将β-TCP陶瓷植入大白兔的股骨内并定期注射四环素,分别在光学显微镜、荧光显微镜或扫描电子显微镜下观察新骨的形成和成骨过程,研究了β-TCP植入体内后与组织间的界面作用以及磷酸钙生物陶瓷的成骨作用.结果表明,在类骨质表面有大量的成骨细胞,间充质细胞增生和浸入.植入β-TCP陶瓷两个月后,类骨质通过钙化转变为编织骨.植入三个月后,出现由骨桥连接的"骨岛",β-TCP陶瓷降解,并被新骨分散.植入六个月后,新的骨髓腔形成,编织骨变成板层骨.八个月后,在哈弗氏骨板上出现材料颗粒,形成典型的松质骨结构.因此,无生命的钙磷材料在体内可以参与有生命的组织活动.
The interface of porous β-TCP ceramics implanted in rabbit was investigated inorder to study the osteogenesis of calcium phosphate bioceramics. β-TCP ceramics (5 mm diameterand 8 mm height) were implanted in the femur of rabbits, and tetracycline was injected termly. Thesamples of bone were taken 1, 2, 3, 4, 5, 6 or 8 months after operation, respectively. The new boneformation and osteogenesis process on the interface were observed by using the light microscope, fluo-rescent microscope, scanning electron microscope and histochemical test. The results showed that boneformation rate increased faster than that of contrast groups. The interface was visible 1 month afteroperation, and osteogensis was active. There were abundant osteoblasts, mesenchymal cell hyperplasiaand incursion on the surface of osteoid. The osteoid turned into woven bone through calcification 2months after operation. Bone-island appeared and connected by bone-bridge 3 months after oper-ation β-TCP ceramics degraded and were dispersed by new bone. New marrow cavity formed andwoven bone became bone lamella 6 months after operation. The granules of material were found onthe Haversian lamella 8 months after operation. The typical structure of spongy bone formed. It canbe concluded that the non-living calcium-phosphate materials can participate in the activity of livingtissue in vivo.
参考文献
| [1] | C.Delloye, Considerations actuelles surles greffes, Calcified tissues and biomaterials, In: Harmond MF, edited by Biomat Edn, (Bordeaux, France, 1987) p.149 |
| [2] | Mark borden, Mohamed Attawia, Cato T. Laurencin, The sintered microsphere matrix for bone tissue engineering, Vitro Osteoconductivity Studies, J Biomed Mater Res, 61(3), 421(2002) |
| [3] | T.Kokubo, T.Hayashi, S.Sakka, E.Tsuji, Ceramics in clinical applications. In: Vincenzini, edited by (Amstedam, Elsevier, 1987) p.175 |
| [4] | Jose Moreno, Francisco Forriol. Biomaterial. Effects of preservation on the mechanical strength and chemical composition of cortical bone, an experimental study in sheep femora, 23(12), 2615(2002) |
| [5] | T.J.Gao, T.S.Lindholm, B.Kommonen, Z.Zoltan, bioactive glass and tricalcium phosphate implanted in sheep diaphyseal defects, Microscopic evaluation of bone-implant contact between hydroxyapatite, Biomaterials, 16, 1175(1995) |
| [6] | G.Daculsi, N.Passuti, S.Martin C.Deudon, Calcium phosphate ceramics for long bone surgery in humans and dogs, clinical and histological study, J Biomed Mater Res, 24, 379~392(1990) |
| [7] | S.Kotani, Y.Fujita, T.Kitsugi, S.Kotani, Bone bonding mechanism of β-TCP, J Biomed Mat Res, 25,1303(1991) |
| [8] | Satoshi Nakamura, Takayuki Kobayashi, Kimihiro Yamashita, Extended bioactivity in the proximity of hydroxyapatite ceramic surfaces induced by polarization charges, J Biomed Mater Res, 61(4), 593(2002) |
| [9] | H.Oonishi, T.Jassuti, G.Ninholm, C.Ohtsuki, Orthopaedic applications of hydroxyapatite, Biomaterials, 2,171(1991) |
| [10] | Keita Abe, Ichiro Ono, A comparison of the shapes of hydroxyapatite implants before and after implantation,J Biomed Mater Res, 63(3), 312(2002) |
| [11] | Z.Zyman, I.Ivanov, V.Glushko, N.Dedukh, S.Malyshkina, Inorgnic phase composition of remineralisation in porous Ca-P ceramics, Biomaterial, 19, 1269(1998) |
| [12] | Jie Weng, Min Wang, Jiyong Chen, Plasma-sprayed calcium phosphate particles with high bioactivity and their use in bioactive scaffolds, Biomaterial, 23(13), 2623(2002) |
| [13] | A.M.Parffit, M.K.Drezner, F.H.Glorieux, M.A.Battaglia, Bone histomorphometry: standardization of nomenclature, symbols and units, J Bone Miner Res, 2, 595(1987) |
| [14] | Zheng Qixin, Du Jingyuan, Xia Zhidao, Li Shipu. Biodugradation of tricalcium phosphate ceramics by osteoclasts, J Tongji Medical University, 18(4), 257(1998) |
| [15] | J.N.J.Pratt, D.J.Griffon, D.G.Dunlop, N.Smith, C.R.Howie, Impaction grafting with morsellised allograft and tricalcium phosphate-hydroxyapatite: incorporation within ovine metaphyseal bone defects, Biomaterials, 23(16), 3309(2002) |
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