Issue 33, 2013

Functionalised polycaprolactone films and 3D scaffolds via gamma irradiation-induced grafting

Abstract

Polycaprolactone (PCL) is frequently used as the base polymer in scaffolds targeted for tissue engineering applications. However, in the absence of further surface modification, the lack of functional moieties on the PCL chain results in non-ideal surface properties of such scaffolds, especially in terms of the inability to tailor the presentation of functional ligands for directed cell adhesion and growth. The current study investigates gamma irradiation-induced grafting as a means of improving the biofunctionality of the PCL surface. The surface presentation of carboxylic acid groups on 2D PCL films could be tailored by changing the acrylic acid (AAc) concentration and/or the solvent during grafting, as evaluated from X-ray photoelectron spectroscopy (XPS). From data obtained using Raman spectroscopy, it was concluded that the penetration depth of the grafted pAAc was affected by the solvent system with a mixed water–methanol system yielding high penetration. Grafted samples displayed a decreased elastic modulus of the surface correlating with pAAc penetration depth, as shown by nano-indentation using atomic force microscopy (AFM). The most promising grafting conditions found for the 2D PCL films were then applied to 3D thermally induced phase separation (TIPS) scaffolds and it was demonstrated using XPS that equivalent levels of grafting of pAAc could be achieved throughout the whole depth of the scaffold. The scaffolds maintained their overall integrity after grafting, even though we observed a decrease in the compressive modulus by 20% after surface modification. These combined studies confirm the utility of this surface modification methodology for scaffolds targeted at tissue engineering and cell culture applications.

Graphical abstract: Functionalised polycaprolactone films and 3D scaffolds via gamma irradiation-induced grafting

Article information

Article type
Paper
Submitted
26 Feb 2013
Accepted
24 Jun 2013
First published
26 Jun 2013

J. Mater. Chem. B, 2013,1, 4171-4181

Functionalised polycaprolactone films and 3D scaffolds via gamma irradiation-induced grafting

J. Z. Luk, J. Cooper-White, L. Rintoul, E. Taran and L. Grøndahl, J. Mater. Chem. B, 2013, 1, 4171 DOI: 10.1039/C3TB20267D

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