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Functionalized PEG-oligo(L-lysine)-PCL micelle system for the delivery of bioactive agents based on pH-sensitive degradation
Cited 2 time in
Web of Science
Cited 2 time in Scopus
- Authors
- Issue Date
- 2020-12
- Publisher
- IoP Institute of Physics
- Citation
- Functional Composites and Structures, Vol.2 No.4, p. 045001
- Abstract
- Methoxy poly(ethylene glycol) amine with a molecular weight of 5 K and epsilon -caprolactone with a molecular weight of 3 K were conjugated to five lysine residues with molecular weight and M-w/M-n of 9.6 K and 1.04, respectively. The shift of peak molecular weight and narrow molecular weight distribution in a gel permeation chromatography (GPC) trace without any noticeable shoulder as well as H-1 nuclear magnetic resonance analysis confirmed the successful synthesis of the copolymer. Polymeric micelles, of size around 60 nm, were formed by dialysis and crosslinked micelles (CMs) were prepared by adding a crosslinker, terephthalaldehyde, to generate weak acid-labile benzoic-imine bonds in the interface of the micelle-forming amphiphilic copolymer. The critical micelle concentrations of non-crosslinked micelles and CMs were determined to be 4.26 x 10(-2) mg ml(-1) and 7.01 x 10(-3) mg ml(-1), respectively. The hydrolysis rate of the CMs is highly pH-dependent and much more rapid at mild acid than physiological conditions. Doxorubicin was successfully loaded into the CMs and a controlled pH-dependent release behavior was observed. The enhanced micelle stability opens a way for preparing long-circulating delivery systems encapsulating poorly water-soluble drugs.
- ISSN
- 2631-6331
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