Characterization of a novel calcium phosphate composite bone cement: Flow, setting, and aging properties

The setting reaction of a calcium phosphate bone cement consisting of a mixture of 63.2 wt % alpha-tertiary calcium phosphate (TCP)[alpha-Ca3(PO4)2], 27.7 wt % dicalcium phosphate (DCP) (CaHPO4), and 9.1 wt % of precipitated hydroxyapatite [(PHA) used as seed material] was investigated. The cement s

## Abstract The β‐cyclodextrins (β‐CDs) and amorphous calcium phosphate were used to prepare a novel calcium phosphate cement (CPC) after mechanochemical activation. Under the mechanochemical treatment, hydrogen bonding formed between β‐CD molecules, which induced strong interaction among β‐CD mole

The use of calcium phosphate cements (CPC) is restricted by their lack of macroporosity and poor drug release properties. To overcome these two limitations, incorporating degradable polymer microparticles into CPC is an attractive option, as polymer microparticles could help to control drug release

## 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 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