THE CONTROLLED INTRAVENOUS DELIVERY OF DRUGS USING PEG-COATED STERICALLY STABILIZED NANOSPHERES

被引：595

作者：

GREF, R

DOMB, A

QUELLEC, P

BLUNK, T

MULLER, RH

VERBAVATZ, JM

LANGER, R

机构：

[1] HEBREW UNIV JERUSALEM,DEPT PHARMACEUT CHEM,IL-91120 JERUSALEM,ISRAEL

[2] CHRISTIAN ALBRECHTS UNIV KIEL,DEPT PHARMACEUT & BIOPHARMACEUT,D-24118 KIEL,GERMANY

[3] FREE UNIV BERLIN,DEPT PHARMACEUT BIOPHARMACEUT & BIOTECHNOL,D-12169 BERLIN,GERMANY

[4] CEA SACLAY,SERV BIOL CELLULAIRE,F-91191 GIF SUR YVETTE,FRANCE

[5] MIT,DEPT CHEM ENGN,CAMBRIDGE,MA 02139

来源：

ADVANCED DRUG DELIVERY REVIEWS | 1995年 / 16卷 / 2-3期

关键词：

LONG-CIRCULATING NANOPARTICLES; BIODEGRADABLE POLYMERS; POLYETHYLENE GLYCOL; HYDROPHILIC COATING; REDUCED LIVER ACCUMULATION; INTRAVENOUS DRUG ADMINISTRATION;

D O I：

10.1016/0169-409X(95)00026-4

中图分类号：

R9 [药学];

学科分类号：

1007 ;

摘要：

Injectable blood persistent particulate carriers have important therapeutic application in site-specific drug delivery or medical imaging. However, injected particles are generally eliminated by the reticulo-endothelial system within minutes after administration and accumulate in the liver and spleen. To obtain a coating that might prevent opsonization and subsequent recognition by the macrophages, sterically stabilized nanospheres were developed using amphiphilic diblock or multiblock copolymers. The nanospheres are composed of a hydrophilic polyethylene glycol coating and a biodegradable core in which various drugs were encapsulated. Hydrophobic drugs, such as Lidocaine, were entrapped up to 45 wt% and the release kinetics were governed by the polymer physico-chemical characteristics. Plasma protein adsorption was drastically reduced on PEG-coated particles compared to non-coated ones. Relative protein amounts were time-dependent. The nanospheres exhibited increased blood circulation times and reduced liver accumulation, depending on the coating polyethylene glycol molecular weight and surface density. They could be freeze-dried and redispersed in aqueous solutions and possess good shelf stability. It may be possible to tailor ''optimal'' polymers for given therapeutic applications.

引用

页码：215 / 233

页数：19

共 97 条

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