, 2016,4, 6597-6608

Size of silk fibroin β-sheet domains affected by Ca2+

N. Drnovšek, R. Kocen, A. Gantar, M. Drobnič-Košorok, A. Leonardi, I. Križaj, A. Rečnik and S. Novak, J. Mater. Chem. B, 2016, 4, 6597 DOI: 10.1039/C6TB01101B

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