MARA TANIA SILVA ALCANTARA

MARA TANIA SILVA ALCANTARA

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Simultaneous hydrogel crosslinking and silver nanoparticle formation by using ionizing radiation to obtain antimicrobial hydrogels
2019 - ALCANTARA, M.T.S.; LINCOPAN, N.; SANTOS, P.M.; RAMIREZ, P.A.; BRANT, A.J.C.; RIELLA, H.G.; LUGAO, A.B.
Hydrogel dressings are crosslinked hydrophilic polymers able of swelling in presence of water and can be used in many different types of wound care. In turn, in wound care, silver has been used for a long time as an effective antimicrobial agent. Recent studies have demonstrated an increase of its antimicrobial action when it is used at nanometer scale, that is, as silver nanoparticles (AgNPs), which have anti-inflammatory effect on infected wounds, rashes, and mesh skin grafts. The objective of this work was to study hydrogel dressings containing AgNPs from silver nitrate, synthesized by radiation involving the formation of silver nanoparticles with simultaneous occurrence of crosslinking and sterilization of the polymer systems. One of the hydrogels was prepared with poly(N-vinyl-2- pyrrolidone) (PVP) and the other with poly(vinyl alcohol) (PVA) as main studied polymers. An aqueous solution of AgNO3 was added to both polymer systems separately. The AgNPs synthesis, polymer crosslinking and dressing sterilization were achieved simultaneously by irradiating the resultant solutions with gamma-rays from a 60Co source. Gel fraction, swelling in reverse osmosis water, SEM-EDS, UVvisible spectroscopy, and antimicrobial activity were performed and characterized. The obtained results showed that the dressings have a soft consistency, high degree of crosslinking and swelling, homogeneous distribution of AgNPs with peaks of plasmonic bands about 400 nm, but only PVP hydrogel showed antimicrobial properties to P. aeruginosa and normal S. aureus. Moreover, this hydrogel also showed antimicrobial properties to S. aureus strain multiresistant to penicillins, cephalosporins, carbapenems, sulfonamides, tetracyclines, quinolones, and aminoglycosides, whereas the PVA hydrogel showed antimicrobial properties to P. aeruginosa and bacteriostatic activity to S. aureus. The results suggest that both synthesized dressings have potential for use in wounds and burns infected with gram-positive and gram-negative bacteria.
Synthesis and in vivo behavior of PVP/CMC/agar hydrogel membranes impregnated with silver nanoparticles for wound healing applications
2018 - LIMA, GABRIEL G. de; LIMA, DARLLA W.F. de; OLIVEIRA, MARIA J.A. de; LUGAO, ADEMAR B.; ALCANTARA, MARA T.S.; DEVINE, DECLAN M.; SA, MARCELO J.C. de
The field of wound healing has seen an increase in research activity in wound care and hydrogel-based dressings have been targeted as a solution for these applications. Hydrogels with silver nanoparticles can present many advantages for this field. However, if the aggregation and sterilization of this product have not been carefully considered, the effectiveness or use could be limited. Therefore, in the current study, a hydrogel-based wound dressing membrane was developed using polyvinylpyrrolidone (PVP), polyethylene glycol (PEG), agar, and carboxymethyl cellulose (CMC). Silver ions (Ag+) were dispersed in the polymer matrix and its reduction with formation of a hydrogel and silver nanoparticles was performed using 60Co gamma irradiation to enhance the dressings antimicrobial properties. The resulting hydrogel presented a high degree of swelling and a good size control of silver nanoparticles. The incorporation of AgNPs was confirmed via Raman spectroscopy and the samples presented no signs of toxicity in vitro as assessed using an elution assay with neutral red uptake as the cytotoxic end point. Membranes were tested in vivo using a full thickness defeat model in rabbits. Postmortem histopathological analysis indicated that the use of the hydrogel membranes that incorporated AgNPs had a stimulatory action on wound healing as evidenced by a high intensity of fibroblasts and neovascularization in the tissue, which promoted a faster healing process when compared to the untreated wounds. We demonstrate the possibility of producing a hydrogel with good size control of AgNPs, which can also be directly sterilized within the formation of this material via gamma irradiation. Furthermore, the mechanism of hydrogel healing, in vivo, with silver nanoparticles was found to have a direct correlation of silver nanoparticles with in vitro cell results.
