Synergistic Amelioration of Osseointegration and Osteoimmunomodulation with a Microarc Oxidation-Treated Three-Dimensionally Printed Ti-24Nb-4Zr-8Sn Scaffold via Surface Activity and Low Elastic Modulus

Abstract: Biomaterial scaffolds, including bone substitutes, have evolved from being primarily a biologically passive structural element to one in which material properties such as surface topography and chemistry actively direct bone regeneration by influencing stem cells and the immune microenvironment. Ti-6Al-4V(Ti6Al4V) implants, with a significantly higher elastic modulus than human bone, may lead to stress shielding, necessitating improved stability at the bone−titanium alloy implant interface. Ti-24Nb-4Zr-8Sn (Ti… Show more

“…A TiNbSn alloy stem for a hip prosthesis was developed, and the findings from the clinical trial indicated that TiNbSn alloy stems contributed to a reduction in stress shielding, which included improvements in thigh pain and a decrease in hip prosthesis loosening [61,62]. In addition to other TiNbSn alloys, TiNbZrTaSi alloys, TiNbZrSn alloys, TiMoZrSnNb alloys, and TiNbTaO alloys have been reported for their low Young's moduli, biocompatibility, and osteoinductive effects [63][64][65][66][67]. However, there are few preclinical studies reporting their bone healing-promoting effects as fracture treatment plates or intramedullary nails.…”

A Review of the Impacts of Implant Stiffness on Fracture Healing

“…A TiNbSn alloy stem for a hip prosthesis was developed, and the findings from the clinical trial indicated that TiNbSn alloy stems contributed to a reduction in stress shielding, which included improvements in thigh pain and a decrease in hip prosthesis loosening [61,62]. In addition to other TiNbSn alloys, TiNbZrTaSi alloys, TiNbZrSn alloys, TiMoZrSnNb alloys, and TiNbTaO alloys have been reported for their low Young's moduli, biocompatibility, and osteoinductive effects [63][64][65][66][67]. However, there are few preclinical studies reporting their bone healing-promoting effects as fracture treatment plates or intramedullary nails.…”

A Review of the Impacts of Implant Stiffness on Fracture Healing

Surface modification of the laser powder bed-fused Ti-Zr-Nb scaffolds by dynamic chemical etching and Ag nanoparticles decoration