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Creation of a Composite Bioactive Coating with Antibacterial Effect Promising for Bone Implantation. / Zemtsova, Elena G.; Kozlova, Lada A.; Yudintceva, Natalia M.; Sokolova, Daria N.; Arbenin, Andrey Yu.; Ponomareva, Alexandra N.; Korusenko, Petr M.; Kraeva, Ludmila A.; Rogacheva, Elizaveta V.; Smirnov, Vladimir M.

In: Molecules, Vol. 28, No. 3, 02.02.2023, p. 1416.

Research output: Contribution to journalArticlepeer-review

Harvard

Zemtsova, EG, Kozlova, LA, Yudintceva, NM, Sokolova, DN, Arbenin, AY, Ponomareva, AN, Korusenko, PM, Kraeva, LA, Rogacheva, EV & Smirnov, VM 2023, 'Creation of a Composite Bioactive Coating with Antibacterial Effect Promising for Bone Implantation', Molecules, vol. 28, no. 3, pp. 1416. https://doi.org/10.3390/molecules28031416

APA

Zemtsova, E. G., Kozlova, L. A., Yudintceva, N. M., Sokolova, D. N., Arbenin, A. Y., Ponomareva, A. N., Korusenko, P. M., Kraeva, L. A., Rogacheva, E. V., & Smirnov, V. M. (2023). Creation of a Composite Bioactive Coating with Antibacterial Effect Promising for Bone Implantation. Molecules, 28(3), 1416. https://doi.org/10.3390/molecules28031416

Vancouver

Zemtsova EG, Kozlova LA, Yudintceva NM, Sokolova DN, Arbenin AY, Ponomareva AN et al. Creation of a Composite Bioactive Coating with Antibacterial Effect Promising for Bone Implantation. Molecules. 2023 Feb 2;28(3):1416. https://doi.org/10.3390/molecules28031416

Author

Zemtsova, Elena G. ; Kozlova, Lada A. ; Yudintceva, Natalia M. ; Sokolova, Daria N. ; Arbenin, Andrey Yu. ; Ponomareva, Alexandra N. ; Korusenko, Petr M. ; Kraeva, Ludmila A. ; Rogacheva, Elizaveta V. ; Smirnov, Vladimir M. / Creation of a Composite Bioactive Coating with Antibacterial Effect Promising for Bone Implantation. In: Molecules. 2023 ; Vol. 28, No. 3. pp. 1416.

BibTeX

@article{5a4570f34ae1442290dd0924e0ab2cee,
title = "Creation of a Composite Bioactive Coating with Antibacterial Effect Promising for Bone Implantation",
abstract = "When creating titanium-containing bone implants, the bioactive coatings that promote their rapid engraftment are important. The engraftment rate of titanium implants with bone tissue depends significantly on the modification of the implant surface. It is achieved by changing either the relief or the chemical composition of the surface layer, as well as a combination of these two factors. In this work, we studied the creation of composite coatings with a two-level (the micro- and nanolevel) hierarchy of the surface relief, which have bioactive and bactericidal properties, which are promising for bone implantation. Using the developed non-lithographic template electrochemical synthesis, a composite coating on titanium with a controlled surface structure was created based on an island-type TiO2 film, silver and hydroxyapatite (HAp). This TiO2/Ag/HAp composite coating has a developed surface relief at the micro- and nanolevels and has a significant cytological response and the ability to accelerate osteosynthesis, and also has an antibacterial effect. Thus, the developed biomaterial is suitable for production of dental and orthopedic implants with improved biomedical properties.",
keywords = "implant, template, electrochemical synthesis, bioactive coating, TiO2/Ag/HAp composite, hydroxyapatite (HAp), titanium dioxide (TiO2), silver (Ag), titanium (Ti), template, implant, electrochemical synthesis, silver (Ag), titanium (Ti), titanium dioxide (TiO2), hydroxyapatite (HAp), TiO2/Ag/HAp composite, bioactive coating",
author = "Zemtsova, {Elena G.} and Kozlova, {Lada A.} and Yudintceva, {Natalia M.} and Sokolova, {Daria N.} and Arbenin, {Andrey Yu.} and Ponomareva, {Alexandra N.} and Korusenko, {Petr M.} and Kraeva, {Ludmila A.} and Rogacheva, {Elizaveta V.} and Smirnov, {Vladimir M.}",
note = "Zemtsova, E.G.; Kozlova, L.A.; Yudintceva, N.M.; Sokolova, D.N.; Arbenin, A.Y.; Ponomareva, A.N.; Korusenko, P.M.; Kraeva, L.A.; Rogacheva, E.V.; Smirnov, V.M. Creation of a Composite Bioactive Coating with Antibacterial Effect Promising for Bone Implantation. Molecules 2023, 28, 1416. https://doi.org/10.3390/molecules28031416",
year = "2023",
month = feb,
day = "2",
doi = "10.3390/molecules28031416",
language = "English",
volume = "28",
pages = "1416",
journal = "Molecules",
issn = "1420-3049",
publisher = "MDPI AG",
number = "3",

