Progress in antibacterial/osteogenesis dual-functional surface modification strategy of titanium-based implants.

Peng Liu; Bo Fan; Lei Zou; Lijun LÜ; Qiuming Gao

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Progress in antibacterial/osteogenesis dual-functional surface modification strategy of titanium-based implants.

Author: Peng LIU ¹ ; Bo FAN ² ; Lei ZOU ² ; Lijun LÜ ² ; Qiuming GAO ²
Author Information

1. First School of Clinical Medicine, Gansu University of Chinese Medicine, Lanzhou Gansu, 730000, P. R. China.
2. Orthopaedic Center, the 940th Hospital of Chinese PLA Joint Logistics Support Force, Lanzhou Gansu, 730000, P. R. China.
Publication Type:Review
Keywords: Titanium; antibacterial; coating; osteogenesis; surface modification
MeSH: Anti-Bacterial Agents/pharmacology*; Coated Materials, Biocompatible/chemistry*; Metal-Organic Frameworks/pharmacology*; Osteogenesis; Surface Properties; Titanium/pharmacology*; Prostheses and Implants
From: Chinese Journal of Reparative and Reconstructive Surgery 2023;37(10):1300-1313
CountryChina
Language:Chinese
Abstract: OBJECTIVE:To review antibacterial/osteogenesis dual-functional surface modification strategy of titanium-based implants, so as to provide reference for subsequent research.
METHODS:The related research literature on antibacterial/osteogenesis dual-functional surface modification strategy of titanium-based implants in recent years was reviewed, and the research progress was summarized based on different kinds of antibacterial substances and osteogenic active substances.
RESULTS:At present, the antibacterial/osteogenesis dual-functional surface modification strategy of titanium-based implants includes: ① Combined coating strategy of antibiotics and osteogenic active substances. It is characterized in that antibiotics can be directly released around titanium-based implants, which can improve the bioavailability of drugs and reduce systemic toxicity. ② Combined coating strategy of antimicrobial peptides and osteogenic active substances. The antibacterial peptides have a wide antibacterial spectrum, and bacteria are not easy to produce drug resistance to them. ③ Combined coating strategy of inorganic antibacterial agent and osteogenic active substances. Metal ions or metal nanoparticles antibacterial agents have broad-spectrum antibacterial properties and various antibacterial mechanisms, but their high-dose application usually has cytotoxicity, so they are often combined with substances that osteogenic activity to reduce or eliminate cytotoxicity. In addition, inorganic coatings such as silicon nitride, calcium silicate, and graphene also have good antibacterial and osteogenic properties. ④ Combined coating strategy of metal organic frameworks/osteogenic active substances. The high specific surface area and porosity of metal organic frameworks can effectively package and transport antibacterial substances and bioactive molecules. ⑤ Combined coating strategy of organic substances/osteogenic active substancecs. Quaternary ammonium compounds, polyethylene glycol, N-haloamine, and other organic compounds have good antibacterial properties, and are often combined with hydroxyapatite and other substances that osteogenic activity.
CONCLUSION:The factors that affect the antibacterial and osteogenesis properties of titanium-based implants mainly include the structure and types of antibacterial substances, the structure and types of osteogenesis substances, and the coating process. At present, there is a lack of clinical verification of various strategies for antibacterial/osteogenesis dual-functional surface modification of titanium-based implants. The optimal combination, ratio, dose-effect mechanism, and corresponding coating preparation process of antibacterial substances and bone-active substances are needed to be constantly studied and improved.