期刊
JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE
卷 5, 期 9, 页码 747-758出版社
WILEY
DOI: 10.1002/term.385
关键词
bioreactor; cartilage; TGF beta 3; mesenchymal stem cells; chondrocytes; microchannel; hydrogel
类别
资金
- Science Foundation Ireland [SFI/08/YI5/B1336]
The objective of this study was to investigate how a combination of different scaffold architectures and rotational culture would influence the functional properties of thick cartilaginous tissues engineered using either chondrocytes or bone marrow-derived mesenchymal stem cells (BM-MSCs). Expanded porcine chondrocytes and BM-MSCs were suspended in 2% agarose and cast in custom-designed moulds to produce either regular solid or channelled construct cylinders. The study consisted of three seperate experimental arms. First, chondrocyte and BM-MSC constructs were cultured in free swelling conditions for 9 weeks. Second, constructs were subjected to rotational culture for a period of 3 weeks. Finally, BM-MSC-seeded constructs were subjected to delayed rotational culture, in which constructs were first cultured for 3 weeks in free swelling conditions, followed by an additional 3 weeks in rotating culture conditions. Constructs were supplemented with TGF beta 3 during the first 3 weeks of all experiments. The introduction of channels alone had little effect on the spatial patterns of tissue accumulation in either chondrocyte-or BM-MSC-seeded constructs. The two cell types responded differentially to rotational culture, resulting in the formation of a more homogeneous tissue in chondrocyte-seeded constructs, but significantly inhibiting chondrogenesis of BM-MSCs. This inhibition of chondrogenesis in response to dynamic culture conditions was not observed if BM-MSC-seeded constructs were first maintained in free swelling conditions for 3 weeks prior to rotation. The results of this study demonstrate that bioreactor culture conditions that are beneficial for chondrocyte-based cartilage tissue engineering may be suboptimal for BM-MSCs. Copyright (C) 2011 John Wiley & Sons, Ltd.
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