Strontium ions were discovered to exert a dual effect on bone turnover, namely an inhibition
of cell-driven bone resorption and a simultaneous stimulation of new bone tissue formation …

Osteoporotic bone defect repair using synthetic biomaterial-based strategies is promising
but remains challenging as it requires superior efficient osteogenic effects. Due to the strong …

Injectable biomaterials to aid bone regeneration are worth investigating in bone tissue
engineering due to minimized invasive damages. In this study, a novel in situ formed …

Large bone defects have been a major healthcare concern. These defects are difficult to
heal because of the chronic inflammatory environment surrounding the injury area …

The aim of this study was to evaluate two different approaches to obtaining strontium-
modified calcium phosphate bone cements (SrCPCs) without elaborate synthesis of Sr …

Strontium-containing hydroxyapatite (SrHA) is a promising material for bone repair and bone
replacement due to the similar inorganic components with natural bone. In this study, the …

Reconstruction of osteoporotic bone defects is a clinical problem that continues to inspire
the design of new materials. Methods: In this work, bioceramics composed of strontium (Sr) …

Mesoporous calcium sulfate-based bone cements (m-CSBC) were prepared by introducing
mesoporous magnesium–calcium silicate (m-MCS) with specific surface area (410.9 m² g …

The mismatch between the degradation performance of bioactive bone cement (calcium
phosphate-CPC and calcium sulfate-CSC) and the growth rate of new bone has always …

A novel injectable bone cement based on mineralized collagen was reported in this paper.
The cement was fabricated by introducing calcium sulfate hemihydrate (CaSO4· 1/2H2O …