Huang Kai-Hong, Zhu Zhao-Hua, Liu Jian-Hua, Chen Qi-Kui, Liu Xiao-Yan, Chang Jin
Department of Gastroenterology, The Second Affiliated Hospital, Sun Yat-sen University, Guangzhou, Guangdong, P. R. China.
Ai Zheng. 2005 Aug;24(8):1023-6.
BACKGROUND & OBJECTIVE: As a new drug delivery carrier, medical nanoparticle (NP) appears to be very promising and are widely studied. Compare with microparticle, nanoparticle possesses several advantages, such as ultramicroscopic size, could be ingested by the cells after crossing the tissue matrix, and can penetrate the arterial wall and cross the blood-brain barrier. This study was to prepare polylactic acid (PLA) nanoparticle, and observe its morphology, diameter, structure, surface elements, and ability of in vitro drug release.
The biodegradable PLA was used as the carrier, and 5-fluorouracil (5-FU) was used as the model drug. 5-FU-PLA nanoparticle (5-FU-PLA-NP) was prepared by matrix and ultrasound emulsification. Morphology of 5-FU-PLA-NP was observed under scanning electron microscope; its surface elements were detected by X ray photoelectron spectroscopyû its drug loading (DL), embedding ratio (ER), and ability of in vitro drug release were assessed by ultraviolet spectroscopy.
The nanoparticle was uniformly spherical with average diameter of (191+/-17) nm, DL of 15.2%, and ER of 45.6%. The nanoparticle showed sustained release character in the experiment of in vitro drug release: the cumulative drug release rate in analog body fluid was 94.3% at the 10th day.
PLA-NP may serve as a carrier of 5-FU, and can change the pharmacokinetics of 5-FU, slower down drug release; 5-FU-PLA-NP can be prepared as intravenous injection, and may prolong the in vivo circulation time of 5-FU, so as to play more efficient antitumor effects.
作为一种新型药物递送载体,医用纳米颗粒(NP)似乎很有前景且受到广泛研究。与微粒相比,纳米颗粒具有几个优点,如超微观尺寸、穿过组织基质后可被细胞摄取、能穿透动脉壁并穿过血脑屏障。本研究旨在制备聚乳酸(PLA)纳米颗粒,并观察其形态、直径、结构、表面元素及体外药物释放能力。
以可生物降解的PLA为载体,5-氟尿嘧啶(5-FU)为模型药物。采用基质法和超声乳化法制备5-FU-PLA纳米颗粒(5-FU-PLA-NP)。在扫描电子显微镜下观察5-FU-PLA-NP的形态;用X射线光电子能谱检测其表面元素;用紫外光谱法评估其载药量(DL)、包封率(ER)及体外药物释放能力。
纳米颗粒呈均匀球形,平均直径为(191±17)nm,DL为15.2%,ER为45.6%。纳米颗粒在体外药物释放实验中表现出缓释特性:在模拟体液中第10天的累积药物释放率为94.3%。
PLA-NP可作为5-FU的载体,能改变5-FU的药代动力学,减缓药物释放;5-FU-PLA-NP可制备成静脉注射剂,可能延长5-FU在体内的循环时间,从而发挥更有效的抗肿瘤作用。
