Calcium silicate cements have been considered as alternative bone substitutes owing to its
extraordinary bioactivity and osteogenicity. Unfortunately, the major disadvantage of the …

Calcium silicate materials have attracted a great deal of interest because of their
osteogenesis. The purpose of this study was to use the hydrothermal method without the use …

Incorporating Sr element in biomaterials for bone implants is an effective way to improve
their biological performance, as Sr element has been proved to enhance bone regeneration …

Novel calcium silicate cements (CSCs) consisting of sol-gel-derived calcium silicate powder
as a solid phase and ammonium phosphate solution as a liquid phase were developed. The …

An ideal bone graft substitute should have the same speed of degradation as formation of
new bone tissue. To improve the properties of calcium sulfate hemihydrate (CSH) featured …

The regeneration capacity of the osteoporotic bones is generally lower than that of the
normal bones. Current methods of bone defect treatment for osteoporosis are not always …

In the present study, the in vitro effects of novel strontium-modified calcium phosphate bone
cements (SrCPCs), prepared using two different approaches on human-bone-marrow …

Ca-silicate cements have drawn considerable attention for their potential applications in the
field of bone repair due to their excellent bioactivity in vitro. Significant progress with regard …

Biologically active ions doped calcium phosphates to stimulate osteogenesis, angiogenesis
and suppress osteoclastogenesis is a promising strategy for accelerating osteoporotic bone …

The combination of two or more bioactive components with different biodegradability could
cooperatively improve the physicochemical and biological performances of the biomaterials …