AbstractThe purpose of this work is the design and characterization of novel systems based on micro and nanoparticles prepared from poly(lactic‐co‐glycolic) acid (PLGA), chitosan (CHT) and gelatin (GEL) for compartmentalization and dual release of rifampicin and isoniazid. The emulsion/evaporation method is employed for the preparation of PLGA based microparticles and nanoparticles. CHT and GEL are used for the preparation of microparticles by spray‐drying. Entrapment efficiencies are in the range of 35%–73% and 5%–29% for rifampicin and isoniazid in PLGA microparticles, respectively. For isoniazid GEL:CHT particles the entrapment efficiencies are within 82%–100%. Isoniazid shows a complete release at acid condition from GEL:CHT particles, while rifampicin release is maintained from GEL:CHT particles or displays an slightly increase from PLGA particles during buffer conditions. Antimycobacterial activity experiments show that the formulations present the ability to inhibit the bacterial growth in comparison with a control culture without treatment. Rifampicin PLGA and isoniazid GEL:CHT microparticles could be used for the preparation of a dual drug delivery system with each antibiotic in a single particulate compartment. GEL:CHT microparticles containing free isoniazid and rifampicin PLGA nanoparticles are a novel two compartment delivery system.
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