![]() Graphene oxide grounds are most important for the reconstruction of bone new, outstanding DM-HAP/ALG-CS/GO scaffold on Mg alloy has been developed. Graphene oxide (GO) is integrated into the biocomposite, which has long been believed for soft and hard tissue implants owing to its excellent structural and mechanical properties, to enhance the mechanical properties of the biocomposite. To overcome this defect and to generate suitable bone implant material, dual minerals substituted hydroxyapatite (DM-HAP) is combined with biodegradable polymer alginate-chitosan (ALG-CS). However, the use of apatite as hard tissue implants is restricted due to its fragile nature and reduced mechanical properties. Hydroxyapatite is one the most important mineral constituents for bony which, due to its bioactive and histocompatible properties, is commonly used as a material for hard tissue substitution. In this work, we have explored osteoblast bond, multiplication, and separation on biocomposites of bioactive dual minerals substituted hydroxyapatite/alginate-chitosan/graphene oxide porous biocomposites coated magnesium alloy (AZ91 Mg alloy). Bone fractures/defects are normal in more established individuals experiencing osteoporosis. ![]()
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