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1. ÂÞÏéÁÖ, ºÎ±ó, ÀîÈüµÈ.±íÃæ×ÏÍâ¹â½ÓÖ¦È󻬸ÄÐÔÒ½Óþ۰±õ¥²ÄÁÏ.¸ß·Ö×Ó²ÄÁÏ¿ÆѧÓ빤³Ì£¬2000.16(2):132~135 2. Gwendolyn M.R,Wetzels,Leo H.Koole. Photoimmobilisation of poly(N-vinylpyrrolidinone) 3. as a means to improve haemocompatibility of polyurethane biomaterials. Biomaterials,1999.20(20):1879~1887 4. Zhang M , Li XH, Gong NM , et al. Properties and biocompatibility of chitosan films modified by blending with PEG. Biomaterials, 2002.23(13):2641~2643 5. Sharma.S, Johnson.R.W. Ultrath in poly (ethylene glycol) films for silicon-based microdevices. Applied Surface Science, 2003.206 (1~4):218~220 6. Brigitte Grosgogeat, Lucien Reclaru, Michele Lissac.PDMS-based polyurethanes with MPEG grafts: synthesis, characterization and platelet adhesion study.Biomaterials,1999.20(10):943~953 7. E Rosy.Biological effects and medical application of heparin. Biomaterial Applications, 1998.2:247~250 8. [15] ³ÂÏþ¶«.ÀûÓõÈÀë×ÓÌåÖƱ¸¸ÎËØ»¯¾Û°±õ¥¼°Æä±íÕ÷.¹úÍâҽѧÉúÎïҽѧ¹¤³Ì£¬2000.23(2):123 9. Park KD,Piao A Z,Jacobs HJ.Grafting sulfobetaine monomer onto the segmented poly( ether2urethane) surface to improve hemocompatibility. Journal of Polymer Science , Part A: Polymer Chemistry, 1991.29:725~737 10. Jung-Sook Bae,Eun-Jin Seo,Inn-Kyu Kang.Synthesis and characterization of heparinized polyurethanes using plasma glow discharge.Biomaterials,1999.20(6):529~537 11. ·ëº£²¨,ÇäÄþ.¾Û°±õ¥»¥´©ÍøÂç½á¹¹¾ÛºÏÎïÑо¿½øÕ¹¼°ÆäÓ¦ÓÃ.Ƥ¸ï»¯¹¤£¬2004.21(3):4~9 12. Morimoto N,Iwasak Y,NakabayashiN,et al. Physical properties and blood compatibility of surface2modified segmented polyurethane by semi2interpenetrating polymer networks with a phospholipid polymer. Biomaterials, 2002,23(24):4881~4887 |
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