Investigation of Drug Release and Matrix Degradation of Electrospun Poly(DL-lactide) Fibers with Paracetanol Inoculation

摘要

This study was aimed at assessing the potential use of electrospun fibers as drug delivery vehicles with focus on the different diameters and drug contents to control drug release and polymer fiber degradation.A drug-loaded solvent-casting polymer film was made with an average thickness of 100 mum for comparative purposes.DSC analysis indicated that electrospun fibers had a lower T_g but higher transition enthalpy than solvent-casting polymer film due to the inner stress and high degree of alignment and orientation of polymer chains caused by the electrospinning process.Inoculation of paracetanol led to a further slight decrease in the T_g and transition enthalpy.An in vitro drug release study showed that a pronounced burst release or steady release phase was initially observed followed by a plateau or gradual release during the rest time.Fibers with a larger diameter exhibited a longer period of nearly zero order release,and higher drug encapsulation led to a more significant burst release after incubation.In vitro degradation showed that the smaller diameter and higher drug entrapment led to more significant changes of morphologies.The electrospun fiber mat showed almost no molecular weight reduction,but mass loss was observed for fibers with small and medium size,which was characterized with surface erosion and inconsistent with the ordinarily polymer degrading form.Further wetting behavior analysis showed that the high water repellent property of electrospun fibers led to much slower water penetration into the fiber mat,which may contribute to the degradation profiles of surface erosion.The specific degradation profile and adjustable drug release behaviors by variation of fiber characteristics made the electrospun nonwoven mat a potential drug delivery system rather than polymer films and particles.