Building biointegration of Fe(2)O(3)–FeOOH coated titanium implant by regulating NIR irradiation in an infected model

Killing bacteria, eliminating biofilm and building soft tissue integration are very important for percutaneous implants which service in a complicated environment. In order to endow Ti implants with above abilities, multifunctional coatings consisted of Fe(2)O(3)–FeOOH nanograins as an outer layer a...

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Detalles Bibliográficos
Autores principales: Xue, Yang, Chen, Jun, Ding, Tiexin, Mao, Mengting, Zhu, Shengbo, Zhou, Jianhong, Zhang, Lan, Han, Yong
Formato: Online Artículo Texto
Lenguaje:English
Publicado: KeAi Publishing 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8424078/
https://www.ncbi.nlm.nih.gov/pubmed/34541382
http://dx.doi.org/10.1016/j.bioactmat.2021.06.029
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author Xue, Yang
Chen, Jun
Ding, Tiexin
Mao, Mengting
Zhu, Shengbo
Zhou, Jianhong
Zhang, Lan
Han, Yong
author_facet Xue, Yang
Chen, Jun
Ding, Tiexin
Mao, Mengting
Zhu, Shengbo
Zhou, Jianhong
Zhang, Lan
Han, Yong
author_sort Xue, Yang
collection PubMed
description Killing bacteria, eliminating biofilm and building soft tissue integration are very important for percutaneous implants which service in a complicated environment. In order to endow Ti implants with above abilities, multifunctional coatings consisted of Fe(2)O(3)–FeOOH nanograins as an outer layer and Zn doped microporous TiO(2) as an inner layer were fabricated by micro-arc oxidation, hydrothermal treatment and annealing treatment. The microstructures, physicochemical properties and photothermal response of the coatings were observed; their antibacterial efficiencies and cell response in vitro as well as biofilm elimination and soft tissue integration in vivo were evaluated. The results show that with the increased annealing temperature, coating morphologies didn't change obviously, but lattices of β-FeOOH gradually disorganized into amorphous state and rearranged to form Fe(2)O(3.) The coating annealed at 450 °C (MA450) had nanocrystallized Fe(2)O(3) and β-FeOOH. With a proper NIR irradiation strategy, MA450 killed adhered bacteria efficiently and increased fibroblast behaviors via up-regulating fibrogenic-related genes in vitro; in an infected model, MA450 eliminated biofilm, reduced inflammatory response and improved biointegration with soft tissue. The good performance of MA450 was due to a synergic effect of photothermal response and released ions (Zn(2+) and Fe(3+)).
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spelling pubmed-84240782021-09-17 Building biointegration of Fe(2)O(3)–FeOOH coated titanium implant by regulating NIR irradiation in an infected model Xue, Yang Chen, Jun Ding, Tiexin Mao, Mengting Zhu, Shengbo Zhou, Jianhong Zhang, Lan Han, Yong Bioact Mater Article Killing bacteria, eliminating biofilm and building soft tissue integration are very important for percutaneous implants which service in a complicated environment. In order to endow Ti implants with above abilities, multifunctional coatings consisted of Fe(2)O(3)–FeOOH nanograins as an outer layer and Zn doped microporous TiO(2) as an inner layer were fabricated by micro-arc oxidation, hydrothermal treatment and annealing treatment. The microstructures, physicochemical properties and photothermal response of the coatings were observed; their antibacterial efficiencies and cell response in vitro as well as biofilm elimination and soft tissue integration in vivo were evaluated. The results show that with the increased annealing temperature, coating morphologies didn't change obviously, but lattices of β-FeOOH gradually disorganized into amorphous state and rearranged to form Fe(2)O(3.) The coating annealed at 450 °C (MA450) had nanocrystallized Fe(2)O(3) and β-FeOOH. With a proper NIR irradiation strategy, MA450 killed adhered bacteria efficiently and increased fibroblast behaviors via up-regulating fibrogenic-related genes in vitro; in an infected model, MA450 eliminated biofilm, reduced inflammatory response and improved biointegration with soft tissue. The good performance of MA450 was due to a synergic effect of photothermal response and released ions (Zn(2+) and Fe(3+)). KeAi Publishing 2021-06-29 /pmc/articles/PMC8424078/ /pubmed/34541382 http://dx.doi.org/10.1016/j.bioactmat.2021.06.029 Text en © 2021 The Authors https://creativecommons.org/licenses/by/4.0/This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Xue, Yang
Chen, Jun
Ding, Tiexin
Mao, Mengting
Zhu, Shengbo
Zhou, Jianhong
Zhang, Lan
Han, Yong
Building biointegration of Fe(2)O(3)–FeOOH coated titanium implant by regulating NIR irradiation in an infected model
title Building biointegration of Fe(2)O(3)–FeOOH coated titanium implant by regulating NIR irradiation in an infected model
title_full Building biointegration of Fe(2)O(3)–FeOOH coated titanium implant by regulating NIR irradiation in an infected model
title_fullStr Building biointegration of Fe(2)O(3)–FeOOH coated titanium implant by regulating NIR irradiation in an infected model
title_full_unstemmed Building biointegration of Fe(2)O(3)–FeOOH coated titanium implant by regulating NIR irradiation in an infected model
title_short Building biointegration of Fe(2)O(3)–FeOOH coated titanium implant by regulating NIR irradiation in an infected model
title_sort building biointegration of fe(2)o(3)–feooh coated titanium implant by regulating nir irradiation in an infected model
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8424078/
https://www.ncbi.nlm.nih.gov/pubmed/34541382
http://dx.doi.org/10.1016/j.bioactmat.2021.06.029
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