Titania Nanotube Architectures Synthesized on 3D-Printed Ti-6Al-4V Implant and Assessing Vancomycin Release Protocols

Titania Nanotube Architectures Synthesized on 3D-Printed Ti-6Al-4V Implant and Assessing Vancomycin Release Protocols

The aim of this study is to synthesize Titania nanotubes (TNTs) on the 3D-printed Ti-6Al-4V surface and investigate the loading of antibacterial vancomycin drug dose of 200 ppm for local drug treatment application for 24 h. The antibacterial drug release from synthesized nanotubes evaluated via the...

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Autores principales: H-thaichnok Chunate, Jirapon Khamwannah, Abdul Azeez Abdu Aliyu, Saran Tantavisut, Chedtha Puncreobutr, Atchara Khamkongkaeo, Chiraporn Tongyam, Krittima Tumkhanon, Thanawat Phetrattanarangsi, Theerapat Chanamuangkon, Torlarp Sitthiwanit, Dechawut Decha-umphai, Pharanroj Pongjirawish, Boonrat Lohwongwatana
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
3D printing
Ti-6Al-4V
titania nanotubes
vancomycin
electrostatic interaction
Technology
T
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
Engineering (General). Civil engineering (General)
TA1-2040
Microscopy
QH201-278.5
Descriptive and experimental mechanics
QC120-168.85
Acceso en línea:https://doaj.org/article/0c72fa2884584f98b8a2ff59ad753e90
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spelling oai:doaj.org-article:0c72fa2884584f98b8a2ff59ad753e902021-11-11T18:07:37ZTitania Nanotube Architectures Synthesized on 3D-Printed Ti-6Al-4V Implant and Assessing Vancomycin Release Protocols10.3390/ma142165761996-1944https://doaj.org/article/0c72fa2884584f98b8a2ff59ad753e902021-11-01T00:00:00Zhttps://www.mdpi.com/1996-1944/14/21/6576https://doaj.org/toc/1996-1944The aim of this study is to synthesize Titania nanotubes (TNTs) on the 3D-printed Ti-6Al-4V surface and investigate the loading of antibacterial vancomycin drug dose of 200 ppm for local drug treatment application for 24 h. The antibacterial drug release from synthesized nanotubes evaluated via the chemical surface measurement and the linear fitting of Korsmeyer–Peppas model was also assessed. The TNTs were synthesized on the Ti-6Al-4V surface through the anodization process at different anodization time. The TNTs morphology was characterized using field emission scanning electron microscope (FESEM). The wettability and the chemical composition of the Ti-6Al-4V surface and the TNTs were assessed using the contact angle meter, Fourier transform infrared spectrophotometer (FTIR) and the X-ray photoelectron spectroscopy (XPS). The vancomycin of 200 ppm release behavior under controlled atmosphere was measured by the high-performance liquid chromatography (HPLC) and hence, the position for retention time at 2.5 min was ascertained. The FESEM analysis confirmed the formation of nanostructured TNTs with vertically oriented, closely packed, smooth and unperforated walls. The maximum cumulative vancomycin release of 34.7% (69.5 ppm) was recorded at 24 h. The wetting angle of both Ti-6Al-4V implant and the TNTs were found below 90 degrees. This confirmed their excellent wettability.H-thaichnok ChunateJirapon KhamwannahAbdul Azeez Abdu AliyuSaran TantavisutChedtha PuncreobutrAtchara KhamkongkaeoChiraporn TongyamKrittima TumkhanonThanawat PhetrattanarangsiTheerapat ChanamuangkonTorlarp SitthiwanitDechawut Decha-umphaiPharanroj PongjirawishBoonrat LohwongwatanaMDPI AGarticle3D printingTi-6Al-4Vtitania nanotubesvancomycinelectrostatic interactionTechnologyTElectrical engineering. Electronics. Nuclear engineeringTK1-9971Engineering (General). Civil engineering (General)TA1-2040MicroscopyQH201-278.5Descriptive and experimental mechanicsQC120-168.85ENMaterials, Vol 14, Iss 6576, p 6576 (2021)
institution DOAJ
collection DOAJ
language EN
topic 3D printing
Ti-6Al-4V
titania nanotubes
vancomycin
electrostatic interaction
