纳米复合支架结构与生物学性能

复合材料学报, 2005, 22(6): 32-36. doi: 10.3321/j.issn:1000-3851.2005.06.006

纳米复合支架结构与生物学性能

左奕 ^1, , 李玉宝 ^2, , 张翔 ^3, , 何毅 ^4, , 韩劲 ^5, , 魏世成 ^6,

1.四川大学,纳米生物材料研究中心;四川大学,分析测试中心,成都,610064

2.四川大学,纳米生物材料研究中心;四川大学,分析测试中心,成都,610064

3.四川大学,纳米生物材料研究中心;四川大学,分析测试中心,成都,610064

4.四川大学,分析测试中心,成都,610064

5.四川大学,纳米生物材料研究中心;四川大学,分析测试中心,成都,610064

6.四川大学,华西口腔医学院,成都,610064

基金项目: 科技部科研项目(2004CB720604)

关键词：硬组织修复 , 纳米复合 , 支架 , 组织相容性

STRUCTURE AND BIOLOGIC PROPERTIES OF NANO-COMPOSITE SCAFFOLD

通过复合成型致孔一体技术制备纳米羟基磷灰石/聚酰胺66(n-HA/PA66)硬组织修复支架,采用SEM、XRD、IR和燃烧实验等测试手段对复合支架进行表征.结果表明:n-HA粒子以纳米尺度均匀分布于复合支架材料中;复合材料的两相界面为氢键键合和配位键合;支架的孔隙相互贯通,不仅有平均孔径约450μm的大孔,大孔壁上还富含0.5～50 μm的微孔.动物实验证实,该纳米复合支架具有高的生物活性和好的组织相容性,能与硬组织形成骨性结合,其孔隙范围有利于骨组织、血管、骨细胞的长入,可作为硬组织修复的良好载体.

参考文献

[1]	Rhee Sang Hoon. Bone-like apatite-forming ability and mechanical properties of poly (e-caprolactone) /silica hybrid as a function of poly (e-caprolactone) content [J]. Biomaterials, 2004, 25: 1167-1175.
[2]	Silvio L D, Dalby M J, Bonfield W. Osteoblast behaviour on HA/PE composite surfaces with different HA volumes [J].Biomaterials, 2002, 23: 101-107.
[3]	Oomsa E M, Wolkea J G C, Heuvelb M T, et al. Histological evaluation of the bone response to calcium phosphate cement implanted in cortical bone [J]. Biomaterials, 2003,24: 989-1000.
[4]	Zhang Ze, Wang Zhaoxu, Liu Shuqin, et al. Pore size, tissue ingrowth, and endothe-lialization of small-diameter micro porous polyurethane vascular prostheses [J]. Biomaterials,2004, 25: 177-187.
[5]	Bordena M, Attawiaa M, Khana Y, etal. Tissue engineered microsphere-based matrices for bone repair: Design and eva luation [J]. Biomaterials, 2002, 23: 551-559.
[6]	Ayers R A, Wolford L M, Bateman T A, et al. Quantifica tion of bone ingrowth into porous block hydroxyapatite in humans [J]. BiomedMaterRes, 1999, 47: 54-59.
[7]	Sittinger M, Schultz O, Keyszer, et al. Artificial tissues in perfusion culture [J]. Int J Artif Organs, 1997, 20 (1):57-62.
[8]	严永刚,李玉宝,张利,等.纳米HA/PA6复合材料的体外生物活性[J].复合材料学报,2004,21(2):147-152.Yan Yonggang, Li Yubao, Zhang Li, et al. In vitro bioactivity of PA6 and nano-HA/PA6 composite [J]. Acta Materiae Compositae Sinica, 2004, 21 (2):: 147-152.
[9]	Hou Qingpu, Grijpma D W, Jan Feijen. Porous polymeric structures for tissue engineering prepared by a coagulation,compression moulding and salt leaching technique [J]. Biomaterials, 2003, 24: 1937-1947.
[10]	Li Yubao, de Wijn J, Klein C P A T, et al. Preparation and characterization of nanograde osteoapatite-like rod crystals[J]. J Mater Sci: Materin Med, 1994, 5: 252-255.
[11]	Klug H P, Alexander L E. X-ray Diffraction Procedures[M]. New York, Wiley: WB Sanders CO, 1954.
[12]	Aza P N D, Luklinska Z B, Santos C, et al. Mechanism of bone-like formation on a bioactive implant in vivo [J]. Biomaterials, 2003, 24: 1437-1445.

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