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Item Synthesis and characterization of photosensitive gelatin-based hydrogels for photodynamic therapy in HeLa-CCL2 cell line(Elsevier) Ambrósio, Jéssica Aparecida Ribeiro; Pinto, Bruna Cristina dos Santos; Marmo, Vitor Luca Moura; Santos, Kennedy Wallace dos; Beltrame Junior, Milton; Pinto, Juliana Guerra; Ferreira-Strixino, Juliana; Raniero, Leandro José; Simioni, Andreza RibeiroBackground: 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.Item Synthesis, characterization, and evaluation of chloroaluminium phthalocyanine incorporated in poly(ε-caprolactone) nanoparticles for photodynamic therapy(Elsevier) Pinto, Bruna Cristina dos Santos; Ambrósio, Jéssica Aparecida Ribeiro; Marmo, Vitor Luca Moura; Pinto, Juliana Guerra; Raniero, Leandro José; Ferreira-Strixino, Juliana; Simioni, Andreza Ribeiro; Beltrame Junior, MiltonBackground: The use of nanotechnology has been widely used in biomedical science, including orthopedic implants, tissue engineering, cancer therapy and drug elution from nanoparticle systems, such as poly-caprolactone (PCL) nanoparticles, which stand out mainly for their biocompatibility, being considered as effective carriers for photosensitizing drugs (PS) in photodynamic therapy (PDT) protocols. Methods: This manuscript describes the synthesis and characterization of PCL nanoparticles for controlled release of the drug chloro-aluminum phthalocyanine (ClAlPc) as a photosensitizer for application in PDT. The PCL-ClAlPc nanoparticles were developed by the nanoprecipitation process. The structure and morphology of the nanoparticles were studied with scanning electron microscopy (SEM) and with Fourier transform infrared (FTIR). The size of nanomaterials was studied using the Dynamic Light Scattering (DLS) method. Photophysical and photochemical characterizations were performed. Subsequently, photobiological studies were also used to characterize the system. Results: The nanoparticles had an average diameter of 384.7 ± 138.6 nm and a polydispersity index of 0.153. SEM analysis revealed that the system formed a spherical shape typical of these delivery systems. Charging efficiency was 82.1% ± 1.2%. The phthalocyanine-loaded PCL nanoparticles maintained their photophysical behavior after encapsulation. Cell viability was determined after the dark toxicity test, and it was possible to observe that there was no evidence of toxicity in the dark, for all concentrations tested. The assay also revealed that adenocarcinoma cells treated with free ClAlPc and in the nanoformulation showed 100% cell death when subjected to PDT protocols. The intracellular location of the photosensitizer indicated a high potential for accumulation in the cytoplasm and nucleus. Conclusions: From the photophysical, photochemical and photobiological analyzes obtained, it was possible to observe that the development of PCL nanoparticles encapsulated with ClAlPc, by the nanoprecipitation method was adequate and that the in vivo release study is efficient to reduce the release rate and attenuate the burst of PS loaded on PCL nanoparticles. The results reinforce that the use of this system as drug delivery systems is useful in PDT protocols.Item GMEH - Software de Gerenciamento de Manutenção de Equipamentos Hospitalares(2021-12-17) Ferraz, William de Carvalho; Castilho, Maiara Lima; Raniero, Leandro José; Ferreira, Hélio Lourenço EsperidiãoItem Gold nanoparticles conjugated with epidermal growth factor and gadolinium for precision delivery of contrast agents in magnetic resonance imaging(Springer-Verlag London Ltd.) Queiroz, Marinho de; Veriato, Thaís da Silva; Raniero, Leandro José; Castilho, Maiara LimaThe utilization of contrast agents in magnetic resonance imaging (MRI) has become increasingly important in clinical diagnosis. However, the low diagnostic specificity of this technique is a limiting factor for the early detection of tumors. To develop a new contrast agent with a specific target for early stage tumors, we present the synthesis and characterization of a nanocontrast composed of gold nanoparticles (AuNPs), gadopentetic acid (Gd-DTPA), and epidermal growth factor (EGF). Carbodiimide-based chemistry was utilized to modify Gd-DTPA for functionalization with AuNPs. This resulted in the formation of the Au@Gd-EGF nanocontrast. The relaxation rate (1/T1) of the nanocontrast was analyzed using MRI, and cytotoxicity was determined based on cell viability and mitochondrial activity in a human breast adenocarcinoma cell line. Fourier-transform infrared spectroscopy analysis confirmed the effectiveness of carbodiimide in the formation of the Gd-DTPA-cysteamine complex in the presence of bands at 930, 1042, 1232, 1588, and 1716 cm-1. The complexes exhibited good interactions with the AuNPs. However, the signal intensity of the Au@Gd-EGF nanocontrast was lower than that of the commercial contrast agent because the r1/r2 relaxivities of the Gd-DTPA-based contrast agents were lower than those of the gadoversetamide-based molecules. The Au@Gd-EGF nanocontrast agent exhibited good biocompatibility, low cytotoxicity, and high signal intensity in MRI with active targeted delivery, suggesting significant potential for future applications in the early diagnosis of tumors.Item Uso de templates de vaterita na síntese de microesferas de hidroxiapatita por método hidrotérmico(2022) Ambrósio, Jéssica Aparecida Ribeiro; Gonçalves, Camilli Albernaz; Gonçalves, Érika Peterson; Raniero, Leandro José; Beltrame Junior, Milton; Simioni, Andreza RibeiroItem Síntese e Caracterização de Lipossomas(2024) Melo, Josué David