中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2015年
12期
1858-1863
,共6页
张霞只%司徒方民%彭鹏%焦延鹏
張霞隻%司徒方民%彭鵬%焦延鵬
장하지%사도방민%팽붕%초연붕
生物材料%材料相容性%丝素蛋白%壳聚糖%复合支架%性能研究%国家自然科学基金
生物材料%材料相容性%絲素蛋白%殼聚糖%複閤支架%性能研究%國傢自然科學基金
생물재료%재료상용성%사소단백%각취당%복합지가%성능연구%국가자연과학기금
Materials Testing%Chitosan%Silk
背景:丝素蛋白作为天然生物高分子具有良好的生物相容性,但其结晶性能较高、脆性较大,较难得到均匀结构的三维支架材料。目的:通过加入壳聚糖改善丝素蛋白的结晶性,得到具有稳定力学强度的三维组织工程支架材料。方法:采用CaCl 2/CH 3 CH 2 OH/H 2结果与结论:复合支架的孔隙结构比纯丝素蛋白支架更均匀有序,并且壳聚糖含量越高,复合支架的孔隙越均匀有序、孔隙率越低、支架结构越致密;当壳聚糖与丝素蛋白的混合比例为1∶2时,在复合支架中的吸水率最高,同时高于丝素蛋白支架,但低于壳聚糖支架;随丝素蛋白成分的增加,复合支架弹性更好,保持形状的能力更优。 O三元溶液溶解蚕茧,提取丝素蛋白并制成溶液;使壳聚糖溶液与丝素蛋白溶液的质量比分别为2∶1、1∶1、1∶2,采用冷冻干燥法制备多孔丝蛋白/壳聚糖支架材料,并对复合支架进行甲醇浸泡交联处理,以单纯的丝素蛋白和壳聚糖支架为对照。对各组支架进行扫描电镜观察,红外光谱和X射线衍射、孔隙率、吸水率及在水环境下的周期性循环压缩力学性能测试。
揹景:絲素蛋白作為天然生物高分子具有良好的生物相容性,但其結晶性能較高、脆性較大,較難得到均勻結構的三維支架材料。目的:通過加入殼聚糖改善絲素蛋白的結晶性,得到具有穩定力學彊度的三維組織工程支架材料。方法:採用CaCl 2/CH 3 CH 2 OH/H 2結果與結論:複閤支架的孔隙結構比純絲素蛋白支架更均勻有序,併且殼聚糖含量越高,複閤支架的孔隙越均勻有序、孔隙率越低、支架結構越緻密;噹殼聚糖與絲素蛋白的混閤比例為1∶2時,在複閤支架中的吸水率最高,同時高于絲素蛋白支架,但低于殼聚糖支架;隨絲素蛋白成分的增加,複閤支架彈性更好,保持形狀的能力更優。 O三元溶液溶解蠶繭,提取絲素蛋白併製成溶液;使殼聚糖溶液與絲素蛋白溶液的質量比分彆為2∶1、1∶1、1∶2,採用冷凍榦燥法製備多孔絲蛋白/殼聚糖支架材料,併對複閤支架進行甲醇浸泡交聯處理,以單純的絲素蛋白和殼聚糖支架為對照。對各組支架進行掃描電鏡觀察,紅外光譜和X射線衍射、孔隙率、吸水率及在水環境下的週期性循環壓縮力學性能測試。
배경:사소단백작위천연생물고분자구유량호적생물상용성,단기결정성능교고、취성교대,교난득도균균결구적삼유지가재료。목적:통과가입각취당개선사소단백적결정성,득도구유은정역학강도적삼유조직공정지가재료。방법:채용CaCl 2/CH 3 CH 2 OH/H 2결과여결론:복합지가적공극결구비순사소단백지가경균균유서,병차각취당함량월고,복합지가적공극월균균유서、공극솔월저、지가결구월치밀;당각취당여사소단백적혼합비례위1∶2시,재복합지가중적흡수솔최고,동시고우사소단백지가,단저우각취당지가;수사소단백성분적증가,복합지가탄성경호,보지형상적능력경우。 O삼원용액용해잠충,제취사소단백병제성용액;사각취당용액여사소단백용액적질량비분별위2∶1、1∶1、1∶2,채용냉동간조법제비다공사단백/각취당지가재료,병대복합지가진행갑순침포교련처리,이단순적사소단백화각취당지가위대조。대각조지가진행소묘전경관찰,홍외광보화X사선연사、공극솔、흡수솔급재수배경하적주기성순배압축역학성능측시。
BACKGROUND:Silk fibroin as natural biological macromolecules has good biocompatibility, but it is difficult to make the three-dimensional scaffold with uniform structure because of its higher crystalization performance and bigger brittleness. OBJECTIVE:To improve the crystalization of silk fibroin through the addition of chitosan, and to get three-dimensional tissue engineering scaffolds with better mechanical strength. METHODS: CaCl2/CH3CH2OH/H2 RESULTS AND CONCLUSION:The introduction of chitosan could improve the properties of scaffolds. The porosity of the composite scaffold with lower porosity was more uniform and orderly with higher content of O ternary solution was used to dissolve silkworm cocoon to extract silk fibroin and form solution. Silk fibroin solution and chitosan solution were mixed according to different mixing ratios of 2:1, 1:1, 1:2, respectively, and then porous silk protein/chitosan scaffolds were prepared by freeze-drying method and treated by methanol. Scaffold morphology was observed by scanning electron microscopy, the chemical structure and crystaline state of the scaffolds were characterized through infrared spectrum and X-ray diffraction test, respectively. Also, the porosity and water uptake were tested and periodic cycle compression mechanical properties under the water environment were determined. chitosan. When the mixture rate of chitosan and silk fibroin was 1:2, the water uptake rate was the highest in the composite scaffolds, and also higher than that of the silk fibroin scaffold but lower than that of the chitosan scaffold. With the increase of silk fibroin, the composite scaffolds had better elasticity and stronger ability to maintain the shape.
