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Item Vaterite microparticle-loaded methylene blue for photodynamic activity in macrophages infected with Leishmania braziliensis(Springer Nature) Marmo, Vitor Luca Moura; Ambrósio, Jéssica Aparecida Ribeiro; Gonçalves, Érika Peterson; Raniero, Leandro José; Beltrame Junior, Milton; Pinto, Juliana Guerra; Ferreira-Strixino, Juliana; Simioni, Andreza RibeiroCalcium carbonate (CaCO3) exhibits a variety of crystalline phases, including the anhydrous crystalline polymorphs calcite, aragonite, and vaterite. Developing porous calcium carbonate microparticles in the vaterite phase for the encapsulation of methylene blue (MB) as a photosensitizer (PS) for use in photodynamic therapy (PDT) was the goal of this investigation. Using an adsorption approach, the PS was integrated into the CaCO3 microparticles. The vaterite microparticles were characterized by scanning electron microscopy (SEM) and steady-state techniques. The trypan blue exclusion method was used to measure the biological activity of macrophages infected with Leishmania braziliensis in vitro. The vaterite microparticles produced are highly porous, non-aggregated, and uniform in size. After encapsulation, the MB-loaded microparticles kept their photophysical characteristics. The carriers that were captured allowed for dye localization inside the cells. The results obtained in this study indicated that the MB-loaded vaterite microparticles show promising photodynamic activity in macrophages infected with Leishmania braziliensis.Item Methylene blue functionalized ZnO nanoparticles: a promising approach for photodynamic therapy in the treatment of leishmaniasis(Sage) Gouvea, Thainara Alves; Ambrósio, Jéssica Aparecida Ribeiro; Carvalho, Janicy Arantes; Marmo, Vitor Luca Moura; Marcolino, Luciana Maria Cortez; Pinto, Juliana Guerra; Ferreira-Strixino, Juliana; Simioni, Andreza Ribeiro; Gonçalves, Erika PetersonZinc oxide (ZnO) has wide application in engineering, but its use in medical sciences has aroused growing interest. In this context, ZnO nanoparticles were investigated as vehicles for the delivery of methylene blue (MB), a photosensitizer (PS) used in photodynamic therapy (PDT) against Leishmania braziliensis. ZnO-NPs were produced by a coprecipitation method and characterized by several techniques, including scanning electron microscopy (SEM), UV-VIS spectroscopy, Fourier transform infrared spectroscopy (FTIR), and X-ray diffraction (XRD). The results showed that the ZnO-NPs presented uniform spheroidal morphology with open porosity, allowing an efficient methylene blue (MB) encapsulation without significant structural changes, ensuring stability and the absence of aggregation. The PS was adsorbed on the porous surface of the ZnO nanoparticles, characterized by scanning electron microscopy (SEM) and steady-state analysis techniques. Spectroscopic analysis confirmed the maintenance of the photosensitizing properties of MB. The biological activity was evaluated in vitro using the trypan blue exclusion method in macrophages infected with Leishmania braziliensis. After loading with the photosensitizer, they maintained their photophysical properties, ensuring the proper location of the dye within the cells. In vitro assays demonstrated the internalization of ZnO/MB-NPs by infected macrophages and a significant reduction in parasite viability after light activation. Thus, the results showed that the developed system exhibits a promising photodynamic activity with relevant therapeutic potential in treating macrophages infected by Leishmania braziliensis.