Interconnected porous nanofibrous gelatin scaffolds prepared via a combined thermally induced phase separation/particulate leaching method

Abstract

To mimic the fibrous architecture of collagen, the nanofibrous gelatin scaffolds are fabricated employing a thermally induced phase separation (TIPS) technique. The influences of processing parameters, including polymer concentration and solvent mixture composition on the scaffold microstructure are investigated. However, using the TIPS technique, a limited pore size range is generally obtained. To yield the well-interconnected macroporous structures with equiaxed pores and nanofibrous architectures, the TIPS technique is combined with particulate leaching. The macroporous structure of produced scaffolds duplicates the predefined three-dimensional template structure. The homogenous macrostructure with well-interconnected equiaxed pores and no particular orientation is created. Modulating the size and shape of microspheres has precise control over porosity, pore size, and interconnection of the matrix. Because of the well-interconnected macroporous nanofibrous structure, the useful applications of these scaffolds in the tissue engineering field are expected.

Keywords:

• Gelatin
• nanofibrous
• porous
• scaffold
• thermally induced phase separation
• particulate leaching

Disclosure statement

No potential conflict of interest was reported by the authors.