Osteoconductive phosphoserine-modified poly({varepsilon}-lysine) dendrons: synthesis, titanium oxide surface functionalization and response of osteoblast-like cell lines.

The lack of direct bonding between the surface of an implant and the mineralized bony tissue is among the main causes of aseptic loosening in titanium-based implants. Surface etching and ceramic coatings have led to improved osteointegration, but their clinical performance is still limited either by partial bonding or by coating delamination. In this work, a solid-phase synthesis method has been optimized to produce poly(ε-lysine) dendrons, the outermost branching generation of which is functionalized by phosphoserine (PS), a known catalyst of the biomineralization process. The dendrons were deposited onto etched titanium oxide surfaces as a near-to-monolayer film able to induce the formation of a homogeneous calcium phosphate phase in a simulated body fluid over 3 days. The dendron films also stimulated MG63 and SAOS-2 osteoblast-like cells to proliferate at a rate significantly higher than etched titanium, with SAOS-2 also showing a higher degree of differentiation over 14 days. PS-tethered dendron films were not affected by various sterilization methods and UV treatment appeared to improve the cell substrate potential of these films, thus suggesting their potential as a surface functionalization method for bone implants.

Citation

S T Meikle, G Bianchi, G Olivier, M Santin. Osteoconductive phosphoserine-modified poly({varepsilon}-lysine) dendrons: synthesis, titanium oxide surface functionalization and response of osteoblast-like cell lines. Journal of the Royal Society, Interface. 2013 Feb;10(79):20120765

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PMID: 23193106

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