Effect of gamma irradiation on polymeric gel with glucantime and silver for the alternative treatment of cutaneous leishmania
2018 - OLIVEIRA, M.J.A.; VASQUEZ, P.A.S.; ALCANTARA, M.T.S.; LUGAO, A.B.
The drugs used to treat leishmania are in injectable form and the applications are painful that many patients give up during the treatment. The treatment requires hospitalization to monitor the side effects caused by the drugs, such as cardiac arrhythmia, renal dysfunction, among others. In addition to this situation, if the patient has symptoms such as cardiac arrhythmia, renal dysfunction they can not make use of the treatment. For these reasons finding new forms of treatments with minor side effects as alternative treatments for leishmaniasis has been the object of study of many research laboratories. The objective of this work was to analyze the effects of gamma irradiation on polymeric gel with glucantime and silver as the alternative treatment of cutaneous leishmania. In this case, the polymeric gel prevents the drug from falling directly into the bloodstream, avoiding the side effects, which would make unnecessary the patient's hospitalization. For the development of the gels was used, alginate, polyethylene glycol (PEG), polyvinylpyrrolidone (PVP), laponite clay, silver ions, and glucantime. The cobalt-60 source gamma irradiation was used for gel formation, silver nanoparticles and simultaneous sterilization. The physico-chemical characterizations were elemental analysis for quantification of Sb(V) and Sb(III) antimoniate, infrared spectroscopy (FTIR), dispersive energy spectrometry (EDS), transmission electron microscope (TEM). The results are promising, they show that the irradiation does not interfere with the drug's active principle, as expected in this study.
Effect of gamma radiation on polyvinylpyrrolidone hydrogels
2017 - OLIVEIRA, M.J.A.; VASQUEZ, P.A.S.; ALCANTARA, M.T.S.; MUNHOZ, M.M.L.; LUGAO, A.B.
Polyvinylpyrrolidone (PVP) hydrogels have been investigated as drug delivery matrices for the treatment of wounds, such as cutaneous leishmaniasis, and matrices with silver nanoparticles for chronic wounds and burns. The preparation of such hydrogels can occur by various cross-linking methods, such as gamma, chemical, physical, among others. The most feasible for wound dressings is gamma irradiation from cobalt-60, because gamma irradiation simultaneously promotes crosslinking and sterilization, leaving the wound dressing ready for use. The objective of this work was to investigate the effect on physico- chemical properties of gamma radiation on PVP hydrogel according to the radiation absorbed dose variation. The PVP hydrogels were irradiated with doses of 5, 15, 25, 35, 45, 55, 65, 75 and 95kGy at dose rate of 5 kGy/h and characterized by swelling, thermogravimetric and mechanical analysis. Results shown a favorable dose range window for processing of these hydrogels related to the application. The results showed that mechanical strength was affected at doses starting at 25 kGy.
Hydrogel de PVP/CMC e nanoparticulas de prata
2015 - MUNHOZ, MARA M.L.; OLIVEIRA, MARIA J.A.; ALCANTARA, MARA T.S.; LINHARES, KAMILA P.; ROGERO, SIZUE O.; LUGAO, ADEMAR B.
Hidrogel polimérico com alginato e AgNP para tratar e absorver exudato de feridas
2015 - LINHARES, KAMILA P.; OLIVEIRA, MARIA J.A.; ALCANTARA, MARA T.; MUNHOZ, MARA M.L.; LUGAO, ADEMAR B.
Hidrógeis poliméricos com nanopartículas de prata para aplicações médicas
2013 - ALCANTARA, MARA T.S.
