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叶酸靶向多西紫杉醇纳米肺吸入粉雾剂的制备及评价
引用本文:朱晓婕,孔 颖,刘 琦,卢 杨,赵 娣,李 宁,陈西敬. 叶酸靶向多西紫杉醇纳米肺吸入粉雾剂的制备及评价[J]. 金属学报, 2017, 22(5): 495-500
作者姓名:朱晓婕  孔 颖  刘 琦  卢 杨  赵 娣  李 宁  陈西敬
作者单位:中国药科大学基础医学与临床药学院,南京 211198,江苏
基金项目:国家自然科学基金项目(81473272;81503148)
摘    要:目的: 制备基于叶酸靶向多西紫杉醇纳米粒的肺吸入粉雾剂,用于肺癌的治疗。方法: 采用有机溶剂挥发法制备叶酸靶向纳米粒,考察纳米粒理化性质,溴化噻唑蓝四氮唑(MTT)实验法研究纳米粒的体外细胞毒性和肿瘤细胞叶酸靶向性,使用喷雾干燥技术进一步制备基于纳米粒的肺吸入粉雾剂,并考察其理化性质。 结果: 本实验制备的叶酸靶向纳米粒粒径为(100.1±1.0) nm,普通纳米粒组IC50为(2.09±0.82) μmol/L,叶酸靶向纳米粒组IC50为(0.80±0.32) μmol/L。肺吸入粉雾剂体外沉积率和休止角分别为(21.10±0.18)%和(36.75±0.52)°。结论: 成功制备了基于叶酸靶向纳米粒的肺吸入粉雾剂,肺部吸入抗癌药物直达病灶部位,主动靶向肺癌细胞,提高靶器官药物浓度,降低毒副作用,提高患者的顺应性,满足临床肺癌治疗所需。

关 键 词:多西紫杉醇  纳米粒  肺吸入粉雾剂  
收稿时间:2017-03-17
修稿时间:2017-04-18

Preparation and evaluation of inhaled dry powders based on folic acid-conjugated Docetaxel nanoparticles
ZHU Xiaojie,KONG Ying,LIU Qi,LU Yang,ZHAO Di,LI Ning,CHEN Xijing. Preparation and evaluation of inhaled dry powders based on folic acid-conjugated Docetaxel nanoparticles[J]. Acta Metallurgica Sinica, 2017, 22(5): 495-500
Authors:ZHU Xiaojie  KONG Ying  LIU Qi  LU Yang  ZHAO Di  LI Ning  CHEN Xijing
Affiliation:School of Basic Medicine and Clinical Pharmacy, China Pharmaceutical University, Nanjing 211198,Jiangsu,China
Abstract:AIM: To prepare docetaxel-loaded folic acid-conjugated nanoparticles (NPs-DTX-FA) for the treatment of lung cancer. METHODS: The NPs-DTX-FA were prepared by the solvent evaporation method and the nanoparticles (NPs) were then co-spray dried with excipients to obtain inhaled dry powders. The physiochemical properties of NPs and inhaled dry powders were evaluated. MTT assay was employed to study the cytotoxicity and tumor-targeting property of the NPs. RESULTS:The diameter of LPs-DTX-FA was (100.1±1.0) nm, the IC50 for NPs-DTX and NPs-DTX-FA were (2.09±0.82) μmol/L and (0.80±0.32) μmol/L, respectively. The fine particle fraction (FPF) and angle of repose (θ) of the inhaled dry powders were (21.10±0.18)% and (36.75±0.52)°, respectively. CONCLUSION: The preparation of NPs-DTX-FA based inhaled dry powders was successful and this formulation represented a possibility of clinical application by achieving higher anti-cancer activity in tumor site and lower damage to healthy organs.
Keywords:docetaxel   nanoparticle   dry powder inhalation  
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