Bioactivity and mechanical behaviour of cobalt oxide-doped bioactive glass

Vyas, Vikash Kumar; Kumar, Ankush; Prasad, S. K.; Singh, Swapnil; Pyare, Ram

doi:10.1007/s12034-015-0936-6

Cited by 42 publications

(28 citation statements)

References 30 publications

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“…The authors found that there was an excellent agreement between metal-oxygen (M-O) correlation obtained for Ni by isotopic substitution and Ni/Co data sets by isomorphic substitution method which confirmed that both Ni 2+ and Co 2+ ion were isostructural in the bioactive glasses. [4,39,40] in an earlier investigation had also shown that the addition of cobalt oxide up to 2.0 wt% in 45S5 bioactive glass-ceramic has resulted in an increase in density and compressive strength of their samples due to formation Co-O-Si bonds. Azevedo et al [26] had also performed the 29 Si MAS-NMR to determine the role of Co 2+ ion in the silicate glass structure and reported the dual role of Co 2+ as an intermediate and modifier in their bioglass samples depending upon its concentration like Mg 2+ , Ca 2+ and Zn 2+ ions.…”

Section: Fig 5 -Ftir Of the Bioactive Glass-ceramic (Nio-1c) Before mentioning

confidence: 99%

Assessment of nickel oxide substituted bioactive glass-ceramic on in vitro bioactivity and mechanical properties

Vyas

Kumar

Ali

et al. 2016

Boletín de la Sociedad Española de Cerámica y Vidrio

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Section: Fig 5 -Ftir Of the Bioactive Glass-ceramic (Nio-1c) Before mentioning

confidence: 99%

Assessment of nickel oxide substituted bioactive glass-ceramic on in vitro bioactivity and mechanical properties

Vyas

Kumar

Ali

et al. 2016

Boletín de la Sociedad Española de Cerámica y Vidrio

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“…Kokubo and his teams developed Simulated Body Fluid (SBF) which has similar inorganic ion concentrations to those of human extracellular fluid 22,[29][30][31] . The ion concentrations of SBF are given on Table. 2.…”

Section: Simulated Body Fluid (Sbf)mentioning

confidence: 99%

“…12 2+ and Na + ions from the sample surface 22,23,25,26 . The sample number G-4 with higher zirconia content was found to show maximum pH value may be due to high rate of dissolution as compared to base sample G-1.…”

Section: Ph Performance In Simulated Body Fluidmentioning

confidence: 99%

“…The total range of density is found to be from 2.44 g/ cm 3 to 2.495 g/cm 3 . The density of bioactive glass is directly proportional to the solidity of the configuration 22,23,25,26 . Here G-4 and G-5 glass are showing approximately same density which means these materials are suitable for making scaffolds for bone tissue engineering 47 .…”

Section: Ph Performance In Simulated Body Fluidmentioning

confidence: 99%

“…In vitro evaluation has also shown that ZrO 2 is not cytotoxic [19][20][21] . Vyas et al, [22][23][24][25][26][27] in an earlier investigation had also shown that the addition of cobalt oxide and nickel oxide up to 0-2.0 wt% in 45S5 glass (BG) and glassceramic (BGC) has resulted an increase physicomechanical properties and bioactivity of their samples due to formation Co-O-Si and Ni-O-Si bonds. Tripathi et al, 28 have also found the characterization of Li 2 O, CaO, Al 2 O 3 , P 2 O 5 ,SiO 2 glasses as bioactive material and all the elastic moduli values were establish to increase with the increasing in Al 2 O 3 /Li 2 O ratio.…”

Section: Introductionmentioning

confidence: 99%

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Development of Zirconia Substituted 1393 Bioactive Glass for Orthopaedic Application

