Your search keyword '"Ion-substituted hydroxyapatite"' showing total 3 results

1. Fabrication and characterization of biomimetic hydroxyapatite thin films for bone implants by direct ablation of a biogenic source.

Author

Graziani, Gabriela, Berni, Matteo, Gambardella, Alessandro, De Carolis, Monica, Maltarello, Maria Cristina, Boi, Marco, Carnevale, Gianluca, and Bianchi, Michele

Subjects

*BIOMIMETIC materials, *HYDROXYAPATITE coating, *THIN films

Abstract

Abstract Biomimetic bone apatite coatings were realized for the first time by the novel Ionized Jet Deposition technique. Bone coatings were deposited on titanium alloy substrates by pulsed electron ablation of deproteinized bovine bone shafts in order to resemble bone apatite as closely as possible. The composition, morphology and mechanical properties of the coatings were characterized by GI-XRD, FT-IR, SEM-EDS, AFM, contact angle measurements, micro-scratch and screw-insertion tests. Different post-treatment annealing conditions (from 350 °C to 425 °C) were investigated. Bone apatite coatings exhibited a nanostructured surface morphology and a composition closely resembling that of the deposition target (i.e. natural bone apatite), also regarding the presence of magnesium and sodium ions. Crystallinity and composition of the coatings were strongly influenced by annealing temperature and duration; in particular, upon annealing at 400 °C and above, a crystallinity similar to that of bone was achieved. Finally, adhesion to the titanium substrate and hydrophilicity were significantly enhanced upon annealing, all characteristics being known to have a strong positive impact on promoting host cells attachment, proliferation and differentiation. Highlights • Biomimetic thin films were obtained by pulsed electron deposition. • Films obtained exhibit composition perfectly resembling the deposition targets. • Film crystallinity is tuned by post heating treatment up to resembling that of bone. • Upon annealing, high adhesion and good hydrophilicity can also be obtained. [ABSTRACT FROM AUTHOR]

Published

2019

2. Strontium incorporation to optimize the antibacterial and biological characteristics of silver-substituted hydroxyapatite coating.

Author

Geng, Zhen, Cui, Zhenduo, Li, Zhaoyang, Zhu, Shengli, Liang, Yanqin, Liu, Yunde, Li, Xue, He, Xin, Yu, Xiaoxu, Wang, Renfeng, and Yang, Xianjin

Subjects

*ANTIBACTERIAL agents, *STRONTIUM, *SILVER nanoparticles, *HYDROXYAPATITE coating, *ARTIFICIAL joints, *DOPAMINE, *NOSOCOMIAL infections

Abstract

Infection in primary total joint prostheses is attracting considerable attention. In this study, silver (Ag) was incorporated into hydroxyapatite (HA) using a hydrothermal method in order to improve its antimicrobial properties. Strontium (Sr) was added as a second binary element to improve the biocompatibility. The substituted HA samples were fixed on titanium (Ti) substrates by dopamine-assisted immobilization in order to evaluate their antibacterial and biological properties. The results showed that Ag and Sr were successfully incorporated into HA without affecting their crystallinity. Further, the antibacterial tests showed that all the Ag-substituted samples had good anti-bacterial properties against Escherichia coli ( E. coli ) and Staphylococcus aureus ( S. aureus ). Despite their good antibacterial ability, the Ag-substituted samples showed evidence of cytotoxicity on MG63 cells, characterized by low cell density and poor spreadability. The addition of Sr to the Ag-substituted samples considerably reduced the cytotoxicity of Ag. Although the viability of the cells grown on the surfaces of co-substituted HA was not as high as that of the cells grown on the HA surfaces, it is believed that excellent antibacterial properties and good biological activity can be achieved by balancing the dosage of Sr and Ag. [ABSTRACT FROM AUTHOR]

Published

2016

3. Experimental characterization and theoretical investigation of Ce/Yb co-doped hydroxyapatites.

Author

Acar, Serdar, Kaygili, Omer, Ates, Tankut, Dorozhkin, Sergey V., Bulut, Niyazi, Ates, Burhan, Koytepe, Suleyman, Ercan, Filiz, Kebiroglu, Hanifi, and Hssain, Ala Hamd

Subjects

*YTTERBIUM, *CELL size, *CELL survival, *UNIT cell, *LATTICE constants, *ENERGY density, *BIOCOMPATIBILITY, *OPTICAL lattices

Abstract

In the present study, the effects of variable amounts of Yb addition on the structural, thermal, and in vitro biocompatibility properties of Ce-doped hydroxyapatite (HAp) samples synthesized via the wet chemical method were investigated. Besides, the prepared formulations were also modeled for making the theoretical investigations. The single-phase compositions were detected for all samples, and no formation of additional phases was observed. Doping with Yb was observed to produce some variations in the lattice parameters, unit cell volume, lattice strain, and lattice stress. While a decreasing trend in the crystallite size and crystallization percent with increasing Yb content was found, a gradual increase in the anisotropic energy density was observed. All samples were found to be thermally stable from room temperature to 1000 °C with negligible mass losses during heating. No significant morphological changes were caused by the addition of Yb. For all samples, the numerical values of (Ca + Ce + Yb)/P molar ratio were found to be close to that for stoichiometric HAp (1.67). It was observed that the increased Yb additive caused a decrease in cell viability values. A continuous decrease in the bandgap energy with the increasing amounts of Yb added to the Ce-based HAp structure was observed from the theoretical investigations. A sharp decrease in the cell viability of the Ce-based HAp was observed with the addition of Yb. • Ce/Yb co-doped hydroxyapatites were investigated for the first time. • The bandgap decreased gradually with the increasing amount of Yb. • Addition of Yb decreased the cell viability of the Ce-based hydroxyapatites. [ABSTRACT FROM AUTHOR]

Published

2022