A study on bone tissue engineering: Injectable chitosan-g-stearic acid putty
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2020Author
Yalman, VolkanÇelik, Ekin
Arslan, Ömer
Alkan, Funda
Türkolu, Nelisa Laçin
Hirin, Hasret Tolga
Arslan, Arslan Kaan
Demirbilek, Murat
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Yalman, V., Celik, E., Arslan, Ö., Alkan, F., Türkoğlu, N. L., Şirin, H. T., ... & Demirbilek, M. (2020). A study on bone tissue engineering: Injectable chitosan-g-stearic acid putty. Technology and Health Care, 28(3), 227-239.Abstract
Bioengineering products can help bone tissue regeneration. OBJECTIVE: There is an ongoing research for more effective biomaterials in bone regeneration. Chitosan (Ch) grafted stearic acid (Ch-g-Sa) polymer was synthesized and its usability as a putty was evaluated in this study. METHODS: The chemical structure of Ch-g-Sa polymer was investigated using Proton nuclear magnetic resonance (H-NMR) and Fourier-transformed infrared spectroscopy-attenuated total reflectance (FTIR-ATR). Thermal properties of Ch-g-Sa polymer were determined by thermal gravimetric analysis (TGA). Putties containing nano-hydroxyapatite were prepared and in-vitro degradation properties and viscosity of the putties were determined. RESULTS: The cytotoxicity, oxidation effect and osteogenic potential of the putties were investigated on MC3T3 cells while the inflammatory effect of the putties was studied on THP-1 cells. For the determination of the osteogenic effect of the putties, ALP and RUNX2 gene expression of MC3T3 cells were studied. CONCLUSION: Ch-g-Sa/HA putties are promising biomaterials for bone tissue regeneration. © 2020 - IOS Press and the authors. All rights reserved.