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Viscoelasticity, Mechanical Properties, and In Vitro Bioactivity of Gelatin/Borosilicate Bioactive Glass Nanocomposite Hydrogels as Potential Scaffolds for Bone Regeneration

Asmaa M. Abd El‐Aziz, Ahmed Abd El‐Fattah, Azza El‐Maghraby, Doaa A. Ghareeb, Sherif Kandil

2021Polymers31 citationsDOIOpen Access PDF

Abstract

Chemical cross-linking was used to create nanocomposite hydrogels made up of gelatin (G) and borosilicate bioactive glass (BBG) with different content (0, 3, and 5 wt.%). The G/BBG nanocomposite hydrogels were studied for their morphology, mechanical properties, and viscoelasticity. SEM images revealed a macroporous interconnected structure with particles scattered across the pore walls. Studies of water absorption and degradation confirmed that the nanocomposite scaffolds were hydrophilic and biodegradable. The addition of 5% BBG to the scaffold formulations increased the compressive modulus by 413% and the compressive intensity by 20%, respectively. At all frequency ranges tested, the storage modulus (G') was greater than the loss modulus (G″), revealing a self-standing elastic nanocomposite hydrogel. The nanocomposite scaffolds facilitated apatite formation while immersed in simulated body fluid (SBF). According to the findings, G/BBG nanocomposite scaffolds could be a promising biomaterial for bone regeneration.

Topics & Concepts

NanocompositeMaterials scienceSimulated body fluidGelatinBioactive glassSelf-healing hydrogelsDynamic mechanical analysisBorosilicate glassBiomaterialComposite materialAbsorption of waterViscoelasticityElastic modulusApatiteChemical engineeringPolymerPolymer chemistryNanotechnologyChemistryScanning electron microscopeOrganic chemistryEngineeringBone Tissue Engineering MaterialsDental Implant Techniques and OutcomesFacial Trauma and Fracture Management
Viscoelasticity, Mechanical Properties, and In Vitro Bioactivity of Gelatin/Borosilicate Bioactive Glass Nanocomposite Hydrogels as Potential Scaffolds for Bone Regeneration | Litcius