Optimising bioactive glass scaffolds for bone tissue engineering

## Abstract Hierarchically 2D/3D mesoporous–macroporous bioactive glasses (MMBG) with good molding capabilities and compressive modulus were synthesized by sol–gel method and evaporation‐induced self‐assembly process in the presence of both nonionic triblock copolymers, EO~70~PO~20~EO~70~ (P123) or

## Abstract A series of elastic polymer and composite scaffolds for bone tissue engineering applications were designed. Two crosslinked copolymer matrices with 90/10 and 30/70 mol % of ϵ‐caprolactone (CL) and D,L‐lactide (DLLA) were prepared with porosities from 45 to 85 vol % and their mechanical

## Abstract The ability to mimic the chemical, physical and mechanical properties of the natural extra‐cellular matrix is a key requirement for tissue engineering scaffolds to be successful. In this study, we successfully fabricated aligned nanofibrous multi‐component scaffolds for bone tissue engi

## Abstract In this work, the conditions to obtain concentrated and fluid suspensions from a bioactive glass (55‐SiO~2~; 41‐CaO; 4‐P~2~O~5~; mol %) were investigated. The influence of the heat treatment of the glass on the specific surface area, solubility, bioactivity, and finally on their dispers

## Abstract The aim of this study was to fabricate bioactive porous CaSiO~3~ scaffolds and examine their effects on proliferation and differentiation of osteoblast‐like cells. In this study, porous CaSiO~3~ scaffolds were obtained by sintering a ceramic slip‐coated polymer foam at 1350°C. X‐ray dif

Bone disease and trauma can sometimes create defects that require more than current clinical therapies can provide for effective healing. Scaffolds that release bioactive agents such as drugs offer additional benefits in this regard in comparison to those whose main requirements are space filling an