Gimenez de; Tosato, Maira Gaspar; Raniero, Leandro JoséItem SERS-active substrates using DVD-R coated in silver thin films: A preliminary study for detection of commercial glyphosate(Elsevier) Murcia-Correa, Luz Stefany; Usuriaga, Omar; Vieira, Lucia; Raniero, Leandro JoséGlyphosate (GLP) is the herbicide with the highest level of global commercialization and historical use. Even though numerous studies have found this substance to be harmless, current research demonstrates that GLP might affect human health. For this reason, researcher efforts are concentrating on alternatives for analytical quantification, such as Surface Enhanced Raman Spectroscopy (SERS). In this work, a DVD-R@AgNPs SERS substrate was produced by the Cathodic Cage Plasma Deposition (CCPD) technique, which allowed a thin film layer deposition of silver nanoparticles (AgNPs) on the PC grating structure from Digital Video/Versatile Disc Recordable (DVD-R). Scanning Electron Microscopy with energy-dispersive X-ray spectroscopy was used to characterize the substrate and chemical changes on the surface after AgNPs deposition. The DVD-R@AgNPs substrate was used to detect standard crystal violet (CV), GLP, and RoundupTM GLP (GLP-RU) using Raman Spectroscopy. The CV was used as a control sample for SERS measurement, allowing the calculation of the substrate enhancement factor, which was in the order of ∼ 105. To evaluate the efficiency of the SERS substrate, the limit of detection was calculated and showed values of ∼ 10-10 mol/L for CV, 10-7 and 10-8 mol/L for GLP, and 10-6 mol/L for GLP-RU. Thus, the DVD-R@AgNPs SERS sensor is a low-cost substrate that analyzes traces of pesticides such as commercial GLP, demonstrating high SERS sensitivities and many applications.Item Antibacterial activity of silver nanoparticles functionalized with amikacin applied against multidrug-resistant acinetobacter baumannii(Elsevier) Camargo, Larissa de Oliveira; Fontoura, Inglid; Veriato, Thaís da Silva; Raniero, Leandro José; Castilho, Maiara LimaBackground: Multidrug-resistant bacteria are one of the world's biggest health problems; therefore, improving the spectrum of action of antibiotics could be necessary to reverse this situation. Amikacin and silver salts have well-known antimicrobial properties. However, both drugs lost their effectiveness against some bacteria, such as Acinetobacter baumannii. This work aims to develop a nanodrug from silver nanoparticles (AgNPs) functionalized with Amikacin against multidrug-resistant Acinetobacter baumannii. Methods: AgNPs were produced using the bottom-up methodology and functionalized with Amikacin modified by the carbodiimide-based chemistry, forming AgNPs@Amikacin. Susceptibility tests were performed using Amikacin-resistant Acinetobacter baumannii strains to assess the bacteriostatic and bactericidal potential of the developed nanodrug. The clinical strains were induced to form a biofilm, and biomass quantification and the metabolic activity were determined. Results: The AgNPs have a hydrodynamic diameter of the particles with a bimodal distribution, with a size of 37.84 nm. The FT-IR spectrum of AgNPs@Amikacin exhibits vibrational modes corresponding to Amikacin, confirming the conjugation to AgNPs. Susceptibility testing demonstrated a minimal inhibitory and bactericidal concentration of < 0.5 µg/mL. The AgNPs@Amikacin reduced the biofilm metabolic activity of Acinetobacter baumannii at rates ≥ 50%, characterized by the minimal biofilm inhibition concentrations. Conclusions: Results demonstrate a promising development of a new nanodrug with lower concentrations, less toxicity, and greater efficacy against multidrug-resistant Acinetobacter baumannii.Item Specific nanomarkers fluorescence: in vitro analysis for EGFR overexpressed cells in triple-negative breast cancer and malignant glioblastoma(Elsevier) Vieira, Paula Fonseca Antunes; Jesus, Viviane Paula dos Santos; Cândido, Marcela Aparecida; Pacheco-Soares, Cristina; Castilho, Maiara Lima; Raniero, Leandro JoséBackground: Epidermal Growth Factor Receptor (EGFR receptor) is encoded by the EGFR gene. EGFR receptor signaling pathways are activated by EGF protein, regulating cell actions. Overexpression of EGFR receptor may be linked to malignancies with a poor prognosis. As a result, EGFR receptor is being studied for a variety of tumor diagnostics, spurring the development of innovative approaches to increase quality and efficiency. Nanomaterials can recognize cancer cells by specifically targeting of molecular pathways, underscoring the importance of nanomedicine. In this study, we synthesized EGFR-specific nanomarkers by functionalizing EGF protein and Chlorin e6 in gold nanoparticles. These nanoparticles use active targeting to deliver EGF protein to EGFR receptor, and Chlorin e6 serves as a fluorescent marker molecule Methods: Nanomarkers were examined in vitro in MDA-MB-468 and M059J cell lines. Confocal microscopy and flow cytometry were used to examine the distribution, uptake, internalization, and fluorescence intensity of nanomarkers in vitro Results: The results show that both lines examined accumulate nanomarkers. However, MDA-MB-468 had the highest intensity due to its EGFR receptor overexpression properties Conclusion: The findings point to ideal properties for detecting EGFR receptor overexpressed cells.Item Uso de templates de vaterita na síntese de microesferas de hidroxiapatita por método hidrotérmico(2022) Ambrósio, Jéssica Aparecida Ribeiro; Gonçalves, Camilli Albernaz; Gonçalves, Érika Peterson; Raniero, Leandro José; Beltrame Junior, Milton; Simioni, Andreza Ribeiro