Yadav¹,

Ray²,

Ershad³

et al. 2017

Orient. J. Chem

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Zirconia was used as a bone substitute, since it has excellent mechanical properties. It is also good bioinert to bone tissue. In this study, we report on zirconia substituted 1393 bioactive glass. In novel melt-derived "1393" Bioactive glass (53 SiO 2 , 6Na 2 O, 12 K 2 O, 5MgO, 20CaO, and 4 P 2 O 5 wt %) with CaO was doped by ZrO 2 for and were melted at 1400°C in alumina crucibles in electric furnace with air as furnace atmosphere. Bioactivity of these samples were analysed by put in the SBF for different time periods. Hydroxy Carbonate Apatite layer was developed and identiûed by FTIR, XRD and SEM. Chemical durability was also determined by weight loss method. Density of the samples were determined and found to increase significantly with increasing amount of (0-2 wt %) zirconia, reason is due to replacement of lighter element of CaO has been replaced by heavier element ZrO 2. Finally, this investigation clearly concluded that ZrO 2 substituted bioactive glass would be potential biomaterials for biomedical applications.

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In‐vitro and bio‐electrochemical characteristics of phytochemical enriched Co₃O₄ nanoparticles loaded biomimetic scaffold for preclinical analysis

Savitha,

Surendhiran,

Balu

et al. 2023

Polymers for Advanced Techs

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The work aims for biomimetic fabrication of Moringa oleifera seed (MOS) extract‐mediated cobalt oxide nanoparticles (Co3O4 NPs) with chitosan‐sodium alginate scaffolds by solvent casting. Distinct concentrations of green synthesized Co3O4 nanoparticles were combined to fabricate scaffolds. XRD analysis revealed the cubic structure with an average crystallite size of 18.83 nm. Smaller particle size, spherical morphology, and the presence of organic MOS extract had a substantial impact on the physio‐chemical properties of Co3O4 NPs. In‐vitro bioactivity Co3O4 NPs and nanoparticles anchored scaffolds were determined using simulated body fluid (SBF) through HAP formation. The scaffolds' swelling, protein absorption behavior and bio‐electrochemical analysis were evaluated under PBS. The antibacterial activity of Co3O4 NPs/scaffolds was more effective against Gram‐positive bacterial strains than Gram‐negative ones due to the increased production of ROS. In‐vitro cytotoxicity of the synthesized Co3O4 NPs and scaffolds was tested against the MCF‐7 cell line using an MTT assay. These studies demonstrate that the Co3O4 NPs/scaffolds have excellent physico‐chemical characteristics that increase in‐vitro biocompatibility. Furthermore, impedance and LSV studies showed that biomimetic CSA 200 electrolytes extend host tissue's regenerative compatibility. Also, the anticancer and antibacterial properties of biomimetic scaffold enabled Co3O4 nanoparticles to retain their required biomaterial characteristics for tissue engineering applications.

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Bioactivity and mechanical behaviour of cobalt oxide-doped bioactive glass

Cited by 42 publications

References 30 publications

Assessment of nickel oxide substituted bioactive glass-ceramic on in vitro bioactivity and mechanical properties

Assessment of nickel oxide substituted bioactive glass-ceramic on in vitro bioactivity and mechanical properties

Development of Zirconia Substituted 1393 Bioactive Glass for Orthopaedic Application

In‐vitro and bio‐electrochemical characteristics of phytochemical enriched Co₃O₄ nanoparticles loaded biomimetic scaffold for preclinical analysis

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Bioactivity and mechanical behaviour of cobalt oxide-doped bioactive glass

Cited by 42 publications

References 30 publications

Assessment of nickel oxide substituted bioactive glass-ceramic on in vitro bioactivity and mechanical properties

Assessment of nickel oxide substituted bioactive glass-ceramic on in vitro bioactivity and mechanical properties

Development of Zirconia Substituted 1393 Bioactive Glass for Orthopaedic Application

In‐vitro and bio‐electrochemical characteristics of phytochemical enriched Co3O4 nanoparticles loaded biomimetic scaffold for preclinical analysis

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Product

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In‐vitro and bio‐electrochemical characteristics of phytochemical enriched Co₃O₄ nanoparticles loaded biomimetic scaffold for preclinical analysis