JUSTINE PAULA RAMOS DE OLIVEIRA

JUSTINE PAULA RAMOS DE OLIVEIRA

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Solubility study of Kraft lignin for the development of electrospun nanofibers
2022 - NOGUEIRA, K.M.; VARCA, J.O.; LIMA, C.S.; CRUZ, C.C. da; RIBEIRO, A.H.; FREITAS, L.F.; VARCA, G.H.; LUGAO, A.B.
Lignin is a high-volume byproduct of paper manufacturing which has been explored in many research fields, especially for the development of fiber and nanofiber for biomedical applications [1,2]. This work presents a solubility study performed through gravimetry for kraft lignin considering its application for the development of electrospun nanofibers [3]. In practical terms, lignin was solubilized in alkaline aqueous solution, dimethylformamide and dimethylsulfoxide, at concentrations of 10, 15 and 20% (w/v) and varying temperatures of 25, 50 and 75 ºC, under constant stirring. After solubilizing, the solution was filtered, and the insoluble fraction was dried in the oven at 100 ºC. At 25 ºC lignin was insoluble in all solvents tested, as predicted using Hansen solubility parameters. Although the increase in temperature promoted lignin solubilization in all solvents tested, at the highest temperature assayed, the solubilization was facilitated, presenting the smallest levels of the insoluble fraction. Lignin was soluble in all solvents tested, and optimum solubility conditions were achieved using 10% lignin solutions (w/v), without significant insoluble fraction, and therefore ideal concentration for the development of lignin based fibers.
A biological study of gelatin-PVA based scaffold functionalized with albumin for biomedical purposes
2022 - VARCA, J.O.; KLINGBEIL, F.; NOGUEIRA, K.M.; LIMA, C.S.; CRUZ, C.C. da; FREITAS, L.F.; VARCA, G.H.; MATHOR, M.B.; LUGAO, A.B.
Biomaterials have been designed for tissue reconstruction, bone regeneration and cell culture, and functionalized with presence of proteins, nanoparticles, peptides and other components to improve the biocompatibility for instance. This work shows a biological study of gelatin-PVA based scaffold with controlled pore size and functionalized with albumin for biomedical purposes. The in vitro study comprises cytotoxicity, cell adhesion and proliferation assessment. In practical terms, the gelatin-PVA scaffold crosslinked and sterilized by gamma radiation followed by freeze-drying was evaluated by cytotoxicity, adhesion and proliferation tests. The cytotoxicity results showed that the biomaterial produced was non-toxic, and adhesion and proliferation assays showed that the material was suitable for tissue engineering. The presence of albumin did not present a significant impact on the cell performance, at the assayed concentration.
The effect of radiation dose rate over the formation of protein-based nanoparticles for nanosized delivery of chemo and radiotherapeutics
2018 - VARCA, G.H.C.; FAZOLIN, G.N.; FERREIRA, A.H.; OLIVEIRA, J.P.R. de; MARQUES, F.; LUGAO, A.B.
Recent studies demonstrated the development of papain and bovine serum albumin nanoparticles using gamma radiation (10 kGy) in presence of 20-30% (v/v) ethanol. With the purpose of producing stable and well defined nanocarriers, this work aims to determine the influence of different dose rates over protein nanoparticle formation. For this purpose, papain and BSA nanoparticles were synthetized in phosphate buffer (50 mM, pH 7.2) and ethanol (20-30%, v/v) using a radiation dose of 10 kGy and dose rate of 0.8, 2, 5 and 10 kGy.h-1. After irradiation, samples were evaluated by dynamic light scattering, fluorescence and proteolytic activity to verify the size, secondary structure and monitoring of the enzymatic activity, respectively. For papain nanoparticles it was observed that the dose rate did not influence the particle size formation, however crosslinking evidenced by bityrosine showed that samples irradiated at 0.8 and 5 kGy.h-1 presented higher bityrosine levels. On the other hand, BSA nanoparticles presented different results if compared to papain NPs. Different dose rates caused different and non-linear size increase for each condition, following the order: 5 > 10 > 0.8 > 2 kGy.h-1. However, in terms of crosslinking formation, a linear increase was registered, as at 0.8 kGy.h-1 the smallest signal was achieved, whereas at 10 kGy.h- 1 the highest signal was recorded. In conclusion, BSA nanoparticles were more sensitive to different radiation dose rates than nanopapain. Optimized results in terms of size increase and higher bityrosine levels were observed for the samples irradiated at 5 kGy.h-1, in which nanoparticle formation will occur faster if compared to the synthesis carried out under distinct conditions. As final applications of the system concert their use for the delivery of chemo or radiotherapeutics, the loading of paclitaxel, a well-known chemotherapeutic agent, and radiolabeling with tecntetium- 99m, a radioisotope suitable for biomedical applications, have also been performed with high efficiency, thus demonstrating a proof of concept of such systems.
Development of mucoadhesive PVA/CMC based hydrogel for intravesical chemotherapy
2018 - LIMA, C.S.A.; VARCA, J.O.; FERRARI, A.; NOGUEIRA, K.M.; VARCA, G.H.C.; LUGAO, A.B.
