The effect of ionic products from bioactive glass dissolution on osteoblast proliferation and collagen production

## Abstract Bioactive glasses dissolve upon immersion in culture medium, and release their constitutive ions into solution. There has been some evidence suggesting that these ionic‐dissolution products influence osteoblast‐specific processes. Here, the effect of 58S sol–gel‐derived bioactive glass

Several inorganic materials such as special compositions of silicate glasses, glass-ceramics and calcium phosphates have been shown to be bioactive and resorbable and to exhibit appropriate mechanical properties which make them suitable for bone tissue engineering applications. However, the exact me

## Abstract Numerous studies have described the bioactive properties of glass particles in the SiO~2~‐CaO‐Na~2~O‐P~2~O~5~ system. This kind of material is capable of developing a direct contact with bone through dissolution and physicochemical reactions. We have investigated the influence of bioact

## Abstract This study resulted in enhanced collagen type 1 and osteocalcin expression in human periodontal ligament fibroblasts (hPDLF) when exposed to bioactive glass conditioned media that subsequently may promote early mineralized tissue development. Commercial Bioglass™ (45S5) and experimental