In Vitro Degradation, Antibacterial Activity and Cytotoxicity of Mg-3Zn-xAg Nanocomposites Synthesized by Mechanical Alloying for Implant Applications
A class of biodegradable Mg-3Zn- x Ag nanocomposites was presented in the present study with the assessments for implant application. The evaluations included the effects of increasing the Ag content from 0.5 to 3 wt.% on the corrosion behavior, mechanical properties, antibacterial activity and cyto...
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Published in | Journal of materials engineering and performance Vol. 28; no. 3; pp. 1441 - 1455 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
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New York
Springer US
15.03.2019
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Abstract | A class of biodegradable Mg-3Zn-
x
Ag nanocomposites was presented in the present study with the assessments for implant application. The evaluations included the effects of increasing the Ag content from 0.5 to 3 wt.% on the corrosion behavior, mechanical properties, antibacterial activity and cytotoxicity of Mg-3Zn-
x
Ag nanocomposite. Microstructural analysis revealed the secondary phase intermetallic Mg
54
Ag
17
along the grain boundaries, with grain refinement as a result of increasing the Ag concentration. 0.5 wt.% Ag results in increasing the compressive strength and elongation; however, further addition decreases the compressive strength. The nanocomposite samples were verified for the improved antimicrobial activity by utilizing both
E. coli
and
S. aureus
bacteria, the growth of which was suppressed around all Ag-containing nanocomposites, whereas bacterial proliferations were detected around the Mg-3Zn nanocomposite. The escalating levels of Ag in the nanocomposite resulted in the elevated antimicrobial effect. Cell adhesion and proliferation were not significantly influenced by the inclusion of 0.5-1 wt% Ag into Mg-3Zn nanocomposite; however, cell adhesion and proliferation were lower on the surfaces of the nanocomposite containing 2-3 wt.% Ag counterparts. According to the mechanical, corrosion and biological assessments in the current research, it can be concluded that the nanocomposite containing 0.5 wt.% Ag can be properly applied as an orthopedic implant biomaterial. |
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AbstractList | A class of biodegradable Mg-3Zn-xAg nanocomposites was presented in the present study with the assessments for implant application. The evaluations included the effects of increasing the Ag content from 0.5 to 3 wt.% on the corrosion behavior, mechanical properties, antibacterial activity and cytotoxicity of Mg-3Zn-xAg nanocomposite. Microstructural analysis revealed the secondary phase intermetallic Mg{sub 54}Ag{sub 17} along the grain boundaries, with grain refinement as a result of increasing the Ag concentration. 0.5 wt.% Ag results in increasing the compressive strength and elongation; however, further addition decreases the compressive strength. The nanocomposite samples were verified for the improved antimicrobial activity by utilizing both E. coli and S. aureus bacteria, the growth of which was suppressed around all Ag-containing nanocomposites, whereas bacterial proliferations were detected around the Mg-3Zn nanocomposite. The escalating levels of Ag in the nanocomposite resulted in the elevated antimicrobial effect. Cell adhesion and proliferation were not significantly influenced by the inclusion of 0.5-1 wt% Ag into Mg-3Zn nanocomposite; however, cell adhesion and proliferation were lower on the surfaces of the nanocomposite containing 2-3 wt.% Ag counterparts. According to the mechanical, corrosion and biological assessments in the current research, it can be concluded that the nanocomposite containing 0.5 wt.% Ag can be properly applied as an orthopedic implant biomaterial. A class of biodegradable Mg-3Zn- x Ag nanocomposites was presented in the present study with the assessments for implant application. The evaluations included the effects of increasing the Ag content from 0.5 to 3 wt.% on the corrosion behavior, mechanical properties, antibacterial activity and cytotoxicity of Mg-3Zn- x Ag nanocomposite. Microstructural analysis revealed the secondary phase intermetallic Mg 54 Ag 17 along the grain boundaries, with grain refinement as a result of increasing the Ag concentration. 0.5 wt.% Ag results in increasing the compressive strength and elongation; however, further addition decreases the compressive strength. The nanocomposite samples were verified for the improved antimicrobial activity by utilizing both E. coli and S. aureus bacteria, the growth of which was suppressed around all Ag-containing nanocomposites, whereas bacterial proliferations were detected around the Mg-3Zn nanocomposite. The escalating levels of Ag in the nanocomposite resulted in the elevated antimicrobial effect. Cell adhesion and proliferation were not significantly influenced by the inclusion of 0.5-1 wt% Ag into Mg-3Zn nanocomposite; however, cell adhesion and proliferation were lower on the surfaces of the nanocomposite containing 2-3 wt.% Ag counterparts. According to the mechanical, corrosion and biological assessments in the current research, it can be concluded that the nanocomposite containing 0.5 wt.% Ag can be properly applied as an orthopedic implant biomaterial. |
Author | Razzaghi, Mahmood Kasiri-Asgarani, Masoud Ghayour, Hamid Bakhsheshi-Rad, Hamid Reza |
Author_xml | – sequence: 1 givenname: Mahmood surname: Razzaghi fullname: Razzaghi, Mahmood organization: Advanced Materials Research Center, Department of Materials Engineering, Najafabad Branch, Islamic Azad University – sequence: 2 givenname: Masoud surname: Kasiri-Asgarani fullname: Kasiri-Asgarani, Masoud email: m.kasiri.a@gmail.com, m.kasiri@pmt.iaun.ac.ir organization: Advanced Materials Research Center, Department of Materials Engineering, Najafabad Branch, Islamic Azad University – sequence: 3 givenname: Hamid Reza surname: Bakhsheshi-Rad fullname: Bakhsheshi-Rad, Hamid Reza organization: Advanced Materials Research Center, Department of Materials Engineering, Najafabad Branch, Islamic Azad University – sequence: 4 givenname: Hamid surname: Ghayour fullname: Ghayour, Hamid organization: Advanced Materials Research Center, Department of Materials Engineering, Najafabad Branch, Islamic Azad University |
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Snippet | A class of biodegradable Mg-3Zn-
x
Ag nanocomposites was presented in the present study with the assessments for implant application. The evaluations included... A class of biodegradable Mg-3Zn-xAg nanocomposites was presented in the present study with the assessments for implant application. The evaluations included... |
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SubjectTerms | BIOLOGICAL MATERIALS Characterization and Evaluation of Materials Chemistry and Materials Science COMPRESSION STRENGTH CORROSION Corrosion and Coatings CRYSTAL GROWTH Engineering Design GRAIN BOUNDARIES GRAIN REFINEMENT IMPLANTS INTERMETALLIC COMPOUNDS MATERIALS SCIENCE NANOCOMPOSITES Quality Control Reliability Safety and Risk SILVER TOXICITY Tribology |
Title | In Vitro Degradation, Antibacterial Activity and Cytotoxicity of Mg-3Zn-xAg Nanocomposites Synthesized by Mechanical Alloying for Implant Applications |
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