Journal article
Precise control of drug loading and release of an NSAID-polymer conjugate for long term osteoarthritis intra-articular drug delivery
A Sulistio, F Reyes-Ortega, AM D'Souza, SMY Ng, D Valade, JF Quinn, AC Donohue, F Mansfeld, A Blencowe, G Qiao, R Prankerd, S Quirk, MR Whittaker, TP Davis, RJ Tait
Journal of Materials Chemistry B | ROYAL SOC CHEMISTRY | Published : 2017
DOI: 10.1039/c7tb01518f
Abstract
A facile synthesis method of polymer diclofenac conjugates (PDCs) based on biocompatible polyurethane chemistry that provides a high drug loading and offers a high degree of control over diclofenac (DCF) release kinetics is described. DCF incorporating monomer was reacted with ethyl-l-lysine diisocyanate (ELDI) and different amounts of polyethylene glycol (PEG) in a one-step synthesis to yield polymers with pendent diclofenac distributed along the backbone. By adjusting the co-monomers feed ratio, the drug loading could be tailored accordingly to give DCF loading of up to 38 w/w%. The release rate could also be controlled easily by changing the amount of PEG in the backbone. Above 10 w/w% of..
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Grants
Awarded by Australian Research Council
Funding Acknowledgements
This collaborative research was conducted by PolyActiva, Pty. Ltd, University of Melbourne (ARC Linkage grant LP12020010 & LP140100284) and Monash University through the Australian Research Council Centre of Excellence in Convergent Bio-Nano Science and Technology (project number CE140100036). TPD wishes to acknowledge the award of an Australian Laureate Fellowship.