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FINITE ELEMENT MODELING OF OSMOTIC SWELLING IN TISSUE-ENGINEERED CARTILAGE

机译：组织工程软骨中渗透肿胀的有限元建模

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Proteoglycans and Type II collagen represent the two major biochemical constituents of articular cartilage. Collagen fibrils in cartilage resist the swelling pressure that arises from the fixed charges of the glycosaminoglycans (GAGs), and together they give rise to the tissue's unique load bearing properties. As articular cartilage exhibits a poor intrinsic healing capacity, there is significant research in the development of cell-based therapies for cartilage repair.

机译：蛋白质聚糖和II型胶原代表关节软骨的两种主要生化成分。软骨中的胶原型原纤维抵抗糖胺聚糖（GAG）的固定电荷产生的溶胀压力，并在一起它们产生组织独特的承载性能。关节软骨表现出较差的内在愈合能力，在软骨修复的基于细胞的疗法的发展中存在显着的研究。

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《ASME bioengineering conference》|2009年||共2页
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中图分类人体工程学;
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FINITE ELEMENT MODELING OF OSMOTIC SWELLING IN TISSUE-ENGINEERED CARTILAGE

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