期刊
COLLOID AND INTERFACE SCIENCE COMMUNICATIONS
卷 48, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.colcom.2022.100614
关键词
Polyelectrolyte coating; Metallic substrates; Controlled release; Bone morphogenetic protein 2; Antibacterial property
资金
- National Nat-ural Science Foundation of China [81902211, 82030069, 81772351, 8151001184]
- Jiangsu Natural Science Foundation [BK20191061]
- Jiangsu Committee of Science andTechnology-Social Development Plan [BE2017755]
This study designed a multilayer polyelectrolyte coating that can promote the integration of metallic implants with bone and possess antibacterial properties. Stable coatings were constructed on titanium alloy substrates using a layer-by-layer technology, allowing for the sustained release of bone morphogenetic protein 2 and promotion of cell differentiation. Additionally, the polycationic component in the coating significantly improved the antibacterial properties of the titanium alloy surface.
The development of advanced technology to promote osteo-integration of metallic implants and to solve bacteria-associated infection is one of the urgent clinical requirements. A multilayer polyelectrolyte coating composed of phosphonate/quaternary amine block polymer (pDEMMP-co-pTMAEMA), polymethacrylic acid (PMAA) and polyethylenimine (PEI) was designed as the dual functional coating. Through a layer-by-layer technology, stable coatings were constructed on Ti alloy plate (TC4) substrates based on the strong covalent binding between phosphonate group and metallic substrate, and the electrostatic interaction between oppositely charged polymers. The polymeric coating enabled a high-efficiency sustained release of recombinant human bone morphogenetic protein 2 (rhBMP-2) from the TC4 substrates and promoted the trans-differentiation of C2C12 cells to osteoblast cells. Meanwhile, the polycationic component in the polyelectrolyte coating significantly improved the antibacterial properties of titanium alloy surface. The polyelectrolyte coating demonstrated here is a promising candidate to increase the osteo-integration and antibacterial property of metallic implants.
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