Effects of template and pore-forming agent method on the structure and drug delivery of porous maltodextrin
10.16438/j.0513-4870.2024-0080
- VernacularTitle:模板剂法与致孔剂法对多孔麦芽糊精结构及药物递送影响研究
- Author:
Zhe LI
;
Xiao-sui LUO
;
Wei-feng ZHU
;
Qiong LI
;
Yong-mei GUAN
;
Zheng-ji JIN
;
Li-hua CHEN
;
Liang-shan MING
- Publication Type:Research Article
- Keywords:
maltodextrin;
porous structure;
template agent method;
pore-forming agent method;
adsorption;
rug delivery
- From:
Acta Pharmaceutica Sinica
2024;59(8):2381-2395
- CountryChina
- Language:Chinese
-
Abstract:
This study using maltodextrin as raw material, 1%-5% polyvinylpyrrolidone K30 as template agent, 1%-5% ammonium bicarbonate as pore-forming agent, curcumin and ibuprofen as model drugs. Porous maltodextrin was prepared by template and pore-forming agent methods, respectively. The structure and drug delivery behavior of porous maltodextrin prepared by different technologies were comprehensively characterized. The results showed that the porous maltodextrin prepared by pore-forming agent method had larger specific surface area (6.449 4 m2·g-1) and pore size (32.804 2 nm), which was significantly better than that by template agent method (3.670 2 m2·g-1, 15.278 5 nm). The adsorption kinetics between porous maltodextrin prepared by pore-forming agent method and curcumin were suitable for quasi-first order adsorption kinetic model, and that between porous maltodextrin and ibuprofen were suitable for quasi-second order adsorption kinetic model. While the adsorption kinetics between porous maltodextrin prepared by template agent method and two model drugs were both suitable for the quasi-first order adsorption kinetic model. In addition, the dissolution behavior analysis showed that the porous maltodextrin prepared by the two technologies can significantly improve the dissolution behavior of insoluble drugs, and the drug release was both carried out by diffusion mechanism, which suitable for the Peppas kinetic release model, but the porous maltodextrin prepared by template agent method had a faster release rate. The change of nozzle diameter had no significant effect on the adsorption process and drug release behavior of porous maltodextrin. In conclusion, the porous maltodextrins prepared by two different technologies were both beneficial to the delivery of insoluble drugs, and the template agent method was the best for delivery of insoluble drugs. This study can provide theoretical basis for the preparation of porous particles, promote the application of porous particles in insoluble drugs, and improve the bioavailability of insoluble drugs.