Research Info

Title	Fabrication and characterization of dextran/nanocrystalline β-tricalcium phosphate nanocomposite hydrogel scaffolds
Type	JournalPaper
Keywords	Design of bioactive three-dimensional scaffolds to support bone tissue repair and regeneration become a key area of research in tissue engineering. Herein, porous hybrid hydrogels composed of dextran incorporatedwith nanocrystalline β-tricalciumphosphate (β-TCP) particleswere tailor made as scaffolds for bone tissue engineering. β- TCP was successfully introduced within the dextran networks crosslinked through intermolecular ionic interactions and hydrogen bonding confirmed by FTIR spectroscopy. The effect of β-TCP content on equilibrium water uptake and swelling kinetics of composite hydrogelswas investigated. Itwas found that the homogeneous distribution of β-TCP nanoparticles through the hydrogelmatrix contributes to higher porosity and swelling capacity. In depth swelling measurements revealed that while in the early stage of swelling, water diffusion follows the Fick's law, for longer time swelling behavior of hydrogels undergo the second order kinetics. XRDmeasurements represente
Abstract	Design of bioactive three-dimensional scaffolds to support bone tissue repair and regeneration become a key area of research in tissue engineering. Herein, porous hybrid hydrogels composed of dextran incorporatedwith nanocrystalline β-tricalciumphosphate (β-TCP) particleswere tailor made as scaffolds for bone tissue engineering. β- TCP was successfully introduced within the dextran networks crosslinked through intermolecular ionic interactions and hydrogen bonding confirmed by FTIR spectroscopy. The effect of β-TCP content on equilibrium water uptake and swelling kinetics of composite hydrogelswas investigated. Itwas found that the homogeneous distribution of β-TCP nanoparticles through the hydrogelmatrix contributes to higher porosity and swelling capacity. In depth swelling measurements revealed that while in the early stage of swelling, water diffusion follows the Fick's law, for longer time swelling behavior of hydrogels undergo the second order kinetics. XRDmeasurements represented the formation of apatite layer on the surface of nanocomposite hydrogels after immersion in the SBF solution, which implies their bioactivity. Cell culture assays confirmed biocompatibility of the developed hybrid hydrogels in vitro. The obtained results converge to offer dextran/β-TCP nanocomposite hydrogels as promising scaffolds for bone regeneration applications.
Researchers	Erfan Dashtimoghadam (Not In First Six Researchers), Hassan Adeli (Fifth Researcher), Sayed Mahmood Rabiee (Fourth Researcher), Farahnaz Fahimipour (Third Researcher), Hamed Salimi-Kenari (Second Researcher), Rahil Ghaffari (First Researcher)