Tailoring the Physicochemical Properties of Core-crosslinked Polymeric Micelles for Pharmaceutical Applications

Overview

Journal J Control Release

Specialty Pharmacology

Date 2016 Jul 13

PMID 27401327

Citations 14

Authors

Qizhi Hu

Cristianne J F Rijcken

Ethlinn van Gaal

Paul Brundel

Hana Kostkova

Tomas Etrych

Benjamin Weber

Matthias Barz

Fabian Kiessling

Jai Prakash

Gert Storm

Wim E Hennink

Twan Lammers

Affiliations

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Abstract

To optimally exploit the potential of (tumor-) targeted nanomedicines, platform technologies are needed in which physicochemical and pharmaceutical properties can be tailored according to specific medical needs and applications. We here systematically customized the properties of core-crosslinked polymeric micelles (CCPM). The micelles were based on mPEG-b-pHPMAmLac (i.e. methoxy poly(ethylene glycol)-b-poly[N-(2-hydroxypropyl) methacrylamide-lactate]), similar to the block copolymer composition employed in CriPec® docetaxel, which is currently in phase I clinical trials. The CCPM platform was tailored with regard to size (30 to 100nm), nanocarrier degradation (1month to 1year) and drug release kinetics (10 to 90% in 1week). This was achieved by modulating the molecular weight of the block copolymer, the type and density of the crosslinking agent, and the hydrolytic sensitivity of the drug linkage, respectively. The high flexibility of CCPM facilitates the development of nanomedicinal products for specific therapeutic applications.

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