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Potential Active Targeting of Gatifloxacin to Macrophages by Means of Surface-Modified PLGA Microparticles Destined to Treat Tuberculosis


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Título : Potential Active Targeting of Gatifloxacin to Macrophages by Means of Surface-Modified PLGA Microparticles Destined to Treat Tuberculosis
Autor : Marcianes, Patricia
Negro, Sofía
Barcia, Emilia
Montejo Rubio, María Consuelo
Fernández Carballido, Ana
Materias: GatifloxacinPLGA microparticlesLabrafilTuberculosisMacrophage phagocytosis
Editorial : Springer
Citación : Marcianes, P., Negro, S., Barcia, E. et al. Potential Active Targeting of Gatifloxacin to Macrophages by Means of Surface-Modified PLGA Microparticles Destined to Treat Tuberculosis. AAPS PharmSciTech 21, 15 (2020). https://doi.org/10.1208/s12249-019-1552-3
Resumen : Tuberculosis (TB) is an infectious disease caused by Mycobacterium tuberculosis and represents one of the leading causes of mortality worldwide due to multidrugresistant TB (MDR-TB). In our work, a new formulation of biodegradable PLGA microparticles was developed for pulmonary administration of gatifloxacin, using a surface modifier agent to actively target alveolar macrophages thereby allowing to gain access of the drug to Mycobacterium tuberculosis. For this, rapid uptake of the particles by macrophages is beneficial. This process was evaluated with fluorescein-loaded microparticles using PLGA 502 or PLGA 502H as polymers and labrafil as surface modifier. Cell phagocytosis was studied in raw 264.7 mouse macrophage cell line after 3, 5, 24, and 48 h incubation with the microparticles. Labrafil enhanced the uptake rate of PLGA 502H microparticles by macrophages which was directly related to the modification of the polymer matrix. Gatifloxacin-loaded PLGA microparticles using PLGA 502 or PLGA 502H and labrafil were prepared. From our results, only microparticles prepared with PLGA 502H and labrafil exhibited high encapsulation efficiency (89.6 ± 0.2%), rapid phagocytosis by macrophages (3 h), and remained inside the cells for at least 48 h, thereby resulting in a suitable carrier to potentially treat MDR-TB.
URI : http://hdl.handle.net/10637/14800
Derechos: http://creativecommons.org/licenses/by/4.0/deed.es
OpenAccess
ISSN : 1530-9932
Fecha de publicación : 5-dic-2019
Centro : Universidad San Pablo-CEU
Aparece en las colecciones: Facultad de Farmacia





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