包埋NGF的壳聚糖-PLGA双壁微球制备及其相关性能研究  被引量：3

作　　者：戎梦瑶 昌震[2] 欧佳伟 赵松川 曾文 刘琦[3] RONG Mengyao;CHANG Zhen;OU Jiawei;ZHAO Songchuan;ZENG Wen;LIU Qi(Department of Internal Medicine,the Hospital of Xidian University,Xi’an Shaanxi,710071,P.R.China;Department of Spinal Surgery,Honghui Hospital Affiliated to Medical School of Xi’an Jiaotong University,Xi’an Shaanxi,710054,P.R.China;Department of Neurosurgery,the First Hospital of Yulin,Yulin Shaanxi,718000,P.R.China)

机构地区：[1]西安电子科技大学医院内科,西安710071 [2]西安交通大学医学院附属红会医院脊柱外科,西安710054 [3]榆林市第一医院神经外科,陕西榆林718000

出　　处：《中国修复重建外科杂志》2020年第1期102-108,共7页Chinese Journal of Reparative and Reconstructive Surgery

基　　金：国家自然科学基金资助项目(81501047)~~

摘　　要：目的评估壳聚糖-聚乳酸-聚乙醇酸共聚物[poly(lactide-co-glycolide),PLGA]双壁微球在体外持续缓释具有生物活性的NGF的可行性。方法应用乳化-离子交联方法制备包埋NGF的、具有不同三聚磷酸钠(sodium tripolyphosphate,TPP)交联浓度[1%、3%、10%(W/V)]的壳聚糖-PLGA双壁微球,同时制备包埋NGF的PLGA微球。通过光镜、扫描电镜、激光共聚焦显微镜观察双壁微球的表面及内部形态,并行双壁微球的粒径分析和红外光谱分析。取包埋NGF的PLGA微球或1%、3%、10%TPP浓度交联的包埋NGF的壳聚糖-PLGA双壁微球(分别设为A、B、C、D组),于不同时间点行体外微球降解率测定、微球中NGF缓释率检测;以未包埋NGF的壳聚糖-PLGA双壁微球缓释液(设为A1组)作为对照,比较A1、B、C、D组体外微球缓释液中NGF的生物活性[以缓释液中具有阳性轴突延长反应的大鼠肾上腺嗜铬细胞瘤(PC12)细胞百分比表示]。结果包埋NGF的壳聚糖-PLGA双壁微球呈球形结构,具有相对粗糙的外表面;激光共聚焦显微镜观察示PLGA微球均匀分布于壳聚糖-PLGA双壁微球内;双壁微球的粒径范围为18.5~42.7μm;红外光谱分析结果说明双壁微球中壳聚糖的氨基与TPP中的磷酸基发生了静电反应。体外降解率测定显示,B、C、D组双壁微球降解速度明显快于A组,并随着TPP浓度的增加而逐渐减慢,培养各时间点各组间微球降解率比较差异均有统计学意义(P<0.05)。体外NGF缓释率测定显示,与A组PLGA微球相比,B、C、D组双壁微球以相对较慢的速度缓释NGF,且缓释速度随TPP浓度增加而减慢。除84 d外,各时间点B、C、D组间比较NGF总缓释率差异均有统计学意义(P<0.05)。体外NGF的生物活性评估显示,培养各时间点B、C、D组缓释液中具有阳性轴突延长反应的PC12细胞百分比均显著高于A1组(P<0.05)。培养7、28 d,B、C、D组间比较差异无统计学意义(P>0.05);56、84 d时,C、D组缓释液中具Objective To evaluate the feasibility of the chitosan-poly(lactide-co-glycolide)(PLGA) double-walled microspheres for sustained release of bioactive nerve growth factor(NGF) in vitro. Methods NGF loaded chitosanPLGA double-walled microspheres were prepared by emulsion-ionic method with sodium tripolyphosphate(TPP) as an ionic cross-linker. The double-walled microspheres were cross-linked by different concentrations of TPP [1%, 3%, 10%(W/V)]. NGF loaded PLGA microspheres were also prepared. The outer and inner structures of double-walled microspheres were observed by light microscopy, scanning electron microscopy, confocal laser scanning microscopy,respectively. The size and distribution of microspheres and fourier transform infra red spectroscopy(FT-IR) were analyzed. PLGA microspheres with NGF or chitosan-PLGA double-walled microspheres cross-linked by 1%, 3%, and10%TPP concentration(set as groups A, B, C, and D respectively) were used to determine the degradation ratio of microspheres in vitro and the sustained release ratio of NGF in microspheres at different time points. The bioactivity of NGF(expressed as the percentage of PC12 cells with positive axonal elongation reaction) in the sustained release solution of chitosan-PLGA double-walled microspheres without NGF(set as group A1) was compared in groups B, C, and D.Results The chitosan-PLGA double-walled microspheres showed relative rough and spherical surfaces without aggregation. Confocal laser scanning microscopy showed PLGA microspheres were evenly uniformly distributed in the chitosan-PLGA double-walled microspheres. The particle size of microspheres ranged from 18.5 to 42.7 μm. The results of FT-IR analysis showed ionic interaction between amino groups and phosphoric groups of chitosan in double-walled microspheres and TPP. In vitro degradation ratio analysis showed that the degradation ratio of double-walled microspheres in groups B, C, and D appeared faster in contrast to that in group A. In addition, the degradation ratio of double-walled microspher

关 键 词：壳聚糖 聚乳酸-聚乙醇酸共聚物 微球 NGF 神经损伤 

分 类 号：R688[医药卫生—骨科学] R943[医药卫生—外科学]