Study on Preparation of Temperature-sensitive Injectable Hydrogel 被引量：1

Study on Preparation of Temperature-sensitive Injectable Hydrogel

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摘要 To get a sort of new scaffold material for soft tissue reconstruction,we have prepared XLHA-PNIPAAm and XLHA-MC injectable hydrogels through blending crosslinked HA(XLHA) and two temperature-sensitive materials differed in degradation poly(N-isopropylacrylamide)(PNIPAAm) and methylcellulose(MC),respectively.We tested the injectablility,enzymatic biodegradability,temperature-sensitivity,structure cytotoxicity and hemolysis of the two injectable hydrogels.Our research has successfully obtained the preparation condition of XLHA-PNIPAAm injectable hydrogel,and verified that adding non-degradable material PNIPAAm can postpone the degradation of HA more effectively than degradable material MC.PNIPAAm prepared with 5 kGy dose radiation,MBAAm/NIPAAm(M/M)=0.015,monomer concentration=3% produced XLHA-PNIPAAm with slowest enzymatic biodegradability.DSC results showed that temperature-sensitivity of the XLHA-PNIPAAm was more stable than that of XLHA-MC.Two composite hydrogels were qualified in cytotoxicity and hemolysis tests and the biocompatibility of XLHA-PNIPAAm hydrogel showed better than XLHA-MC hydrogel. To get a sort of new scaffold material for soft tissue reconstruction,we have prepared XLHA-PNIPAAm and XLHA-MC injectable hydrogels through blending crosslinked HA（XLHA） and two temperature-sensitive materials differed in degradation poly（N-isopropylacrylamide）（PNIPAAm） and methylcellulose（MC）,respectively.We tested the injectablility,enzymatic biodegradability,temperature-sensitivity,structure cytotoxicity and hemolysis of the two injectable hydrogels.Our research has successfully obtained the preparation condition of XLHA-PNIPAAm injectable hydrogel,and verified that adding non-degradable material PNIPAAm can postpone the degradation of HA more effectively than degradable material MC.PNIPAAm prepared with 5 kGy dose radiation,MBAAm/NIPAAm（M/M）=0.015,monomer concentration=3% produced XLHA-PNIPAAm with slowest enzymatic biodegradability.DSC results showed that temperature-sensitivity of the XLHA-PNIPAAm was more stable than that of XLHA-MC.Two composite hydrogels were qualified in cytotoxicity and hemolysis tests and the biocompatibility of XLHA-PNIPAAm hydrogel showed better than XLHA-MC hydrogel.

作者 LIU Ling-xiu HU Guo-yin LIU Xin GU Han-qing

机构地区 Biomedical Engineering Department Tianjin Institute of Urological Surgery

出处《Chinese Journal of Biomedical Engineering(English Edition)》 2010年第2期66-76,共11页 中国生物医学工程学报（英文版）

基金 The Nattional Key Scientific Program-Nanoscience and Nanotechnology grant number:2009CB930000

关键词 HYALURONAN poly（N-isopropylacrylamide） METHYLCELLULOSE injectable hydrogel tissue engineering 复合水凝胶温度敏感性制备条件注射 PNIPAAm 生物降解性异丙基丙烯酰胺可降解材料

分类号 TQ317.3 [化学工程—高聚物工业] O633.22 [理学—高分子化学]

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Chinese Journal of Biomedical Engineering(English Edition)

2010年第2期

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