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Abstract
Micro- and nanoparticles of poly(lactide-co-glycolide) (PLGA) loading gentamicin were prepared by a solvent evaporation method with the aim of obtaining appropriate vectors for systemic administration. Microspheres presented mean diameters below 3 µm and nanoparticles showed homogeneous sizes with a diameter of 320 nm. Drug loading was more efficient in the case of microencapsulation. The more hydrophilic copolymers with carboxyl-end groups yielded higher microparticle loadings, reaching encapsulation efficiencies up to 9.2 µg mg−1 of polymer (502H, 503H or 75:25H). Nanoparticles made of 502H PLGA also achieved an acceptable level of encapsulation (6.2 µg mg−1). Particles prepared by using the solvent evaporation method showed no aggregation after hydration, in contrast to the microparticles prepared by spray-drying which showed fast and high auto-aggregation. In vitro release profiles revealed that 503H microspheres showed the highest burst during the first hour, while the most sustained release was for microparticles of 502H copolymer (40% of gentamicin remained in the formulation after 28 days). In summary, microspheres made of 502H, 503H and 75:25H and nanoparticles of 502H showed the best potential properties for systemic use in the treatment of intra-cellular gentamicin-susceptible pathogens.