核交联的含磺酸甜菜碱pH敏感胶束的制备与表征

制备了一种在疏水段带有侧基叠氮官能团的两亲性pH敏感的聚合物——聚己内酯-聚(甲基丙烯酸二乙氨基乙酯-磺酸甜菜碱)((PCL-ACL)-PDEAS);同时合成了两端带有炔基中间带有二硫键的交联剂,用红外、核磁表征了目标分子.通过两亲性高分子自组装形成胶束,并通过点击化学反应获得了核交联的胶束.通过动态光散射测定粒径,胶束酸碱滴定表征胶束的pH敏感性,还原条件下释放药物的速度,对比了非交联胶束和交联胶束的性质.结果表明,交联胶束在正常生理条件下的释放速度比未交联胶束更慢;而在有DTT的存在条件下,交联胶束由于二硫键断裂,释放速率明显加快.因此,核交联载药胶束有可能响应肿瘤的微环境实现靶向释放.     

双重敏感的磺酸甜菜碱-姜黄素药物载体的合成和表征

合成了聚姜黄素-二硫键-聚甲基丙烯酸二乙胺基乙酯-聚磺酸甜菜碱(Cur-DA-ss-PDEA-PS,或简写为Cur-ss-PDEA-PS),采用核磁、红外对聚合物结构进行了表征,用示差扫描量热法测试了聚合物热性能.用溶剂挥发法制备聚合物胶束,形成了聚磺酸甜菜碱为亲水壳层、聚姜黄素为疏水核、二硫键作为还原敏感基团和聚甲基丙烯酸二乙氨基乙酯为p H敏感基团的胶束.用荧光分光光度计测定了临界胶束浓度,动态光散射以及扫描电镜对胶束结构及性质进行了表征.结果显示,胶束稳定性良好,粒径分布较窄,且具有p H敏感性和还原敏感性.胶束载药量及包封率测试结果显示,相比于聚己内酯为内核的聚合物胶束,聚姜黄素的引入提高了胶束对药物的封装效果.     

星型两亲性聚己内酯-b-聚甲基丙烯酸(2-羟乙酯)嵌段共聚物的合成和表征

通过开环聚合(ROP)和原子转移自由基聚合(ATRP)制备了一类新型的两亲性嵌段共聚物——六臂星形聚(ε-已内酯)-b-聚甲基丙烯酸(2-羟乙酯)(6sPCL-b-PHEMA).6sPCL-b-PHEMA通过三步反应合成:(1)双季戊四醇开环聚合ε-己内酯的合成6sPCL;(2)以2-溴异丁基酰溴封端星形聚合物制备大分...     

疏水星形PCL与PCL-b-PEG两亲共聚物的自组装研究

用疏水星形聚合物模拟疏水性药物,研究其与两亲聚合物的自组装,探讨两亲性聚合物包载疏水性药物的机理.用开环聚合合成了5种两亲聚己内酯-聚乙二醇两嵌段共聚物(PCL-b-PEG)和4种疏水星型聚己内酯(star-branched polycaprolactone,SPCL),使用相分离法使PCL-b-PEG与SPCL进行自组装.浊度、SEM、动态光散射(dynamic light scattering,DLS)和FTIR结果表明,PCL-b-PEG与SPCL能够进行自组装,而且PCL-b-PEG中PEG长度和PCL含量对自组装有影响;PCL-b-PEG/SPCL形成的自组装体的粒径与SPCL的臂长、臂数和加入量有关.     

含磷脂酰胆碱的聚乳酸的诱导矿化研究

分别以甘油磷脂酰胆碱和1,4-丁二醇为引发剂开环丙交酯,制备了含磷脂酰胆碱的聚乳酸(PLA-PC)和聚乳酸(PLA),比较了两者在诱导矿化中的差异.用傅立叶红外光谱仪(FTIR)、X-射线衍射仪(XRD)和扫描电子显微镜(SEM)对PLA-PC膜表面形成的矿化物进行了表征.结果表明,形成的矿化物为羟基磷灰石(HAP),PLA-PC膜有利于成核和生长,晶体呈片状,并随矿化时间延长,HAP晶粒逐渐增大,晶片厚度也逐渐变大.     

Preparation and Characterization of Chitosan Composite Membranes Crosslinked by Carboxyl-capped Poly（ethylene glycol）

In this study a series of chemically crosslinked chitosan/poly（ethylene glycol） （CS/PEG） composite membranes were prepared with PEG as a crosslinking reagent other than an additional blend. First, carboxyl-eapped poly（ethylene glycol） （HOOC-PEG-COOH） was synthesized. Dense CS/PEG composite membranes were then prepared by casting/evaporation of CS and HOOC-PEG-COOH mixture in acetic acid solution. Chitosan was chemically crosslinked due to the amidation between the carboxyl in HOOC-PEG-COOH and the amino in chitosan under heating, as confirmed by FTIR analysis. The hydrophilicity, water-resistance and mechanical properties of pure and crosslinked chitosan membranes were characterized, respectively. The results of water contact angle and water absorption showed that the hydrophilicity of chitosan membranes could be significantly improved, while no significant difference of weight loss between pure chitosan membranes and crosslinked ones was detected, indicating that composite membranes with amidation crosslinking possess excellent water resistanance ability. Moreover, the tensile strength of chitosan membranes could be significantly enhanced with the addition of certain amount of HOOC-PEG-COOH crosslinker, while the elongation at break didn＇t degrade at the same time. Additionally, the results of swelling behaviors in water at different pH suggested that the composite membranes were pH sensitive.