3D mesoporous bioactive glass/silk/chitosan scaffolds and their compatibility with human adipose‐derived stromal cells

Abstract: Human adipose-derived stem/stromal cells (hASCs) have been popularly studied as cell-based therapy in the field of regenerative medicine due to their ability to differentiate into several cell types. In this study, in order to improve the mechanical strength and bioactivity of scaffolds for bone tissue engineering, three types of mesoporous bioactive glasses with different shapes and compositions were dispersed in the silk fibroin/chitosan (SF/CS)-based scaffolds, which were fabricated with a combination of fr… Show more

“…Therefore, the result of heat release during curing of the chelated bone cement may be slightly different from the temperature of the human body as the starting temperature. Finally, although partial bacterial and cellular assays have been performed for this chelated bone cement, research on additional biocompatibility and biomineralization capacity tests will be performed to determine its biological activity (including immersion mineralization assay in simulated body fluids, 33 cell adhesion rate, alkaline phosphatase (ALP) assay of osteoblasts, 34 etc.) in the future.…”

Characterization of a high strength hydroxyapatite cement with dual chelate‐setting using phytic acid and citric acid

“…Therefore, the result of heat release during curing of the chelated bone cement may be slightly different from the temperature of the human body as the starting temperature. Finally, although partial bacterial and cellular assays have been performed for this chelated bone cement, research on additional biocompatibility and biomineralization capacity tests will be performed to determine its biological activity (including immersion mineralization assay in simulated body fluids, 33 cell adhesion rate, alkaline phosphatase (ALP) assay of osteoblasts, 34 etc.) in the future.…”

Characterization of a high strength hydroxyapatite cement with dual chelate‐setting using phytic acid and citric acid

Polymer-derived boron doped akermanite-octacalcium phosphate glass-ceramic scaffolds stimulate angiogenesis

Nano-bioactive glass incorporated polymeric apatite/tricalcium phosphate cement composite supports proliferation and osteogenic differentiation of human adipose-derived stem/stromal cells