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KMID : 1094720100150020329
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Biotechnology and Bioprocess Engineering
2010 Volume.15 No. 2 p.329 ~ p.340
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A Novel Mini ¥â-TCP 3D Perfusion Bioreactor for Proliferation and Osteogenic Differentiation of Bone Marrow Mesenchymal Stem Cells
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Yang Liu
Sun Hai-Ying
Qi Nian-Min
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Abstract
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Applications of bioreactors in combination with scaffolding materials are promising in tissue-engineering fields. To rapidly produce bone mesenchymal stem cells (MSCs) suitable for osteogenic differentiation (OSD), we developed a novel technique for ¥â-TCP (¥â-tricalcium phosphate) scaffolds preparation and employed these scaffolds to build a new type of mini three dimensional (3D) perfusion bioreactor. Compared to the 2D static culture, MSCs acquired much higher amplification rate and alkaline phosphatase (ALP) activity over a 24-day culture period. Interestingly, the Specific ALP activity was independent of the growth rate under adequate osteogenic inducement, suggesting there may be an OSD bottleneck at a single-cell level. Furthermore, cells on scaffolds exhibited gradually reduced total migration rate (MR) and relatively constant local MR, both ideal for bone regeneration. Excellent adhesion of MSCs to the smooth scaffolds surface, especially the layer structures, was seen on scanning electron microscopy images, demonstrating fine compatibility between scaffold and cells. Our results indicate this simplified, integrated and potentially modularizable 3D bioreactor could enable the osteocytes producing from MSCs for expected applications.
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KEYWORD
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Perfusion bioreactor, MSC, osteogenic differentiation, ¥â-TCP scaffold
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