Cellulose-based porous scaffold for bone tissue engineering applications: Assessment of hMSC proliferation and differentiation

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Abstract

Physical foaming combined with microwave-induced curing was used in this study to develop an innovative device for bone tissue regeneration. In the first step of the process, a stable physical foaming was induced using a surfactant (i.e. pluronic) as blowing agent of a homogeneous blend of Sodium salt of carboxymethylcellulose (CMCNa) and polyethylene glycol diacrylate (PEGDA700) solution. In the second step, the porous structure of the scaffold was chemically stabilized by radical polymerization induced by a homogeneous rapid heating of the sample in a microwave reactor. In this step 2,2-Azobis[2-(2-imidazolin-2 yl)propane]Dihydrochloride was used as thermoinitiator (TI). CMCNa and PEGDA were mixed with different blends to correlate the properties of final product with the composition. The chemical properties of each sample were evaluated by spectroscopy analysis ATR-IR (before and after curing) in order to maximize reaction yield, and optimize kinetic parameters (i.e. Time curing, microwave power). The stability of the materials was evaluated in vitro by degradation test in Phosphate Buffered Saline. Biological analyses were performed to evaluate the effect of scaffold materials on cellular behavior in terms of proliferation and early osteogenic differentiation of human Mesenchymal Stem Cells.

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Demitri, C., Raucci, M. G., Giuri, A., De Benedictis, V. M., Giugliano, D., Calcagnile, P., … Ambrosio, L. (2016). Cellulose-based porous scaffold for bone tissue engineering applications: Assessment of hMSC proliferation and differentiation. Journal of Biomedical Materials Research - Part A, 104(3), 726–733. https://doi.org/10.1002/jbm.a.35611

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