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细菌纤维素/明胶复合多孔支架材料的制备与表征 被引量:7

Preparation and Characterization of Bacterial Cellulose/Gelatin Composite Porous Scaffold
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摘要 介绍了以细菌纤维素水凝胶膜和明胶为原料制备细菌纤维素/明胶多孔复合支架的方法,并利用红外光谱、扫描电子显微镜、X射线衍射及力学性能测试对多孔复合支架进行研究。结果表明,复合多孔支架的表面孔径变大、孔隙率下降,但依然呈三维网络结构;明胶的加入使细菌纤维素的链规整度下降,结晶度变小、力学性能下降;同时,明胶能够调节细胞的响应并且促进细胞的贴附和生长,使细菌纤维素/明胶复合多孔支架更有利于细胞的粘附、增殖,更适用于生物医学领域。 In this research,a bacterial cellulos(BC)/gelatin composite porous scaffold has been successfully prepared by using BC gel and gelatin solution as raw materials.Characteristics of this BC/gelatin composite porous scaffold are investigated by Fourier transform infrared spectrum(FT-IR),scanning electron microscopy(SEM),X-ray diffraction(XRD) and the tensile test.The results show that the composite scaffold has very well interconnected porous network structure and large aspect surface.Gelatin molecules are not only coated on the BC fibrils surface but also penetrate inside BC.With the introduction of gelatin,the crystal structure of BC becomes less regular,crystallinity and tensile properties tend to decrease,which might be associated with strong interaction between BC and gelatin.The cells incubated in BC/gelatin composite porous scaffold for 48 h are capable of forming cell adhesion and proliferation.It shows much better biocompatibility than pure BC.Therefore,this BC/gelatin scaffold is more suitable for biomedical applications.
作者 蔡志江 侯成伟
机构地区 天津工业大学纺织学院 先进纺织复合材料教育部重点实验室天津工业大学
出处 《高分子材料科学与工程》 EI CAS CSCD 北大核心 2012年第8期140-143,共4页 Polymer Materials Science & Engineering
基金 天津市自然科学基金资助项目(11JCYBJC02500)
关键词 细菌纤维素 明胶 复合 多孔支架 bacterial cellulose gelatin composite porous scaffold
分类号 TB34 [一般工业技术—材料科学与工程]
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参考文献5

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同被引文献52

  • 1朱昌来,李峰,尤庆生,陆松华,王庆庆,林琳,张天一.纳米细菌纤维素的制备及其超微结构镜观察[J].生物医学工程研究,2008,27(4):287-290. 被引量:12
  • 2施庆珊.细菌纤维素的研究进展[J].生物学杂志,2004,21(5):12-15. 被引量:21
  • 3张小红,崔英德,潘湛昌.聚丙烯酸/海藻酸钠高吸水性树脂的制备及生物降解性能[J].化工学报,2005,56(6):1134-1137. 被引量:41
  • 4张永凤,卢红梅,何绪晓,白爱琴.细菌纤维素及其应用[J].江西食品工业,2007(1):29-32. 被引量:9
  • 5r郑磊,王前.骨组织工程基质材料的现状及展望[J].生物医学工程杂志,2001,18(3):470-474.
  • 6Helenius G, Backdahl H, Bodin A, et al. In vivo bio- compatibility of bacterial cellulose [ J ]. Journal of Bio- medical Materials Research, 2005, 76(2): 431 -438.
  • 7Hong L, Wang Y L, Jia S R, et al. Hydroxyapatite/bacterial cellulose composites synthesized via a biomime- tic route [ J ]. Materials Letters, 2006, 13 - 14 ( 60 ) : 1710 - 1713.
  • 8Hutchens S A, Benson R S, Evans B R, et al. Biomim- etic synthesis of calcium - deficient hydroxyapatite in a natural hydrogel [ J ]. Biomaterials, 2006, 26 ( 27 ) : 4661 - 4670.
  • 9Lee J, Tae G, Kim Y H,et al. The effect of gelatin in- corporation into electrospun poly ( L - lactide - co - 3 - eaprolactone) fibers on mechanical properties and cyto- compatibility [ J ] . Biomaterials, 2008, 29: 1872 - 1879.
  • 10Bhattarai S R, Bhattarai N, Yi H K, et al. Novel biode- gradable electrospun membrane: scaffold for tissue engi- neering[ J~. Biomaterials, 2004, 25 : 2595 - 2602.

引证文献7

二级引证文献20

高分子材料科学与工程
2012年 第8期

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