Abstract
Silica-based bioactive glasses (SBG) hold great promise as bio-functional coatings of metallic endo-osseous implants, due to their osteoproductive potential, and, in the case of designed formulations, suitable mechanical properties and antibacterial efficacy. In the framework of this study, the FastOs®BG alkali-free SBG system (mol%: SiO2—38.49, CaO—36.07, P2O5—5.61, MgO—19.24, CaF2—0.59), with CuO (2 mol%) and Ga2O3 (3 mol%) antimicrobial agents, partially substituting in the parent system CaO and MgO, respectively, was used as source material for the fabrication of intentionally silica-enriched implant-type thin coatings (~600 nm) onto titanium (Ti) substrates by radio-frequency magnetron sputtering. The physico-chemical and mechanical characteristics, as well as the in vitro preliminary cytocompatibility and antibacterial performance of an alkali-free silica-rich bio-active glass coating designs was further explored. The films were smooth (RRMS < 1 nm) and hydrophilic (water contact angle of ~65°). The SBG coatings deposited from alkali-free copper-gallium co-doped FastOs®BG-derived exhibited improved wear performance, with the coatings eliciting a bonding strength value of ~53 MPa, Lc3 critical load value of ~4.9 N, hardness of ~6.1 GPa and an elastic modulus of ~127 GPa. The Cu and Ga co-doped SBG layers had excellent cytocompatibility, while reducing after 24 h the Staphylococcus aureus bacterial development with 4 orders of magnitude with respect to the control situations (i.e., nutritive broth and Ti substrate). Thereby, such SBG constructs could pave the road towards high-performance bio-functional coatings with excellent mechanical properties and enhanced biological features (e.g., by coupling cytocompatibility with antimicrobial properties), which are in great demand nowadays.
Highlights
The last decades witnessed an unprecedented demand for innovative bio-functional materials, capable of preventing failure, and prolonging the life time of orthopaedic/dental implants and bone grafting scaffolds
The atomic force microscopy (AFM) microscopic investigations revealed that the Silica-based bioactive glasses (SBG) films, regardless of their composition (i.e., FastOs® BG—-Figure 1a or Cu&Ga-FastOs® BG-derived—Figure 1b), had a highly similar morphology, being smooth and compact
The results showed that the films were, as intended, successfully enriched in results resultsshowed showedthat thatthe theSBG
Summary
The last decades witnessed an unprecedented demand for innovative bio-functional materials, capable of preventing failure, and prolonging the life time of orthopaedic/dental implants and bone grafting scaffolds. Over 30 years since its first implantation in 1985, 45S5 bioactive glass has been implanted into 1.5 million patients worldwide under various forms and trade names (e.g., Perioglas® , NovaBone® , Biogran® , NovaMin® , TeraSphere® ) [2,5]. Due to their high indices of bioactivity, 45S5-based formulations have been proposed as coating materials for the bio-functionalisation of various metallic titanium-based implants [7,9], to enhance their bone-bonding ability.
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