PLGA Carriers for Controlled Release of Levofloxacin in Anti-Tuberculosis Therapy
Evgeny N. Antonov,
Sofya N. Andreevskaya,
Irina V. Bocharova,
Sergei E. Bogorodsky,
Larisa I. Krotova,
Elena E. Larionova,
Alexandra O. Mariyanats,
Gennady V. Mishakov,
Tatiana G. Smirnova,
Larisa N. Chernousova,
Vladimir K. Popov
Affiliations
Evgeny N. Antonov
Institute of Photon Technologies, Federal Scientific Research Centre “Crystallography and Photonics” of Russian Academy of Sciences, 108840 Moscow, Russia
Sofya N. Andreevskaya
Central Tuberculosis Research Institute, 107564 Moscow, Russia
Irina V. Bocharova
Central Tuberculosis Research Institute, 107564 Moscow, Russia
Sergei E. Bogorodsky
Institute of Photon Technologies, Federal Scientific Research Centre “Crystallography and Photonics” of Russian Academy of Sciences, 108840 Moscow, Russia
Larisa I. Krotova
Institute of Photon Technologies, Federal Scientific Research Centre “Crystallography and Photonics” of Russian Academy of Sciences, 108840 Moscow, Russia
Elena E. Larionova
Central Tuberculosis Research Institute, 107564 Moscow, Russia
Alexandra O. Mariyanats
Institute of Photon Technologies, Federal Scientific Research Centre “Crystallography and Photonics” of Russian Academy of Sciences, 108840 Moscow, Russia
Gennady V. Mishakov
Institute of Photon Technologies, Federal Scientific Research Centre “Crystallography and Photonics” of Russian Academy of Sciences, 108840 Moscow, Russia
Tatiana G. Smirnova
Central Tuberculosis Research Institute, 107564 Moscow, Russia
Larisa N. Chernousova
Central Tuberculosis Research Institute, 107564 Moscow, Russia
Vladimir K. Popov
Institute of Photon Technologies, Federal Scientific Research Centre “Crystallography and Photonics” of Russian Academy of Sciences, 108840 Moscow, Russia
Levofloxacin (LFX) is a highly effective anti-tuberculosis drug with a pronounced bactericidal activity against Mycobacterium tuberculosis (Mtb). In this work, an “organic solvent-free” approach has been used for the development of polylactic-co-glycolic acid (PLGA) microparticles and scaffolds containing LFX at a therapeutically significant concentration, providing for its sustained release. To achieve the target, both nonpolar supercritical carbon dioxide and polar supercritical trifluoromethane have been used. By changing the composition, surface morphology, size, and internal structure of the polymer carriers, one can control the kinetics of the LFX release into phosphate buffered saline solutions and physiological media, providing for its acceptable burst and desirable concentration in the prolonged phase. The biocompatibility and bactericidal efficacy of PLGA/LFX carriers assessed both in vitro (against Mtb phagocytosed by macrophages) and in vivo (against inbred BALB/c mice aerogenically infected with Mtb) demonstrated their anti-tuberculosis activity comparable with that of the standard daily intragastric levofloxacin administration. These results make it possible to consider the developed compositions as a promising candidate for anti-tuberculosis control release formulations providing for the further evaluation of their activity against Mtb and their metabolism in vivo over long periods of tuberculosis infection.
