Journal
JOURNAL OF INORGANIC MATERIALS
Volume 38, Issue 7, Pages 830-+Publisher
SCIENCE PRESS
DOI: 10.15541/jim20220662
Keywords
beta-TCP; TMP; bone defect; ceramics; microsphere; bone tissue engineering
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Beta tricalcium phosphate (ss-TCP) ceramic substituted materials have attracted attention due to their similarity with bone inorganic components and good biocompatibility. In this study, different microsphere materials of tricalcium phosphate/trimagnesium phosphate composites were prepared and evaluated for their degradation rate, biocompatibility, angiogenesis, and osteogenesis. The results showed that microspheres with 25% TMP and 50% TMP had better cell compatibility and promoted angiogenesis and osteogenesis.
Beta tricalcium phosphate (ss-TCP) ceramic substituted materials have attracted a large amount of attention in the last decades because of their chemical similarity with bone inorganic components, good biocompatibility, and osteoconductivity. Such materials can be used for bone replacement and bone formation in various forms, such as nanoparticles, scaffolds and microspheres. In this study, five different microsphere materials of tricalcium phosphate/trimagnesium phosphate (TMP) (TCP, 25% TMP, 50% TMP, 75% TMP, and TMP) composites were prepared and characterized. With the increase of TMP content in the composite microspheres, the cumulative concentration of Mg2+ and Ca2+ released from the microspheres increased, indicating that TMP can regulate the degradation rate of the composite microspheres. The osteoblast precursor cell line (MC3T3-E1 cells) and human umbilical vein endothelial cells (HUVECs) were used as models to evaluate the biocompatibility, angiogenesis and osteogenesis of the composite microspheres. The results showed that compared with TCP, TMP and 75% TMP group, 25% TMP and 50% TMP composite microspheres had better cell compatibility and had a certain proliferative effect on HUVECs. Therefore, composite microspheres of 25% TMP and 50% TMP have more significant positive effects on angiogenesis and osteogenesis.
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