A drug-loaded composite coating to improve osteogenic and antibacterial properties of Zn–1Mg porous scaffolds as biodegradable bone implants

Zinc (Zn) alloy porous scaffolds produced by additive manufacturing own customizable structures and biodegradable functions, having a great application potential for repairing bone defect. In this work, a hydroxyapatite (HA)/polydopamine (PDA) composite coating was constructed on the surface of Zn–1...

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Autores principales: Zhang, Zhenbao, Liu, Aobo, Fan, Jiadong, Wang, Menglin, Dai, Jiabao, Jin, Xiang, Deng, Huanze, Wang, Xuan, Liang, Yijie, Li, Haixia, Zhao, Yantao, Wen, Peng, Li, Yanfeng
Formato: Online Artículo Texto
Lenguaje:English
Publicado: KeAi Publishing 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10173180/
https://www.ncbi.nlm.nih.gov/pubmed/37180641
http://dx.doi.org/10.1016/j.bioactmat.2023.04.017
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author Zhang, Zhenbao
Liu, Aobo
Fan, Jiadong
Wang, Menglin
Dai, Jiabao
Jin, Xiang
Deng, Huanze
Wang, Xuan
Liang, Yijie
Li, Haixia
Zhao, Yantao
Wen, Peng
Li, Yanfeng
author_facet Zhang, Zhenbao
Liu, Aobo
Fan, Jiadong
Wang, Menglin
Dai, Jiabao
Jin, Xiang
Deng, Huanze
Wang, Xuan
Liang, Yijie
Li, Haixia
Zhao, Yantao
Wen, Peng
Li, Yanfeng
author_sort Zhang, Zhenbao
collection PubMed
description Zinc (Zn) alloy porous scaffolds produced by additive manufacturing own customizable structures and biodegradable functions, having a great application potential for repairing bone defect. In this work, a hydroxyapatite (HA)/polydopamine (PDA) composite coating was constructed on the surface of Zn–1Mg porous scaffolds fabricated by laser powder bed fusion, and was loaded with a bioactive factor BMP2 and an antibacterial drug vancomycin. The microstructure, degradation behavior, biocompatibility, antibacterial performance and osteogenic activities were systematically investigated. Compared with as-built Zn–1Mg scaffolds, the rapid increase of Zn(2+), which resulted to the deteriorated cell viability and osteogenic differentiation, was inhibited due to the physical barrier of the composite coating. In vitro cellular and bacterial assay indicated that the loaded BMP2 and vancomycin considerably enhanced the cytocompatibility and antibacterial performance. Significantly improved osteogenic and antibacterial functions were also observed according to in vivo implantation in the lateral femoral condyle of rats. The design, influence and mechanism of the composite coating were discussed accordingly. It was concluded that the additively manufactured Zn–1Mg porous scaffolds together with the composite coating could modulate biodegradable performance and contribute to effective promotion of bone recovery and antibacterial function.
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spelling pubmed-101731802023-05-12 A drug-loaded composite coating to improve osteogenic and antibacterial properties of Zn–1Mg porous scaffolds as biodegradable bone implants Zhang, Zhenbao Liu, Aobo Fan, Jiadong Wang, Menglin Dai, Jiabao Jin, Xiang Deng, Huanze Wang, Xuan Liang, Yijie Li, Haixia Zhao, Yantao Wen, Peng Li, Yanfeng Bioact Mater Article Zinc (Zn) alloy porous scaffolds produced by additive manufacturing own customizable structures and biodegradable functions, having a great application potential for repairing bone defect. In this work, a hydroxyapatite (HA)/polydopamine (PDA) composite coating was constructed on the surface of Zn–1Mg porous scaffolds fabricated by laser powder bed fusion, and was loaded with a bioactive factor BMP2 and an antibacterial drug vancomycin. The microstructure, degradation behavior, biocompatibility, antibacterial performance and osteogenic activities were systematically investigated. Compared with as-built Zn–1Mg scaffolds, the rapid increase of Zn(2+), which resulted to the deteriorated cell viability and osteogenic differentiation, was inhibited due to the physical barrier of the composite coating. In vitro cellular and bacterial assay indicated that the loaded BMP2 and vancomycin considerably enhanced the cytocompatibility and antibacterial performance. Significantly improved osteogenic and antibacterial functions were also observed according to in vivo implantation in the lateral femoral condyle of rats. The design, influence and mechanism of the composite coating were discussed accordingly. It was concluded that the additively manufactured Zn–1Mg porous scaffolds together with the composite coating could modulate biodegradable performance and contribute to effective promotion of bone recovery and antibacterial function. KeAi Publishing 2023-04-28 /pmc/articles/PMC10173180/ /pubmed/37180641 http://dx.doi.org/10.1016/j.bioactmat.2023.04.017 Text en © 2023 The Authors https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Zhang, Zhenbao
Liu, Aobo
Fan, Jiadong
Wang, Menglin
Dai, Jiabao
Jin, Xiang
Deng, Huanze
Wang, Xuan
Liang, Yijie
Li, Haixia
Zhao, Yantao
Wen, Peng
Li, Yanfeng
A drug-loaded composite coating to improve osteogenic and antibacterial properties of Zn–1Mg porous scaffolds as biodegradable bone implants
title A drug-loaded composite coating to improve osteogenic and antibacterial properties of Zn–1Mg porous scaffolds as biodegradable bone implants
title_full A drug-loaded composite coating to improve osteogenic and antibacterial properties of Zn–1Mg porous scaffolds as biodegradable bone implants
title_fullStr A drug-loaded composite coating to improve osteogenic and antibacterial properties of Zn–1Mg porous scaffolds as biodegradable bone implants
title_full_unstemmed A drug-loaded composite coating to improve osteogenic and antibacterial properties of Zn–1Mg porous scaffolds as biodegradable bone implants
title_short A drug-loaded composite coating to improve osteogenic and antibacterial properties of Zn–1Mg porous scaffolds as biodegradable bone implants
title_sort drug-loaded composite coating to improve osteogenic and antibacterial properties of zn–1mg porous scaffolds as biodegradable bone implants
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10173180/
https://www.ncbi.nlm.nih.gov/pubmed/37180641
http://dx.doi.org/10.1016/j.bioactmat.2023.04.017
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