In this study, we investigated the influence of processing methods on the chemo-physical properties of silk fibroin (SF) film and on their interaction with neural cells. Structural, thermal and morphological analysis revealed a strong correlation between the conformation, stability and texture of silk films and the fabrication conditions. An increase in temperature, methanol treatment and the use of a microfluidic approach led to an improvement in SF film stability in terms of b-sheet content, mechanical resistance, dissolution and enzymatic degradation. An effect on the interaction of SF films with neural cells, through a modulation of the surface properties, was also observed. In particular, hydrophobic surfaces induce proliferation of astrocytes and neuron adhesion whereas hydrophilic surfaces promote a remarkable neurite outgrowth. A detailed knowledge of the effect of manufacturing parameters on SF film properties can facilitate and extend the applications of silk-based biomaterials in tissue engineering and drug release systems.

Effect of different fabrication methods on the chemo-physical properties of silk fibroin films and on their interaction with neural cells

DONNADIO, Anna;NOCCHETTI, Morena;POSATI, TAMARA
;
2016

Abstract

In this study, we investigated the influence of processing methods on the chemo-physical properties of silk fibroin (SF) film and on their interaction with neural cells. Structural, thermal and morphological analysis revealed a strong correlation between the conformation, stability and texture of silk films and the fabrication conditions. An increase in temperature, methanol treatment and the use of a microfluidic approach led to an improvement in SF film stability in terms of b-sheet content, mechanical resistance, dissolution and enzymatic degradation. An effect on the interaction of SF films with neural cells, through a modulation of the surface properties, was also observed. In particular, hydrophobic surfaces induce proliferation of astrocytes and neuron adhesion whereas hydrophilic surfaces promote a remarkable neurite outgrowth. A detailed knowledge of the effect of manufacturing parameters on SF film properties can facilitate and extend the applications of silk-based biomaterials in tissue engineering and drug release systems.
2016
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11391/1389748
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