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张其清, 张其清#, 梁屹
中国医学科学院学报,2002,24(2):197~202,-0001,():
-1年11月30日
纳米技术是在纳米尺度下对物质进行制备、研究和工业化,以及利用纳米尺度物质进行交叉研究和工业化的综合性研究体系。本文对利用纳米技术发展分子工程,包括纳米生物分子机器人和纳米信息处理系统,研究生物大分子,研究组织工程支架材料,研究药物载体,发展诊断与监测技术,以及纳米技术在生物医学研究领域的发展趋势作了综述,并展望了纳米技术在生物医学领域的发展前景。
纳米技术, 生物医学
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【期刊论文】碳化二亚胺交联的胶原-硫酸软骨素支架材料构建人工真皮的研究
张其清, 刘玲蓉, 张立海, 马东瑞, 任百智
中国修复重建外科杂志,2003,17(2):83~88,-0001,():
-1年11月30日
目的 探讨以胶原-硫酸软骨素支架材料构建人工真皮的可行性。方法 以碳化二亚胺(EDC)为交联剂构建胶原-硫酸软骨素(CS)支架体系。通过光电子能谱、扫描电镜、HE染色观察及力学性能测试等对材料的理化性能进行表征。同时分离培养人胚真皮成纤维细胞,将体外扩增的成纤维细胞接种在支架上,制备人工真皮。通过组织学、免疫组织化学,与传统的胶原海绵人工真皮的性质进行比较。结果 胶原-CS支架是三维多孔海绵状结构且空隙均匀,与胶原支架比较,断裂强度提高,并且材料表面极性基团增加。成纤维细胞在胶原-CS支架材料上生长良好,形成人工真皮。结论 胶原-CS人工真皮具有优越的生物学和力学性能,成纤维细胞在胶原-CS支架上黏附、增殖情况优于胶原真皮。
组织工程化真皮, 胶原, 硫酸软骨素, 成纤维细胞
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【期刊论文】Polyhydroxybutyrate Produced from Cheap Resources. I. Crystallization and Melting Behavior
张其清
Journal of Applied Polymer Science, Vol. 54, 515-518 (1994),-0001,():
-1年11月30日
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【期刊论文】Collagen-Synthetic Polymeric Composite Materials-Reviews and Perspectives
张其清, Zhang Qiqing, Wang Tao, Wang Chun
SCIENCE FOUNDATION IN CHINA Vol. 4, No.2, 1996,-0001,():
-1年11月30日
In this paper, we review some mafor progrosses made in the field of biomedical materials research on the application of collagen protein and its composites formed with certain synthetic polymers (e. g., polyhydroxvethyl methacrylate and polyvinyl alcohol). Some potential development and application of the materials are discussed tentatively. Due to their biocompatibility and physico-chemical properties, the collagen-synthetic polymer hydrogels will find wide application in soft tissue substitution, drug release system, guided tissue regeneration, and tissue engineering.
collagen,, synthetic polymer,, composite biomaterial,, hydrogels
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【期刊论文】Structure Investigation of Poly(vinyl alcohol)-Collagen Composite
张其清, Qiqing ZHANG†, Lei REN and Lingrong LIU, Chun WANG
J. Mater. Sci, Technol., Vol. 13, 1997,-0001,():
-1年11月30日
Naturally derived collagen protein was mixed thoroughly with medical grade poly (vinyl alcohol) (PVA) at the ratio of 90: 10 (w/w) and was crosslinked by formaldehyde to form a homogeneous composite membrane. The bulk structure of the membrane was characterized by means of X-ray diffraction (XRD) and transmission electron microscopy (TEM). The membrane surface structure was investigated using Fourier transform-infrared spectroscopy (attenuated total refraction) (FTIR-ATR), electron spectroscopy for chemical analysis (ESCA) and contact angle measurement. It was found that collagen and PVA can remain stable. This was supported by the fact that no sign of phase separation1 had been observed. The use of crosslinking agent can substantially influence the structure of the composite. It is suggested that this new composite deserves further investigation and is potentially usable as a biomedical material.
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