Sol-Gel Synthesis of Bioactive Glass-Ceramic 45S5 and its in vitro Dissolution and Mineralization Behavior

2013 ◽  
Vol 96 (5) ◽  
pp. 1643-1650 ◽  
Author(s):  
Hamidreza Pirayesh ◽  
John A. Nychka
Keyword(s):  
Bioactive Glass ◽  
Glass Ceramic ◽  
Sol Gel ◽  
In Vitro Dissolution ◽  
Sol Gel Synthesis

Sol-Gel Synthesis and Characterization of SiO2-CaO-P2O5-SrO Bioactive Glass: In Vitro Study

2014 ◽  
Vol 631 ◽  
pp. 30-35 ◽  
Author(s):  
S. Solgi ◽  
M. Shahrezaee ◽  
A. Zamanian ◽  
T.S. Jafarzadeh Kashi ◽  
Majid Raz ◽  
...  
Keyword(s):  
Bioactive Glass ◽  
Mtt Assay ◽  
Sol Gel ◽  
Glass Network ◽  
Biological Properties ◽  
Osteosarcoma Cell ◽  
Three Samples ◽  
Human Osteosarcoma Cell ◽  
Sol Gel Synthesis

Bioactive glass of the type CaO–SrO–P2O5–SiO2was obtained by the sol-gel processing method. Three samples containing 0 mol%, 5 mol% and 10 mol% of SrO were synthesized. The obtained bioactive glasses were characterized by the techniques such as, X-ray diffraction (XRD) and scanning electron microscope (SEM) and the effect of SrO/CaO substitution on in vitro biological properties of the synthesized glasses were evaluated and biocompatibility of the samples was measured using MTT assay. The results showed that incorporation of Sr in the obtained glass network did not result in any structural alteration of it due to the similar role of SrO compared with that of CaO. In vitro experiments with human osteosarcoma cell lines (MG-63) and MTT assay indicated that bioactive glass incorporating 5 mol% of Sr in the composition is non-toxic and revealed good biocompatibility.

AP40 Bioactive Glass Ceramic by Sol-Gel Synthesis: In Vitro Dissolution and Cell-Mediated Bioresorption

2013 ◽  
Vol 541 ◽  
pp. 41-50 ◽  
Author(s):  
Ilaria Cacciotti ◽  
Giorgia Lehmann ◽  
Antonella Camaioni ◽  
Alessandra Bianco
Keyword(s):  
Bioactive Glass ◽  
Human Peripheral Blood ◽  
Sol Gel ◽  
Blood Monocytes ◽  
X Ray Diffraction ◽  
Degradation Behaviour ◽  
Dissolution Tests ◽  
Different Temperatures ◽  
Sol Gel Synthesis

In this work, the sol-gel synthesis of AP40 bioactive glass system was reported. The obtained powder was fully characterised in terms of microstructure, composition and thermal behaviour by X-ray diffraction (XRD) measurements, Fourier transform infrared (FT-IR) spectroscopy, thermogravimetry and differential thermal analysis (TG-DTA).In vitrodissolution tests were performed in order to assess the degradation behaviour of sol-gel derived AP40 samples thermally treated at different temperatures. Finally, preliminary results on cytocompatibility are reported, based on bioresorption activity of human peripheral blood monocytes differentiated into osteoclasts on sintered disks.

Mesoporous 45S5 bioactive glass: synthesis, in vitro dissolution and biomineralization behavior

2017 ◽  
Vol 5 (44) ◽  
pp. 8786-8798 ◽  
Author(s):  
Anil Kumar ◽  
Sevi Murugavel ◽  
Anusha Aditya ◽  
Aldo R. Boccaccini
Keyword(s):  
Bioactive Glass ◽  
Sol Gel ◽  
Sodium Oxide ◽  
In Vitro Dissolution ◽  
Established Method ◽  
Sol Gel Process ◽  
New Generation

The development of a new generation of biomaterials includes a sol–gel process to obtain glass foams, which is a well established method for CaO–SiO2–P2O5 compositions, but is not yet recognized for Bioglass® containing sodium oxide.

Evaluation of colloidal and polymeric routes in sol-gel synthesis of a bioactive glass-ceramic derived from 45S5 bioglass

2020 ◽  
Vol 46 (12) ◽  
pp. 20264-20271 ◽  
Author(s):  
Bruno Roberto Spirandeli ◽  
Tiago Moreira Bastos Campos ◽  
Renata Guimarães Ribas ◽  
Gilmar Patrocinio Thim ◽  
Eliandra de Sousa Trichês
Keyword(s):  
Bioactive Glass ◽  
Glass Ceramic ◽  
Sol Gel ◽  
45S5 Bioglass ◽  
Sol Gel Synthesis

scholarly journals Influence of the Impregnation Technique on the Release of Esomeprazole from Various Bioaerogels

Polymers ◽  
2021 ◽  
Vol 13 (11) ◽  
pp. 1882
Author(s):  
Milica Pantić ◽  
Katja Andrina Kravanja ◽  
Željko Knez ◽  
Zoran Novak
Keyword(s):  
Sol Gel ◽  
In Vitro Dissolution ◽  
Impregnation Method ◽  
Impregnation Technique ◽  
Supercritical Impregnation ◽  
Release Studies ◽  
Sol Gel Synthesis ◽  
Adsorption Desorption ◽  
And Diffusion

