Calcium–phosphate–silicate composite bone cement: self-setting properties and in vitro bioactivity

## Abstract Strontium is known to reduce bone resorption and stimulate bone formation. We have investigated the effect of strontium on the setting properties and __in vitro__ bioactivity of a biomimetic gelatin–calcium phosphate bone cement. Gelatin‐α‐TCP powders, with a gelatin content of 15 wt %,

## Abstract In this study, a biphasic injectable bone substitute based on β‐dicalcium silicate (Ca~2~SiO~4~) and plaster of Paris (CaSO~4~·1/2H~2~O) is presented, and its behavior as cement was studied and compared to that of pure Ca~2~SiO~4~ paste. The results demonstrated that the setting time of

## Abstract Calcium phosphate cement (CPC) can conform to complex bone cavities and set __in‐situ__ to form bioresorbable hydroxyapatite. The aim of this study was to develop a CPC‐collagen composite with improved fracture resistance, and to investigate the effects of collagen on mechanical and cel

## Abstract β‐Dicalcium silicate was used to reinforce the injectable calcium phosphate cement (iCPC) for the first time in this study. The influence of the content of β‐dicalcium silicate on the mechanical properties, setting time, rheological properties, injectability, phase evolution, microstruc