Bioactive glasses represent a class

Bioactive glasses represent a class of attractive materials in bone reconstruction This study describes the detailed preparation and characteriation of a silicate-based bioactive glass-ceramic (R-SBgC) Synthesis of bioactive glasses using the solgel method has advantages compared to the melting method Hoever, epensive ra materials are reuired and pose a maor issue To overcome this, R-SBgC as synthesied via the solgel method using Rice Husk (RH) as a natural silica precursor The RH as heat treated and used as an alternative to tetraethyl orthosilicate (TES), hich is a common synthetic silica precursor -ray diffraction (RD), -ray Fluorescence (RF) and Scanning Electron Microscopy (SEM) ere used to characterie the rice husk ash (RH) The findings reveal that the etracted silica has a high purity ( ) The synthesied R-SBgC poder as characteried using SEM, Energy Dispersive -ray nalysis (ED), RD, RF and Fourier-Transform Infrared Spectroscopy (FTIR) to complete the morphological and elemental analysis Moreover, in vitro bioactivity via an immersion assessment as conducted for up to 14 days The H layer formation, hich is an indicator of the bioactivity on the surface of the R-SBgC, as confirmed using SEM, ED and further by FTIR Biocompatibility of the R-SBgC as evaluated in vitro fter 3 days of human bone marro stromal cell (hBMSC) seeding, SEM analysis revealed cell attachment on the surface of the R-SBgC lamar blue and TT cytotoic assays demonstrated cell proliferation abilities and the non-cytotoic effect of the R-SBgC ltogether, the results demonstrate that prepared rice husk-derived bioactive glass ceramic may be a promising carrier for tissue engineering applications
eyords Bioactive glass-ceramics Rice husk Solgel Bioactivity Cytotoicity Microscopy
1 Introduction Bioceramics are considered an important subset of biomaterials in bone replacement applications due to their similarity to natural bone material 1 and Hydroyapatite (H), Ca10 (P4) 6(H) and bioactive glass (Si glass containing Ca, a and P) are to of the foremost bioceramics, hich have attracted the attention of many researchers due to their ecellent bioactivity and biocompatibility properties 1, , 3, 4 and
Get rights and content
eaccienceiec anceeacDownload PDF na B inca eeacce e inin
11 Rice husk derived bioactive glass-ceramic as a functional bioceramic: Synthesis, characteriation and biological testing
http:sciencedirectcomsciencearticlepiiS00303130106 1
EVENTS YOU MAY BE INTERESTED IN
IUPAC International Symposium on Photochemistry 3–8 Apr 2016 Ōsaka, Japan
Bioactive glass has certain advantages compared to H, as the former has a faster bonding ability and possesses osteoconductivity and osteoinductivity 3, 6 and In several studies, hen primary human osteoblasts ere eposed to ionic dissolution products of bioactive glass, up to seven families of genes ere upregulated at once 6 and These findings reveal the potential of bioactive glass for bone tissue regeneration applications , 3 and Since the introduction of bioactive glass in 16, a large variety of compositions of bioactive glass have been described 3 and 10 Melting and solgel are to methods for glass preparation and have been demonstrated for the production of bioactive glass 11, 1 and 13 The melting method reuires high temperatures and is epensive dditionally, the evaporation of volatile components is common and is a potential draback 11 and 1 Bioactivity of melt-derived and sol gel-derived bioactive glass has been reported in several studies for various solutions, both in vitro and in vivo 10, 1, 14 and 1 ccording to these findings, solgelderived glass ehibits better bioactivity 1 Despite the advantages of the solgel method, the epensive ra materials are a maor issue To circumvent this, heat-treated rice husk ash (RH) can be used as a cost-free silica precursor 16, 1 and 1 This has not been described in detail, nor has a detailed description of its characteristics and properties been previously described The goal of this study is to describe the characteristics and methods needed to prepare the R-SBgC poder, hich includes the physico-chemical properties, in vitro bioactivity, cytotoicity and cell proliferation analysis