Abstract
This works presented the surface modification of magnetite nanoparticles (MNPs) with the copolymers containing hydrophilic mPEG and hydrophobic polyester for use in drug controlled release applications. Polyester moieties in the copolymers were adsorbed on MNPs to form hydrophobic layer for entrapment of a hydrophobic indomethacin model drug, while hydrophilic mPEG provided their good water dispersibity. Three different polyester structures in the copolymer for MNP coating were; 1) saturated, 2) unsaturated and 3) crosslinked polyesters. The copolymer structures were characterized via1H NMR and their coatings were confirmed by FTIR. These water dispersible MNPs contained 53–61% copolymer in the complexes with the size ranging between 8 and 14 nm. The MNPs containing saturated polyester showed higher drug entrapment and loading efficiencies than the other two samples. Interestingly, those containing crosslinked polyester exhibited a potential to sustain the release of the entrapped drug. These complexes might be suitable for use as vehicles for entrapment of hydrophobic drugs with tunable and controllable release rate.
Published Version
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