Technology
T
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
Engineering (General). Civil engineering (General)
TA1-2040
Microscopy
QH201-278.5
Descriptive and experimental mechanics
QC120-168.85
spellingShingle 3D printing
Ti-6Al-4V
titania nanotubes
vancomycin
electrostatic interaction
Technology
T
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
Engineering (General). Civil engineering (General)
TA1-2040
Microscopy
QH201-278.5
Descriptive and experimental mechanics
QC120-168.85
H-thaichnok Chunate
Jirapon Khamwannah
Abdul Azeez Abdu Aliyu
Saran Tantavisut
Chedtha Puncreobutr
Atchara Khamkongkaeo
Chiraporn Tongyam
Krittima Tumkhanon
Thanawat Phetrattanarangsi
Theerapat Chanamuangkon
Torlarp Sitthiwanit
Dechawut Decha-umphai
Pharanroj Pongjirawish
Boonrat Lohwongwatana
Titania Nanotube Architectures Synthesized on 3D-Printed Ti-6Al-4V Implant and Assessing Vancomycin Release Protocols
description The aim of this study is to synthesize Titania nanotubes (TNTs) on the 3D-printed Ti-6Al-4V surface and investigate the loading of antibacterial vancomycin drug dose of 200 ppm for local drug treatment application for 24 h. The antibacterial drug release from synthesized nanotubes evaluated via the chemical surface measurement and the linear fitting of Korsmeyer–Peppas model was also assessed. The TNTs were synthesized on the Ti-6Al-4V surface through the anodization process at different anodization time. The TNTs morphology was characterized using field emission scanning electron microscope (FESEM). The wettability and the chemical composition of the Ti-6Al-4V surface and the TNTs were assessed using the contact angle meter, Fourier transform infrared spectrophotometer (FTIR) and the X-ray photoelectron spectroscopy (XPS). The vancomycin of 200 ppm release behavior under controlled atmosphere was measured by the high-performance liquid chromatography (HPLC) and hence, the position for retention time at 2.5 min was ascertained. The FESEM analysis confirmed the formation of nanostructured TNTs with vertically oriented, closely packed, smooth and unperforated walls. The maximum cumulative vancomycin release of 34.7% (69.5 ppm) was recorded at 24 h. The wetting angle of both Ti-6Al-4V implant and the TNTs were found below 90 degrees. This confirmed their excellent wettability.
format article
author H-thaichnok Chunate
Jirapon Khamwannah
Abdul Azeez Abdu Aliyu
Saran Tantavisut
Chedtha Puncreobutr
Atchara Khamkongkaeo
Chiraporn Tongyam
Krittima Tumkhanon
Thanawat Phetrattanarangsi
Theerapat Chanamuangkon
Torlarp Sitthiwanit
Dechawut Decha-umphai
Pharanroj Pongjirawish
Boonrat Lohwongwatana
author_facet H-thaichnok Chunate
Jirapon Khamwannah
Abdul Azeez Abdu Aliyu
Saran Tantavisut
Chedtha Puncreobutr
Atchara Khamkongkaeo
Chiraporn Tongyam
Krittima Tumkhanon
Thanawat Phetrattanarangsi
Theerapat Chanamuangkon
Torlarp Sitthiwanit
Dechawut Decha-umphai
Pharanroj Pongjirawish
Boonrat Lohwongwatana
author_sort H-thaichnok Chunate
title Titania Nanotube Architectures Synthesized on 3D-Printed Ti-6Al-4V Implant and Assessing Vancomycin Release Protocols
title_short Titania Nanotube Architectures Synthesized on 3D-Printed Ti-6Al-4V Implant and Assessing Vancomycin Release Protocols
title_full Titania Nanotube Architectures Synthesized on 3D-Printed Ti-6Al-4V Implant and Assessing Vancomycin Release Protocols
title_fullStr Titania Nanotube Architectures Synthesized on 3D-Printed Ti-6Al-4V Implant and Assessing Vancomycin Release Protocols
title_full_unstemmed Titania Nanotube Architectures Synthesized on 3D-Printed Ti-6Al-4V Implant and Assessing Vancomycin Release Protocols
title_sort titania nanotube architectures synthesized on 3d-printed ti-6al-4v implant and assessing vancomycin release protocols
publisher MDPI AG
publishDate 2021
url https://doaj.org/article/0c72fa2884584f98b8a2ff59ad753e90
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