Development of various composition multicomponent chitosan/fish collagen/glycerin 3D porous scaffolds: Effect on morphology, mechanical strength, biostability and cytocompatibility

The various composition multicomponent chitosan/fish collagen/glycerin 3D porous scaffolds were developed and investigated the effect of various composition chitosan/fish collagen/glycerin on scaffolds morphology, mechanical strength, biostability and cytocompatibility. The scaffolds were fabricated via freeze-drying technique. The effects of various compositions consisting in 3D scaffolds were investigated via FT-IR analysis, porosity, swelling and mechanical tests, and effect on the morphology of scaffolds investigated microscopically. The biostability and cytocompatibility tests were used to explore the ability of scaffolds to use for tissue engineering application. The average pore sizes of scaffolds were in range of 100.73±27.62–116.01±52.06, porosity 71.72±3.46–91.17±2.42%, tensile modulus in dry environment 1.47±0.08–0.17±0.03MPa, tensile modulus in wet environment 0.32±0.03–0.14±0.04MPa and biodegradation rate (at day 30) 60.38±0.70–83.48±0.28%. In vitro culture of human fibroblasts and keratinocytes showed that the various composition multicomponent 3D scaffolds were good cytocompatibility however, the scaffolds contained high amount of fish collagen excellently facilitated cell proliferation and adhesion. It was found that the high amount fish collagen and glycerin scaffolds have high porosity, enough mechanical strength and biostability, and excellent cytocompatibility. •Fabricated various composition multicomponent 3D porous scaffolds.•The 3D scaffolds developed with various pore size, porosity and swelling ratio.•The 3D scaffolds developed with various mechanical strength and biostability.•The scaffolds excellently facilitated cell proliferation, adhesion and infiltration.•The scaffolds were cytocompatible with human fibroblasts and keratinocytes.