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作 者:沈刚[1,2] 李娟娟[1,2] 程玲[1,2] 沈成英[1,2] 宋启瑞 韩晋[2] 袁海龙[2]
机构地区:[1]成都中医药大学药学院,四川成都611137 [2]中国人民解放军第302医院,北京100039
出 处:《中成药》2015年第10期2153-2158,共6页Chinese Traditional Patent Medicine
基 金:国家新药创制重大专项(2015ZX09101025);北京市科委重点项目(Z14110700220000)
摘 要:目的制备波棱瓜子(Herpetospermum caudigerum)总木脂素纳米混悬剂,优化其处方并考察其体外溶出行为。方法采用p H依赖的溶解-沉淀法联合高压均质技术制备纳米混悬剂,Box-Behnken设计-响应面法优化处方,同时对其形态、粒径及晶型结构进行表征。然后,采用桨法测定总木脂素纳米混悬剂的体外溶出度。结果以总木脂素10 mg/m L,PVP K30 3.3 mg/m L,SDS 2.1 mg/m L制得的波棱瓜子总木脂素纳米混悬剂的平均粒径为(306.15±7.06)nm,扫描电镜显示,其呈不规则球形,大小较均匀;X射线衍射图表明,总木脂素在纳米混悬前后,晶型无显著变化,以无定型状态存在;体外溶出实验表明,该纳米混悬剂的溶出量明显高于其物理混合物。结论该制备工艺简单、稳定,适用于弱酸弱碱类难溶性药物纳米混悬剂的制备。AIM To prepare nanosuspension for total lignans from Herpetospermum caudigerum,study its dissolution in vitro,and optimize the formulation. METHODS The nanosuspension was prepared by p H-dependent dissolving-precipitating and homogenization optimized by Box-Behnken design-response surface method and characterized in terms of morphology,particle size,and X-ray diffraction,with its dissolution in vitro measured by paddle method. RESULTS The optimal formulation( drug concentration 10 mg / m L,PVP K30 3. 3 mg / m L,SDS 2. 1mg / m L) for nanosuspension of total H. caudigerum lignan was found to bring particles with an average size of( 306. 15 ± 7. 06) nm,in an irregular spherical and in amorphous state in both coarse powder( before the nanosuspensions) and nanosuspensions shown by electron microscopy and X-ray diffraction. The in vitro accumulated dissolution rate of nanosuspension was higher than that of physical mixture under the same conditions. CONCLUSION The optimally formulated preparation sets a both simple and stable model for preparing nanosuspension of insoluble drugs of either weak acid or weak base.
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