利用互穿聚合物网络实现治疗药物的控释。

Controlled release of therapeutics using interpenetrating polymeric networks.

作者信息

Aminabhavi Tejraj M, Nadagouda Mallikarjuna N, More Uttam A, Joshi Shrinivas D, Kulkarni Venkatrao H, Noolvi Malleshappa N, Kulkarni Padmakar V

机构信息

Soniya College of Pharmacy, Department of Pharmaceutical Engineering and Chemistry , S.R. Nagar, Dharwad 580 002 , India +91 9449821279 ; +91 836 2467190 ;

出版信息

Expert Opin Drug Deliv. 2015 Apr;12(4):669-88. doi: 10.1517/17425247.2014.974871. Epub 2014 Oct 24.

DOI:10.1517/17425247.2014.974871

PMID:25341410

Abstract

INTRODUCTION

The ever-increasing developments in pharmaceutical formulations have led to the widespread use of biodegradable polymers in various forms and configurations. In particular, interpenetrating network (IPN) and semi-IPN polymer structures that are capable of releasing drugs in a controlled manner have gained much wider importance in recent years.

AREAS COVERED

Recently, IPNs and semi-IPNs have emerged as innovative materials of choice in controlled release (CR) of drugs as the release from these systems depends on pH of the media and temperature in addition to the nature of the system. These networks can be prepared as smart hydrogels following chemical or physical crosslinking methods to show remarkable drug release patterns compared to single polymer systems.

EXPERT OPINION

A large number of IPNs and semi-IPNs have been reported in the literature. The present review is focused on the preparation methods and their CR properties with reference to anticancer, anti-asthmatic, antibiotic, anti-inflammatory, anti-tuberculosis and antihypertensive drugs, as majority of these drugs have been reported to be the ideal choices for using IPNs and semi-IPNs.

摘要

引言

药物制剂的不断发展导致可生物降解聚合物以各种形式和构型被广泛使用。特别是，能够以可控方式释放药物的互穿网络（IPN）和半互穿网络聚合物结构近年来变得更加重要。

涵盖领域

近来，IPN和半IPN已成为药物控释（CR）中创新的首选材料，因为这些系统的药物释放除了取决于系统性质外，还取决于介质的pH值和温度。通过化学或物理交联方法可将这些网络制备成智能水凝胶，与单一聚合物系统相比，其显示出显著的药物释放模式。

专家观点

文献中已报道了大量的IPN和半IPN。本综述重点关注其制备方法及其与抗癌、抗哮喘、抗生素、抗炎、抗结核和抗高血压药物相关的控释特性，因为据报道这些药物大多数是使用IPN和半IPN的理想选择。

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利用互穿聚合物网络实现治疗药物的控释。

Controlled release of therapeutics using interpenetrating polymeric networks.

作者信息

机构信息

出版信息

INTRODUCTION

AREAS COVERED

EXPERT OPINION

引言

涵盖领域

专家观点

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