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Fabrication of Chitosan/Agarose Scaffolds Containing Extracellular Matrix for Tissue Engineering Applications Publisher Pubmed

Summary: Scientists report a cartilage-like scaffold with ECM boosts cell growth for nasal repair, improving healing. #TissueEngineering #CartilageRepair

Saeedi Garakani S1 ; Khanmohammadi M2 ; Atoufi Z3 ; Kamrava SK4 ; Setayeshmehr M5 ; Alizadeh R4 ; Faghihi F6 ; Bagher Z4 ; Davachi SM7 ; Abbaspourrad A7
Authors

Source: International Journal of Biological Macromolecules Published:2020


Abstract

One of the most effective approaches for treatment of cartilage involves the use of porous three-dimensional scaffolds, which are useful for improving not only cellular adhesion but also mechanical properties of the treated tissues. In this study, we manufactured a composite scaffold with optimum properties to imitate nasal cartilage attributes. Cartilage extracellular matrix (ECM) was used in order to improve the cellular properties of the scaffolds; while, chitosan and agarose were main materials that are used to boost the mechanical and rheological properties of the scaffolds. Furthermore, we explored the effect of the various weight ratios of chitosan, agarose, and ECM on the mechanical and biomedical properties of the composite scaffolds using the Taguchi method. The resulting composites display a range of advantages, including good mechanical strength, porous morphology, partial crystallinity, high swelling ratio, controlled biodegradability rate, and rheological characteristics. Additionally, we performed the cytotoxicity tests to confirm the improvement of the structure and better cell attachments on the scaffolds. Our findings illustrate that the presence of the ECM in chitosan/agarose structure improves the biomedical characteristics of the final scaffold. In addition, we were able to control the mechanical properties and microstructure of the scaffolds by optimizing the polymers' concentration and their resulting interactions. These results present a novel scaffold with simultaneously enhanced mechanical and cellular attributes comparing to the scaffolds without ECM for nasal cartilage tissue engineering applications. © 2019
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