著者
北 圭介 中田 研 前 達雄 樋口 周久 中村 憲正 名井 陽 吉川 秀樹
出版者
大阪大学
雑誌
挑戦的萌芽研究
巻号頁・発行日
2011

関節構成成分である半月の治療において、近年、人工材料や、生体由来材料の有用性が報告がされてきたが、免疫拒絶反応、感染制御等、克服すべき問題が存在する。これらの問題の最も効率的な解決策は、自己由来の材料を用いることである。フィブリンクロットは、静脈血より簡単に作成される網状構造をもつ構造体であり、自己由来であるため安全性が高い材料である。本研究では、このフィブリンクロットを用いた半月再生治療技術について検討した。
著者
南斉 亮佑 中村 憲正 藤江 裕道
出版者
一般社団法人日本機械学会
雑誌
日本機械学會論文集. C編 (ISSN:03875024)
巻号頁・発行日
vol.76, no.769, pp.2340-2344, 2010-09-25

We have been developing a new tissue engineering technique for cartilage repair using a scaffold-free tissue engineered construct (TEC) bio-synthesized from synovium-derived mesenchymal stem cells. A round-chondral defect of 8.5mm in diameter and 1.5mm in depth created on the medial condyle of 12 month-old mature porcine femur was filled with the TEC. Six months after surgery, a cylindrically shaped specimen of 4mm in diameter and 4-5mm in depth was extracted. Micro-indentation test was performed on the specimen using an AFM after the surface image of the specimen was obtained. Macro-scale compression test was, then, performed for the specimen using a custom made micro compression tester. As compared with many bump-like elevated portions of approximately 1-2μm in height observed in the surface of normal cartilage, rougher surface was observed in the TEC-treated and TEC-untreated tissues. The surface stiffness of the TEC-treated tissue was significantly lower than that of the normal cartilage, and slightly lower than that of the TEC-untreated tissue with no significant difference. In the quasi-static compression test, the tangent modulus of the TEC-treated tissue indicated no significant difference against the normal cartilage. In contrast, the tangent modulus of the TEC-untreated tissue was lower than those of the normal cartilage and the TEC-treated tissue, with a significant difference against the normal cartilage. It is suggested that the surface stiffness was independent of treatment of TEC, while the bulk modulus recovered well in the TEC-treated cartilage-like tissues as compared with the TEC-untreated cartilage-like tissues.