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Article Citation - WoS: 10Citation - Scopus: 7Synergistic effect of fabrication and stabilization methods on physicochemical and biological properties of chitosan scaffolds(Taylor & Francis As, 2021) Gultan, Tugce; Bektas Tercan, Seyma; Cetin Altindal, Damla; Gumusderelioglu, MenemseIn this study, the aim was to investigate the changes in the physical, chemical and biological properties of chitosan scaffolds obtained by freeze-drying and microwave-assisted gas foaming methods. Also, it was aimed to determine the most suitable one when scaffolds are subjected to different stabilization processes. To prevent the solubility of chitosan scaffolds, stabilization processes were carried out by treatment with ethanol (EtOH), sodium hydroxide (NaOH), or sodium bicarbonate (Na2CO3). The chemical and physical changes in the chitosan structure induced by different stabilization methods were investigated by characterization studies carried out comparatively with two-dimensional chitosan films. The results showed that, particularly, NaOH stabilization improved the physical, thermal, and mechanical properties of the bulk material. The wettability and surface roughness of the chitosan films were enhanced for cellular adhesion after stabilization. Cell culture studies revealed that variations in both fabrication and stabilization methods significantly affected in vitro cellular responses such as cell attachment, proliferation and viability. In conclusion, chitosan scaffolds fabricated by microwave-assisted gas foaming and stabilized by NaOH solution were found as the best structure due to their higher cellular activities.Article Citation - WoS: 6Citation - Scopus: 7Hybrid Polymeric Scaffolds Prepared by Micro and Macro Approaches(Taylor & Francis As, 2017) Ozkan, Ozan; Sasmazel, Hilal TurkogluPolymeric scaffolds with complex porous structures were fabricated with two different polymers by combining three fabrication methods in three steps, in which, nonwoven poly(e-caprolactone) microfibers were obtained with electrospinning and immersed in solvent cast chitosan solution poured in Petri dish to fabricate hybrid polymers, and finally the combined structure was freeze-dried with two different predrying techniques to obtain macropores in the structure. The resulting hybrid polymeric mats were found to have both microfibers and macroporosity due to the electrospinning as well as freeze-drying processes, which resemble the natural extracellular matrix. The optimized scaffolds that predried in the incubator at 40 degrees C for 5 h and then freeze-dried for 24 h exhibited contact angle value of 68.93 +/- 2.18 degrees with 3.252 +/- 0.783 MPa Young's modulus and 0.260 +/- 0.002 MPa yield strength as well as 1.35-fold cell yield in MRC5 fibroblast cell culture, compared to the commercial tissue culture polystyrene. [GRAPHICS] .