}

RIS

TY - JOUR

T1 - Creation of a Composite Bioactive Coating with Antibacterial Effect Promising for Bone Implantation

AU - Zemtsova, Elena G.

AU - Kozlova, Lada A.

AU - Yudintceva, Natalia M.

AU - Sokolova, Daria N.

AU - Arbenin, Andrey Yu.

AU - Ponomareva, Alexandra N.

AU - Korusenko, Petr M.

AU - Kraeva, Ludmila A.

AU - Rogacheva, Elizaveta V.

AU - Smirnov, Vladimir M.

N1 - Zemtsova, E.G.; Kozlova, L.A.; Yudintceva, N.M.; Sokolova, D.N.; Arbenin, A.Y.; Ponomareva, A.N.; Korusenko, P.M.; Kraeva, L.A.; Rogacheva, E.V.; Smirnov, V.M. Creation of a Composite Bioactive Coating with Antibacterial Effect Promising for Bone Implantation. Molecules 2023, 28, 1416. https://doi.org/10.3390/molecules28031416

PY - 2023/2/2

Y1 - 2023/2/2

N2 - When creating titanium-containing bone implants, the bioactive coatings that promote their rapid engraftment are important. The engraftment rate of titanium implants with bone tissue depends significantly on the modification of the implant surface. It is achieved by changing either the relief or the chemical composition of the surface layer, as well as a combination of these two factors. In this work, we studied the creation of composite coatings with a two-level (the micro- and nanolevel) hierarchy of the surface relief, which have bioactive and bactericidal properties, which are promising for bone implantation. Using the developed non-lithographic template electrochemical synthesis, a composite coating on titanium with a controlled surface structure was created based on an island-type TiO2 film, silver and hydroxyapatite (HAp). This TiO2/Ag/HAp composite coating has a developed surface relief at the micro- and nanolevels and has a significant cytological response and the ability to accelerate osteosynthesis, and also has an antibacterial effect. Thus, the developed biomaterial is suitable for production of dental and orthopedic implants with improved biomedical properties.

AB - When creating titanium-containing bone implants, the bioactive coatings that promote their rapid engraftment are important. The engraftment rate of titanium implants with bone tissue depends significantly on the modification of the implant surface. It is achieved by changing either the relief or the chemical composition of the surface layer, as well as a combination of these two factors. In this work, we studied the creation of composite coatings with a two-level (the micro- and nanolevel) hierarchy of the surface relief, which have bioactive and bactericidal properties, which are promising for bone implantation. Using the developed non-lithographic template electrochemical synthesis, a composite coating on titanium with a controlled surface structure was created based on an island-type TiO2 film, silver and hydroxyapatite (HAp). This TiO2/Ag/HAp composite coating has a developed surface relief at the micro- and nanolevels and has a significant cytological response and the ability to accelerate osteosynthesis, and also has an antibacterial effect. Thus, the developed biomaterial is suitable for production of dental and orthopedic implants with improved biomedical properties.

KW - implant

KW - template

KW - electrochemical synthesis

KW - bioactive coating

KW - TiO2/Ag/HAp composite

KW - hydroxyapatite (HAp)

KW - titanium dioxide (TiO2)

KW - silver (Ag)

KW - titanium (Ti)

KW - template

KW - implant

KW - electrochemical synthesis

KW - silver (Ag)

KW - titanium (Ti)

KW - titanium dioxide (TiO2)

KW - hydroxyapatite (HAp)

KW - TiO2/Ag/HAp composite

KW - bioactive coating

UR - https://www.mendeley.com/catalogue/a46d5d33-512b-39ff-8f34-fe00a9c55475/

U2 - 10.3390/molecules28031416

DO - 10.3390/molecules28031416

M3 - Article

VL - 28

SP - 1416

JO - Molecules

JF - Molecules

SN - 1420-3049

IS - 3

ER -

ID: 104026238