Ambrósio, Jéssica Aparecida RibeiroPinto, Bruna Cristina dos SantosMarmo, Vitor Luca MouraSantos, Kennedy Wallace dosBeltrame Junior, MiltonPinto, Juliana GuerraFerreira-Strixino, JulianaRaniero, Leandro JoséSimioni, Andreza Ribeiro2023-09-262023-09-26https://repositorio.univap.br/handle/123456789/317Background: Hydrogel systems are increasingly gaining visibility involving biomedicine, tissue engineering, environmental treatments, and drug delivery systems. These systems have a three-dimensional network composition and high-water absorption capacity, are biocompatible, allowing them to become an option as photosensitizer carriers (PS) for applications in Photodynamic Therapy (PDT) protocols. Methods: A nanohydrogel system (NAHI), encapsulated with chloroaluminium phthalocyanine (ClAlPc) was synthesized for drug delivery.. NAHI was synthesized using gelatin as based polymer by the chemical cross-linking technique. The drug was encapsulated by immersing the hydrogel in a 1.0 mg.mL 1 ClAlPc solution. The external morphology of NAHI was examined by scanning electron microscopy (SEM). The degree of swelling of the synthesized system was evaluated to determine the water absorption potential. The produced nanohydrogel system was characterized by photochemical, photophysical and photobiologial studies. Results: The images from the SEM analysis showed the presence of three-dimensional networks in the formulation. The swelling test demonstrated that the nanohydrogel freeze-drying process increases its water holding capacity. All spectroscopic results showed excellent photophysical parameters of the drug studied when served in the NAHI system. The incorporation efficiency was 70%. The results of trypan blue exclusion test have shown significant reduction (p < 0.05) in the cell viability for all groups treated with PDT, in all concentrations tested. In HeLa cells, PDT mediated by 0,5 mg.mL 1 ClAlPc encapsulated in NAHI showed a decrease in survival close to 95%. In the internalization cell study was possible to observe the internalization of phthalocyanine after one hour of incubation, at 37 ◦C, with the the accumulation of PS in the cytoplasm and inside the nucleus at both concentrations tested. Conclusions: Given the peculiar performance of the selected system, the resulting nanohydrogel is a versatile platform and display potential applications as controlled delivery systems of photosensitizer for photodynamic therapy application.pdfpt-BRAcesso AbertoSynthesis and characterization of photosensitive gelatin-based hydrogels for photodynamic therapy in HeLa-CCL2 cell lineArtigos de PeriódicosAmbrósio, Jéssica Aparecida RibeiroPinto, Bruna Cristina dos SantosMarmo, Vitor Luca MouraSantos, Kennedy Wallace dosBeltrame Junior, MiltonPinto, Juliana GuerraFerreira-Strixino, JulianaRaniero, Leandro JoséSimioni, Andreza Ribeirohttps://doi.org/10.1016/j.pdpdt.2022.102818Chloroaluminium phthalocyanineGelatinHydrogelPhotodynamic therapyFármacos FotossensibilizantesFotoquimioterapiaAMBRÓSIO, Jéssica A.R. et al. Synthesis and characterization of photosensitive gelatin-based hydrogels for photodynamic therapy in HeLa-CCL2 cell line. Photodiagnosis and Photodynamic Therapy, v. 38, p. 102818, 2022.Univap