The studies of PLGA nanoparticles loading atorvastatin calcium for oral administration in vitro and in vivo

A biodegradable poly(lactic-co-glycolic acid) loading atorvastatin calcium(AC) nanoparticles(AC-PLGA-NPs) were prepared by probe ultrasonication and evaporation method aiming at improving the oral bioavailability of AC. The effects of experimental parameters, including stabilizer species, stabilizer concentration and pH of aqueous phase, on particle size were also evaluated. The resultant nanoparticles were in spherical shape with an average diameter of 174.7 nm and a narrow particle size distribution. And the drug loading and encapsulation efficiency were about 8% and 71%, respectively. The particle size and polydispersion were almost unchanged in 10 days. The release curves of AC-PLGA-NPs in vitro displaying sustained release characteristics indicated that its release mechanisms were matrix erosion and diffusion. The pharmacokinetic study in vivo revealed that the Cmax and AUC0-∞ of AC-PLGA-NPs in rats were nearly 3.7-fold and 4.7-fold higher than that of pure atorvastatin calcium suspension. Our results demonstrated that the delivery of AC-PLGANPs could be a promising approach for the oral delivery of AC for enhanced bioavailability.

番茄红素肝靶向脂质体制备工艺研究及肝靶向性评价

番茄红素是一种天然功能性类胡萝卜素,因化学稳定性及水溶性较差降低了生物利用率,将其制备成靶向脂质体可改善其水溶性并扩大其应用范围。实验采用探头式超声-逆向蒸发法制备以硬脂醇半乳糖苷为配体修饰的番茄红素肝靶向脂质体,单因素及响应面法优化后最佳工艺为大豆卵磷脂与胆固醇比7∶1、配体与固体脂质比1∶40、药脂比1∶48、旋蒸时间35 min、旋蒸温度51℃,在此条件下制备的脂质体包封率为(91.13±0.20)%,载药量为(2.39±0.37)%,粒径为(252.63±5.87)nm,在不同光照条件、贮藏温度以及有无氧气条件下稳定性均良好。动物实验显示番茄红素肝靶向脂质体组小鼠肝脏部位番茄红素含量最高,证明了经硬脂醇半乳糖苷修饰后,番茄红素脂质体肝靶向性增强。

薄膜超声法制备槲皮素脂质体研究

目的以粒径和包封率为指标,优选槲皮素脂质体的制备工艺。方法以氢化大豆磷脂(HSPC)、胆固醇(CH)为膜材,采用薄膜超声法制备脂质体。通过正交设计优化处方工艺,利用马尔文动态光散射粒径测定仪测定脂质体的粒径,鱼精蛋白沉淀法分离游离药物,HPLC法测定脂质体中槲皮素(QU)的包封率。结果最佳处方工艺为:HSPC∶CH=3∶1、HSPC∶QU=20∶1、探头超声(600 W)9 min。结论薄膜超声法适于实验室条件下制备槲皮素脂质体。

pH梯度法制备抗癌复方硫酸长春新碱脂质体

目的:制备同时包结硫酸长春新碱(VCR)、盐酸米托蒽醌(MTO)的复方脂质体并考察其制剂学性质。方法:采用pH梯度法合并逆相蒸发制备同时包结VCR、MTO的复方脂质体;用Sephadex G-50葡聚糖凝胶柱分离,HPLC同时测定VCR和MTO的包封率;以激光散射粒径分析仪测定复方脂质体的平均粒径及Z-电位;透射电镜观测形态;体外释放实验考察复方脂质体的释药特性。结果:所制备复方脂质体VCR的包封率为95.77%,MTO的包封率达99.53%;平均粒径为72.22 nm,Z-电位为-30.97 mV;外观圆整而均匀;体外释放结果复方脂质体中VCR的T1/2为6.82 h,对照溶液中VCR的T1/2为1.70 h,MTO在288 h仅释放了0.05%,对照溶液中MTO在12 h释放完全。结论:采用pH梯度法结合逆相法可制得同时包结VCR和MTO的复方脂质体,且包封率高、粒径小,体外释放证实复方脂质体具有缓释特性。

pH梯度法结合逆向蒸发法制备硫酸多黏菌素E脂质体

目的制备硫酸多黏菌素E脂质体，并对其处方工艺进行研究。方法采用pH梯度法和pH梯度法结合逆向蒸发法制备硫酸多黏菌素E脂质体，用超滤法分离游离药物与脂质体，用HPLC法测定包封率，考察各处方及工艺因素对包封率的影响。结果硫酸多黏菌素E脂质体最佳处方和工艺：磷脂和胆固醇质量比为3：1，药物与磷脂质量比为1：20，pH值梯度范围为3．0—5．8,50℃孵育20min，包封率达70％以上。结论采用pH梯度法结合逆向蒸发法制备的硫酸多黏菌素E脂质体具有较高的包封率。

基于穿透法的钢桥面板疲劳裂纹超声波检测方法研究

采用预制裂纹试件对钢桥面板疲劳裂纹的深度和角度两个特征进行超声波检测试验研究,提出一种双探头穿透检测技术,该技术通过测定裂纹尖端信号和最大穿透信号之间的比例关系ωK确定裂纹尖端特征信号,并利用几何关系法计算得到裂纹深度及角度.依据理论计算和平钢板预制裂纹检测试验结果,确定16mm钢板检测中两种K值探头对应的ωK值,分析该方法的可行性、检测结果的误差大小,以及裂纹宽度对结果的影响.结果表明,对于16mm钢板,K值为2和0.8时对应ωK为0.3和0.4.该方法对于裂纹深度及角度的检测具有较好的准确性,且裂纹宽度对于检测结果没有影响.

CA4P脂质体的制备工艺研究

目的研究CA4P脂质体的处方及制备工艺。方法以包封率为主要评价指标考察制备方法;用透射电镜和粒径测定仪表征脂质体的形态和粒径;用HPLC法测定脂质体中CA4P的包封率和载药量;以正交设计筛选优化最佳处方工艺。结果脂质体的平均粒径为167nm,Zeta电位为-24.3mV,最佳工艺处方的药-脂比为1:12,磷脂-胆固醇为8:1,有机相-水相体积为4:1,水合介质为0.9%NaCl;制备3批脂质体的平均包封率为58%、载药量为4.8%。结论逆相蒸发-探头超声法可制备具有较高包封率的CA4P脂质体。