Bladder cancer (BC) is one of the main diseases that attack the urinary tract and is globally responsible for 165,000 deaths per year. Bladder tumor may be classified as non-muscle invasive (superficial) or muscle invasive. About 70% of patients present the superficial bladder cancer which is treated by transurethral resection for tumor removal followed by intravesical chemo or immunotherapy. The main challenge reported in the instillation of chemotherapy is the limited drug residence time in the bladder as a consequence of urine levels that leads to fast drug removal from the bladder.1 Hydrogels are chemically or physically crosslinked polymer systems that form three-dimensional networks with high water absorption capacity. Carboxymethylcellulose (CMC) is one of the major soluble derivatives of cellulose widely applied in the medical and pharmaceutical fields due to its biocompatibility, nontoxicity, biodegradability and film forming ability.2 Polyvinyl Alcohol (PVA) is a synthetic polymer with wide pharmaceutical and biomedical applications as it is nontoxic, non-carcinogenic, bioadhesive and easy to process.3 In this work, we developed a mucoadhesive hydrogel from a CMC and PVA polymer blend for chemotherapeutic loading and suitable rheological properties for intravesical instillation, especially designed for treating superficial BC with increased residence time of chemotherapeutic agent. Three formulations (C1, C2 and C3) at different CMC concentrations were prepared - 1%, 2% and 3% (w/v), respectively. PVA concentration corresponded to 1% (w/v) for all formulations. The polymers were separately solubilized in Milli-Q water and then mixed prior to the addition of 20% (v/v) glycerin to increase the mucoadhesiveness of the material. The hydrogels were characterized according to their organoleptic and rheological properties to evaluate the behavior of the material under tension and temperature. Accelerated stability tests of the pharmaceutical form were also performed. Comparatively, formulations with glycerin presented improved mucoadhesiveness, and formulations with 1 and 2% of CMC presented more adequate rheological behavior for the proposed application. In conclusions, the systems presented adequate properties for the delivery of chemotherapeutic agents for optimized BC treatments.
Development of lignin-PVP based dressing for wound treatment
2018 - NOGUEIRA, K.M.; VARCA, J.O.; VARCA, G.H.C.; LIMA, C.S.A.; LUGAO, A.B.
Lignin is a carbon renewable source and has been widely explored in different fields in the last years, especially in biomaterials as dressing and other biomedical devices due its natural origin and low cost1. Poly(ethylene oxide) (PEO) is a synthetic polymer largely used in biomedical applications due its important characteristics such as high hydrophilicity, non-toxicity and ease of process2. The present work aimed to develop a lignin-PEO based dressing for wound treatment by casting. In specific terms, three different polymer blends were formulated using a range of 3 to 10% (w/v) lignin was tested with the addition of 1 to 3% PEO. Lignin was solubilized in aqueous solution (pH>13) alkalized with sodium hydroxide and PEO was solubilized in distilled water. The solutions were heated up to 70 ºC and homogenized until complete polymer dissolution. Then, PEO solution and poly(ethylene glycol) diacrylate (PEGDA) (0.5 - 1.0%) were added to the lignin solution and the blend was mixed for 30 minutes at 70 ºC. Posteriorly the blends were submitted to casting and drying under different conditions, room temperature for 48 hours and incubated at 40 ºC for 24 hours. A control sample of 6% lignin was prepared in the same conditions. Samples were evaluated by physico-chemical and morphological characterizations. The swelling and gel fraction profiles were assessed as well as thermal behavior by differential scanning calorimetry. Chemical modifications were evaluated by infrared spectroscopy. Samples with higher PEGDA content presented minor swelling index. The blends formulated presented different thermal behavior in comparison with the control. Infrared spectroscopy pointed some chemical modifications promoted by the crosslinking agent. In general terms, the material developed presented a potential to continue been explored as dressing for wound treatment
Estudo dos poluentes orgânicos persistentes (POPS) em regiões industriais da Grande São Paulo - via cromatografia a gás acoplada a espectrometria de massas (GC-MS) e captura de elétrons (GC-ECD)
2011 - OLIVEIRA, JUSTINE P.R. de
O estudo objetivou desenvolver e validar um método para identificar e quantificar poluentes orgânicos persistentes, conhecidos como POPs, em solo de regiões industriais dos municípios de Caieiras e Franco da Rocha SP, via cromatografia a gás acoplada a Espectrometria de Massas (GC-MS) e Detector por Captura de Elétrons (ECD). Em observância ao Tratado de Estocolmo, patrocinado pela Organização das Nações Unidas ONU, que prevê o banimento de pelo menos doze dos POPs, e no qual o Brasil é um dos 113 países signatários, o trabalho visou colaborar positivamente com essa questão ambiental tão importante. Estes compostos são tóxicos e altamente estáveis no ambiente e em organismos vivos, dentre os quais, são abordados nesse trabalho o clordano cis/trans (C10H6Cl8), o heptacloro (C10H5Cl7), o heptacloro epóxido cis/trans (C10H5Cl7) e os isômeros α-, β-, γ- e δ-BHC (C6Cl6). Para garantir a confiabilidade das análises realizadas, foram realizados ensaios de Validação da metodologia, com base nas diretrizes do INMETRO. A técnica de extração utilizada foi o QuEChERS, obtendo resultados de recuperação na faixa de 70 a 120% para a maioria dos compostos estudados, considerados aceitáveis para matrizes complexas. Os limites de detecção e quantificação do método compreenderam a faixa de 0,0002 e 0,01 μg.g1, respectivamente. As amostras analisadas apresentaram contaminação pelos compostos hexaclorobenzeno α-, β-, γ- e δ-, muitas das quais estão acima dos limites máximos permissíveis, de acordo com as legislações nacionais e internacionais vigentes.