Metallic Implant Surface Activation through Electrospinning Coating of Nanocomposite Fiber for Bone Regeneration

Abstract: There is a critical need in orthopedic and orthodontic clinics for enhanced implant-bone interface contact to facilitate the quick establishment of a strong and durable connection. Surface modification by bioactive multifunctional materials is a possible way to overcome the poor osteoconductivity and the potential infection of Ti-based implants. Ti-25Zr biometallic alloy was prepared by powder metallurgy technique and then coated by Nano-composite fiber using electrospinning. Ceramic Nanocompound (CaTiO3, BaTi… Show more

“…Lack of bioactivity is now the critical factor limiting PCL/CS composite use in tissue engineering. In order to improve bone bonding and osteoblast proliferation, a unique ceramic substance was added to the PCL/CS blend [18,19].…”

Promote Osseointegration Through Surface Functionalization of Ti-Zr Alloy by Nano Composite Fiber

“…Lack of bioactivity is now the critical factor limiting PCL/CS composite use in tissue engineering. In order to improve bone bonding and osteoblast proliferation, a unique ceramic substance was added to the PCL/CS blend [18,19].…”

Promote Osseointegration Through Surface Functionalization of Ti-Zr Alloy by Nano Composite Fiber

Chitosan coatings on titanium-based implants - From development to characterization and behavior: A systematic review

Influence of zirconium and copper sub-layer in cell integrations on femtosecond laser-processed Ti thin films