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Dextran Hydrogels Incorporated With Bioactive Glass-Ceramic: Nanocomposite Scaffolds for Bone Tissue Engineering Publisher Pubmed



Nikpour P1 ; Salimikenari H1 ; Fahimipour F2, 3 ; Rabiee SM4 ; Imani M5 ; Dashtimoghadam E2 ; Tayebi L2, 6
Authors
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Authors Affiliations
  1. 1. Department of Chemical Engineering, Faculty of Engineering & Technology, University of Mazandaran, Babolsar, Iran
  2. 2. Marquette University School of Dentistry, Milwaukee, 53233, WI, United States
  3. 3. Dental Biomaterials Department, School of Dentistry, Tehran University of Medical Sciences, Tehran, Iran
  4. 4. Department of Materials Engineering, Faculty of Mechanical Engineering, Babol Noshirvani University of Technology, Babol, Iran
  5. 5. Department of Novel Drug Delivery Systems, Iran Polymer and Petrochemical Institute, Tehran, Iran
  6. 6. Biomaterials and Advanced Drug Delivery Laboratory, School of Medicine, Stanford University, Palo Alto, 94304, CA, United States

Source: Carbohydrate Polymers Published:2018


Abstract

A series of nanocomposite scaffolds comprised of dextran (Dex) and sol–gel derived bioactive glass ceramic nanoparticles (nBGC: 0–16 (wt%)) were fabricated as bioactive scaffolds for bone tissue engineering. Scanning electron microscopy showed Dex/nBGC scaffolds were consisting of a porous 3D microstructure with an average pore size of 240 μm. Energy-dispersive x-ray spectroscopy illustrated nBGC nanoparticles were homogenously distributed within the Dex matrix at low nBGC content (2 wt%), while agglomeration was observed at higher nBGC contents. It was found that the osmotic pressure and nBGC agglomeration at higher nBGC contents leads to increased water uptake, then reduction of the compressive modulus. Bioactivity of Dex/nBGC scaffolds was validated through apatite formation after submersion in the simulated body fluid. Dex/nBGC composite scaffolds were found to show improved human osteoblasts (HOBs) proliferation and alkaline phosphatase (ALP) activity with increasing nBGC content up to 16 (wt%) over two weeks. Owing to favorable physicochemical and bioactivity properties, the Dex/nBGC composite hydrogels can be offered as promising bioactive scaffolds for bone tissue engineering applications. © 2018 Elsevier Ltd
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