Complex Loaded(复杂加载)研究综述
Complex Loaded 复杂加载 - The structural, thermal, and mechanical properties of the complex loaded into the chitosan-based composite were investigated. [1]研究了加载到壳聚糖基复合材料中的复合物的结构、热和机械性能。 [1]
Phospholipid Complex Loaded
A novel nanocarrier system of phospholipids complex loaded chitosan nanoparticles (FAPLC CNPs) was developed to improve the oral bioavailability and antioxidant potential of FA. [1] Salmon calcitonin phospholipid complex loaded-solid lipid nanoparticles (sCT-PC-SLNs) were prepared from Salmon calcitonin phospholipid complex (sCT-PC) by a film dispersion method. [2] Morin‐phospholipid complex loaded self‐emulsifying drug delivery system (MPC‐SENDDS) exhibited comparable plasma concentration of metabolites to parent drug after oral administration, indicated that MPC‐SNEDDS failed to bypass first‐pass metabolism and therefore showed compromised oral absorption enhancement. [3]开发了一种新型载有磷脂复合物的壳聚糖纳米粒子 (FAPLC CNPs) 的纳米载体系统,以提高 FA 的口服生物利用度和抗氧化潜力。 [1] 三文鱼降钙素磷脂复合物负载固体脂质纳米粒(sCT-PC-SLNs)以三文鱼降钙素磷脂复合物(sCT-PC)为原料,采用薄膜分散法制备。 [2] Morin-磷脂复合物负载自乳化给药系统(MPC-SENDDS)在口服给药后表现出与母体药物相当的血浆代谢物浓度,表明 MPC-SNEDDS 未能绕过首过代谢,因此表现出口服吸收增强受损。 [3]
Inclusion Complex Loaded
Graphic Herein, a novel β-cyclodextrin/camptothecin inclusion complex loaded folic acid hydrogel was constructed by elaborate design and preparation, which can load camptothecin into folic acid hydrogel effectively. [1] The aim of the present research work was to develop liposome (SCL) encapsulated β-cyclodextrin (β-CD) inclusion complex loaded with SCF extract (SCF-E). [2]图解 在此,经过精心设计和制备,构建了一种新型的β-环糊精/喜树碱包合物负载叶酸水凝胶,能够有效地将喜树碱负载到叶酸水凝胶中。 [1] 本研究工作的目的是开发负载 SCF 提取物 (SCF-E) 的脂质体 (SCL) 包封的 β-环糊精 (β-CD) 包合物。 [2]
complex loaded chitosan
A novel nanocarrier system of phospholipids complex loaded chitosan nanoparticles (FAPLC CNPs) was developed to improve the oral bioavailability and antioxidant potential of FA. [1] A series of curcumin/TiO2 complex loaded chitosan scaffolds are fabricated for the same. [2]开发了一种新型载有磷脂复合物的壳聚糖纳米粒子 (FAPLC CNPs) 的纳米载体系统,以提高 FA 的口服生物利用度和抗氧化潜力。 [1] 为此制备了一系列姜黄素/TiO2复合物负载壳聚糖支架。 [2]