The presented study shows the possibility of using bioaerogels, namely neat alginate, pectin, chitosan aerogels, and alginate and pectin aerogels coated with chitosan, as drug delivery systems for esomeprazole. Two different techniques were used for the impregnation of esomeprazole: Supercritical impregnation, and diffusion via ethanol during the sol-gel synthesis. The prepared samples were characterized by employing N2 adsorption-desorption analysis, TGA/DSC, and FTIR. The achieved loadings were satisfactory for all the tested samples and showed to be dependent on the technique used for impregnation. In all cases, higher loadings were achieved when impregnation via diffusion from ethanol was used. Extensive release studies were performed for all impregnated samples. The in vitro dissolution profiles were found to be dependent on the carrier and impregnation method used. Most importantly, in all cases more controlled and delayed release was achieved with the bioaerogels compared to using pure esomeprazole.

scholarly journals Quenched/unquenched nano bioactive glass-ceramics: Synthesis and in vitro bioactivity evaluation in Ringer’s solution with BSA

2013 ◽  
Vol 19 (2) ◽  
pp. 231-239 ◽  
Author(s):  
Nima Nabian ◽  
Maedeh Delavar ◽  
Mahmood Rabiee ◽  
Mohsen Jahanshahi
Keyword(s):  
Electron Microscope ◽  
Bioactive Glass ◽  
Glass Ceramic ◽  
Sol Gel ◽  
Glass Ceramics ◽  
Apatite Formation ◽  
In Vitro Bioactivity ◽  
Sem Images ◽  
Transmission Electron

The paper reports the first attempt at changing cooling treatment of synthesizing method in order to investigate its effect on the physical properties of sol-gel derived nano bioactive glass-ceramic in the system 58SiO2-33CaO-9P2O5 (wt.%). We hypothesized that the method of cooling may affect the properties of nano bioactive glass-ceramic. To test this hypothesis, two different method of cooling treatment was applied after calcinations in synthesizing method. Both quenched and unquenched nano bioactive glass-ceramics were soaked in Ringer?s solution with bovine serum albumin (BSA) for bioactivity evaluation. The obtained samples were analyzed for their composition, crystalinity and morphology through X-ray powder diffraction (XRD), Fourier transform infrared spectroscopy (FTIR), surface electron microscope (SEM) and transmission electron microscope (TEM). The SEM images showed that the morphology of nano bioactive glass-ceramics was completely changed by quenching process. Results of in vitro bioactivity evaluation revealed that the unquenched attains faster apatite formation ability than the quenched sample. Other properties of these two morphologically different nano bioactive glass-ceramics were strongly discussed.

New Composite Membranes Containing Bioactive Glass-Ceramic Nanoparticles and Chitosan for Biomedical Applications

2010 ◽  
Vol 636-637 ◽  
pp. 31-35 ◽  
Author(s):  
Gisela M. Luz ◽  
João F. Mano
Keyword(s):  
Simulated Body Fluid ◽  
Bioactive Glass ◽  
Glass Ceramic ◽  
Body Fluid ◽  
Biomedical Applications ◽  
Sol Gel ◽  
Composite Membranes ◽  
Apatite Formation ◽  
Free System

In this study a new P-free system applied to the production of Bioactive Glass Nanoparticles (BG-NPs) is proposed, in order to evaluate the effect of suppressing this component, in the bioactivity capability of the materials. The BG-NPs, based on both ternary (SiO2-CaO-P2O5) and binary (SiO2-CaO) systems, were prepared via a sol-gel method. The morphology and composition of the BG-NPs were studied using FTIR and SEM. New composite membranes were produced combining chitosan and the BG-NPs. The bioactive character of the prepared biodegradable membranes was accessed in vitro by analyzing the capability for apatite formation onto the surface after being immersed in simulated body fluid (SBF). EDX and SEM were used to confirm the bioactivity of the materials.

Bioactive Glass-Ceramic Porous Sinters

2006 ◽  
Vol 49 ◽  
pp. 103-108
Author(s):  
R. Sindut ◽  
Katarzyna Cholewa-Kowalska ◽  
Maria Łączka
Keyword(s):  
Bioactive Glass ◽  
Glass Ceramic ◽  
Sol Gel ◽  
Glass Ceramics ◽  
Diffraction Method ◽  
Thin Layers ◽  
Molar Ratio ◽  
Chemical Compositions ◽  
Bioactive Materials

Bioglasses and bioactive glass-ceramics have found increasingly wide application in medicine and dentistry. Using sol-gel method, is possible to obtain glass and glass-ceramic bioactive materials of new generation, characterized the higher bioactivity than melted bioglasses. These materials can be produced in various final forms, as powders, thin layers on different base and porous sinters. Production of porous bioactive sinters from gel-derived powders is a new problem and the parameters controlling this process are not recognized yet. The aim of the study was to obtain porous bioactive sinters from gel-derived powders of the SiO2-CaO-P2O5 system of four various chemical compositions (S2, II, I, A2) and the characterization of properties of these new materials. The starting powders differ from each other in the content of the basic components, at the molar ratio of CaO to SiO2 equals 0.2-1.35. To obtain the porous sinters a method of burning additions and deposition of the casting slip on the polymeric sponge was used. Sintering was realized in several stages, at the maximal temperature 1200oC. By selecting appropriate conditions of sintering, a durable material of high open porosity up to 77 % was obtained. Its porous structure was characterized by a prevailing number of small micropores of similar dimensions, uniformly distributed in the material. The phase composition of obtained sinters was determined by the X-ray diffraction method. All sinters represented glass-ceramic materials with apatite, cristoballite and calcium silicates as a main crystalline phases. In order to preliminary determination bioactivity of obtained sinters, test in vitro in simulated body fluid SBF was conducted. It was found that hydroxyapatite formation on the sinter surface occurs only in the case of biomaterials of highest calcium concentration.

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