Synergistic catecholamine and coordination chemistry for enhanced bioactivity and secondary grafting activity of zirconia dental implants

The inherent bioinertness of zirconia (ZrO2) hinders its early bone integration, presenting a significant obstacle to its widespread use in dental implant technologies. Addressing this, we developed a surface coating leveraging the synergistic effects of catecholamine and coordination chemistry insp...

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Published in:Colloids and surfaces, B, Biointerfaces B, Biointerfaces, 2025-02, Vol.246, p.114361, Article 114361
Main Authors: Gao, Peng, Zhang, Qihong, Sun, Yingyue, Cheng, Huan, Wu, Shuyi, Zhang, Yinyan, Si, Wen, Sun, Haobo, Sun, Ningyao, Yang, Jing, Cai, Kaiyong, Lu, Lei, Liu, Jinsong
Format: Article
Language:English
Subjects:
Animals
Anti-Bacterial Agents - chemistry
Anti-Bacterial Agents - pharmacology
Bacteriostasis
Catecholamines - chemistry
Coated Materials, Biocompatible - chemistry
Coated Materials, Biocompatible - pharmacology
Dental Implants
Indoles - chemistry
Indoles - pharmacology
Mice
Osteogenesis
Osteogenesis - drug effects
Particle Size
Polyamines - chemistry
Polyamines - pharmacology
Polymers - chemistry
Polymers - pharmacology
Strontium - chemistry
Strontium - pharmacology
Surface modification
Surface Properties
Zirconia implant
Zirconium - chemistry
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Summary:The inherent bioinertness of zirconia (ZrO2) hinders its early bone integration, presenting a significant obstacle to its widespread use in dental implant technologies. Addressing this, we developed a surface coating leveraging the synergistic effects of catecholamine and coordination chemistry inspired by the mussel byssus cuticle. This coating, named PDPA@Sr, is enriched with strontium ions and amine groups, resulting from a simple immersion of polydopamine (PD)-coated ZrO2 in an alkaline strontium chloride and poly(allylamine) (PA) solution. Compared to conventional mussel-inspired PD coatings, PDPA@Sr demonstrates enhanced aesthetic properties and mechanical stability. The continuous release of strontium ions from the coating significantly enhances osteogenesis, while the abundant surface amine groups offer notable antibacterial effects. More importantly, these amine groups also enable a variety of chemical modifications, including electrostatic adsorption, carbodiimide chemistry, Michael addition, Schiff base formation, and click chemistry, thus providing a multifaceted platform for the advanced surface modification of ZrO2 implants. •The PDPA@Sr coating promotes bone formation and inhibits bacterial growth.•The coating offers enhanced stability and allows for customizable hue adjustment.•The amino-rich coating provides a platform for customizable functionalities.
ISSN:0927-7765
1873-4367
1873-4367
DOI:10.1016/j.colsurfb.2024.114361