Because of the incomparable merits (nontoxicity, non-remainder, fast transfer mass) of supercritical carbon dioxide fluid technique(SC-CO2), it was used to developed a series of novel biodegradable tissue engineer...Because of the incomparable merits (nontoxicity, non-remainder, fast transfer mass) of supercritical carbon dioxide fluid technique(SC-CO2), it was used to developed a series of novel biodegradable tissue engineering scaffold materials in this research. The novel PLA/chitosan composite materials could be molded to different shapes, and the porosity of the materials were over 200 lam and connected. Chondrocyte cultivation, subcutaneous and intramuscular implantation were mainly discussed this paper. The results showed that the cells could well adhere, grow and multiplicate on the surface of the materials, which indicated good biocompatibility of the composite materials. The plantation test revealed that the PLA materials had already dismissed 2 month late in the body, while the composite materials could still keep certain strength and shape, and the most important things is the response of the tissue toward the implanted PLA/chitosan composite materials was mild and had far less inflammation than PLA materials. 8 to 16 weeks later, fiber membrane was stable; degradation of the materials was seen clear and tissue had already spread into it.展开更多
基金This work was supported by the national key project“973”program of China.(No.G1999054306)“863”program of ministry of education in China(2OOlAA625050)Guangdong Science and technology bureau(No.A302020104).
文摘Because of the incomparable merits (nontoxicity, non-remainder, fast transfer mass) of supercritical carbon dioxide fluid technique(SC-CO2), it was used to developed a series of novel biodegradable tissue engineering scaffold materials in this research. The novel PLA/chitosan composite materials could be molded to different shapes, and the porosity of the materials were over 200 lam and connected. Chondrocyte cultivation, subcutaneous and intramuscular implantation were mainly discussed this paper. The results showed that the cells could well adhere, grow and multiplicate on the surface of the materials, which indicated good biocompatibility of the composite materials. The plantation test revealed that the PLA materials had already dismissed 2 month late in the body, while the composite materials could still keep certain strength and shape, and the most important things is the response of the tissue toward the implanted PLA/chitosan composite materials was mild and had far less inflammation than PLA materials. 8 to 16 weeks later, fiber membrane was stable; degradation of the materials was seen clear and tissue had already spread into it.
