Papers by Keyword: Transparent β-TCP

Abstract: Since 2001, we have clinically utilized human bone marrow-derived mesenchymal stem cells (MSCs) for bone regeneration. The osteogenic ability of MSCs has been assessed by measurement of alkaline phosphatase activity and calcium deposition. As for the detection of in vitro calcium deposition, we have established the method using calcein, which is a calcium-binding fluorescence material. Using this fluorescence material, we could observe the calcium deposition and then estimate the value of calcium deposition. In this report, we cultured rat MSCs on culture plate as well as transparent β-TCP, and calcium deposition was visualized and quantitated using an image analyzer. After 2 weeks differentiation of rat MSCs to osteoblasts, calcium deposition on β-TCP was observed as a signal of calcium-binding fluorescence. This fluorescence signal was also quantitated with an image analyzer.

Abstract: We have cultured mesenchymal cells (MSC) on various types of ceramic disks and used these tissue-engineered ceramics for hard tissue regeneration. In this approach, observation of cultured cell morphology is important even if culture substrata are calcium phosphate ceramics, which usually show bioactive nature. However, due to the opaque nature of the ceramics, cells observation is very difficult. Here, we demonstrate light microscopic observation of rat MSC cultured on transparent β-tricalcium phosphate ceramics (β-TCP). The culture was performed in osteogenic medium. Thus, the cell differentiated into bone-forming osteoblasts, which fabricated a mineralized matrix on the ceramic disks. Microscopic observation revealed that the cascade of osteogenic differentiation after attachment/proliferation of MSC on the ceramic disks was similar to that on a culture grade polystyrene dish. These results confirmed the excellent property of β-TCP for MSC culture leading to hard tissue regeneration.