O desenvolvimento de novos procedimentos e tecnologias tem proporcionado um grande avanço no tratamento de feridas e queimaduras, melhorando a qualidade de vida das vítimas e reduzindo as taxas de mortalidade de pessoas com queimaduras graves. Entretanto as complicações infecciosas continuam sendo um desafio e uma das principais causas de óbito de queimados. Por outro lado, em todo o mundo tem-se observado um crescente interesse no uso de hidrogéis para aplicação como curativos para queimaduras, ferimentos e úlceras de pele, tendo em vista que são capazes de absorver exsudatos, ajudam na cicatrização e proporcionam conforto ao paciente, uma vez que favorecem o alívio da dor. Além disso, os hidrogéis também podem ser aplicados como matrizes para sistemas de liberação controlada de princípios ativos e agentes antimicrobianos. O objetivo deste trabalho foi estudar as propriedades mecânicas e físico-químicas de hidrogéis compostos por blendas formadas por Poli(N-vinil-2-pirrolidona)/ Polietilenoglicol/ ágar (PVP/PEG/ágar), Poli(N-vinil-2-pirrolidona)/ glicerol/ ágar (PVP/glicerol/ágar); Poli(álcool vinílico)/ kappa-carragena/ ágar (PVA/KC/ágar), reticuladas por radiação ionizante. Para a preparação das blendas, utilizou-se planejamento de misturas como ferramenta, oferecendo assim subsídios a futuros desenvolvimentos de novos hidrogéis, que possam ser usados como curativos e como matrizes poliméricas para liberação de ativos hidrofílicos e lipofílicos. Foram otimizadas três formulações e sintetizadas seis, três das quais hidrogéis nanocompósitos de prata. As nanopartículas de prata (NPAg) foram sintetizadas, in situ, por radiação gama, sem uso de catalisadores ou outro reagente para obtenção de curativo mais puro e com ação antimicrobiana. A caracterização físico-química dos hidrogéis foi obtida por análises de fração gel, intumescimento, ensaios de tração e perfuração, microscopia eletrônica de varredura (MEV), espectroscopia na região do ultravioleta-visível (UV-vis). Também foi avaliada a atividade antimicrobiana dos hidrogéis e realizado estudo de citotoxicidade in vitro. O planejamento de misturas apresentou modelos confiáveis para os resultados de fração gel e intumescimento, porém, para as propriedades mecânicas, os resultados devem ser vistos com cautela. O uso da radiação se mostrou eficaz para a síntese de NPAg in situ nas blendas estudadas. Os resultados sugerem que os hidrogéis sintetizados não liberaram NPAg, porém os hidrogéis de PVP apresentaram atividade bactericida para S. aureus e P. Aeruginosa, enquanto que o hidrogel de PVA apresentou atividade bactericida para P. aeruginosa e atividade bacteriostática para S. aureus, sendo essa atividade pelo contato direto.
Hydrogel: the influence of oxygen on the properties of PVP membranes
2009 - ALCANTARA, M.T.S.; LUGAO, A.B.
The aim of this study is to verify the influence of dissolved oxygen on the synthesis of PVP hydrogels membranes. The hydrogels were prepared in different conditions (i.e., with oxygen dissolved and replacing the oxygen dissolved by nitrogen). The samples were crosslinked by gamma rays. The gel fraction and swelling kinetic in hydrogels membranes were analyzed to study the influence of natural oxygen in membranes prepared. The swelling results showed large differences on cross linking densities from samples irradiated with and without oxygen, however no difference was verified on gel fraction.
Obtencao de superabsorventes a partir de misturas de poliacrilamida e agua reticuladas com glioxal
2010 - NAIME, N.; BRANT, A.J.C.; GUADAGNIN, H.C.; ALCANTARA, M.T.S.; PONCE, P.; LUGAO, A.B.
Hidrogel com nanopartículas de prata para feridas infectadas com bactéria multiresistente
2013 - LUGAO, ADEMAR B.; LINCOPAN, NILTON; SANTOS, PRISCILA M. dos; RIELLA, HUMBERTO G.; ALCANTARA, MARA T.S.