Core-crosslinked polymeric micelles: Principles, preparation, biomedical applications and clinical translation

Publication date

2015-02-01

Authors

Talelli, M.A.
Barz, Matthias
Rijcken, C.J.F.ISNI 0000000389611483
Kiessling, Fabian
Hennink, WimISNI 0000000390382745
Lammers, T.G.G.M.ISNI 0000000057759211

Editors

Advisors

Supervisors

Document Type

Article
Open Access logo

License

taverne

Abstract

Polymeric micelles (PM) are extensively used to improve the delivery of hydrophobic drugs. Many different PM have been designed and evaluated over the years, and some of them have steadily progressed through clinical trials. Increasing evidence suggests, however, that for prolonged circulation times and for efficient EPR-mediated drug targeting to tumors and to sites of inflammation, PM need to be stabilized, to prevent premature disintegration. Core-crosslinking is among the most popular methods to improve the in vivo stability of PM, and a number of core-crosslinked polymeric micelles (CCPM) have demonstrated promising efficacy in animal models. The latter is particularly true for CCPM in which (pro-) drugs are covalently entrapped. This ensures proper drug retention in the micelles during systemic circulation, efficient drug delivery to pathological sites via EPR, and tailorable drug release kinetics at the target site. We here summarize recent advances in the CCPM field, addressing the chemistry involved in preparing them, their in vitro and in vivo performance, potential biomedical applications, and guidelines for efficient clinical translation.

Keywords

Core-crosslinking, Drug targeting, EPR, Micelle, Nanomedicine, Polymer, Taverne, Biotechnology, Bioengineering, Biomedical Engineering, General Materials Science, Medicine (miscellaneous), Pharmaceutical Science

Citation

Talelli, M, Barz, M, Rijcken, C J F, Kiessling, F, Hennink, W E & Lammers, T 2015, 'Core-crosslinked polymeric micelles : Principles, preparation, biomedical applications and clinical translation', Nano Today, vol. 10, no. 1, pp. 93-117. https://doi.org/10.1016/j.nantod.2015.01.005