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N-alkyl-substituted polyacrylamides exhibit a thermal coil-to-globule transition in aqueous solution driven by an increase in hydrophobic interactions with rising temperature. With the aim of understanding the role of N-alkyl substituents in the thermal transition, this study focuses on the molecular interactions underlying the phase transition of poly(N,N-diethylacrylamide-co-N-ethylacrylamide) random copolymers. Poly(N,N-diethylacrylamide) (PDEAm), poly(N-ethylacrylamide) (PNEAm), and their random copolymers were synthesized by free radical polymerization and their chemical structure characterized spectroscopically. It was found that the values of the cloud-point temperature increased with PNEAm content, and particle aggregation processes took place, increasing the negative charge density on their surface. The cloud-point temperature of each copolymer decreased with respect to the theoretical values calculated assuming an absence of interactions. It is attributed to the formation of intra- and interchain hydrogen bonding in aqueous solutions. These interactions favor the formation of more hydrophobic macromolecular segments, thereby promoting the cooperative nature of the transition. These results definitively reveal the dominant mechanism occurring during the phase transition in the aqueous solutions of these copolymers.
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The Diels-Alder reaction is recognized to generate highly selective and regiospecific cycloadducts. In this study, we carried out a rheological and kinetic study of N-furfuryl chitosan hydrogels based on the Diels-Alder click reaction with different poly(ethylene)glycol-maleimide derivatives in dilute aqueous acidic solutions. It was possible to prepare clear and transparent hydrogels with excellent mechanical properties. Applying the Winter and Chambon criterion the gel times were estimated at different temperatures, and the activation energy was calculated. The higher the temperature of gelation, the higher the reaction rate. The crosslinking density and the elastic properties seem to be controlled by the diffusion of the polymer segments, rather than by the kinetics of the reaction. An increase in the concentration of any of the two functional groups is accompanied by a higher crosslinking density regardless maleimide:furan molar ratio. The hydrogel showed an improvement in their mechanical properties as the temperature increases up to 70 °C. Above that, there is a drop in G' values indicating that there is a process opposing to the Diels-Alder reaction, most likely the retro-Diels-Alder.
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The main source of commercial chitosan is the extensive deacetylation of its parent polymer chitin. It is present in green algae, the cell walls or fungi and in the exoskeleton of crustaceans. A novel procedure for preparing chitosan from shrimp shells was developed. The procedure involves two 10-minutes bleaching steps with ethanol after the usual demineralization and deproteinization processes. Before deacetylation, chitin was immersed in 12.5 M NaOH, cooled down and kept frozen for 24 h. The obtained chitosan was characterized using scanning electron microscopy (SEM), Fourier transform infrared spectroscopy (FTIR), UV, X-ray diffraction (XRD) and viscosimetry. Samples of white chitosan with acetylation degrees below 9 % were obtained, as determined by FTIR and UV-first derivative spectroscopy. The change in the morphology of samples was followed by SEM. The ash content of chitosan samples were all below 0.063 % . Chitosan was soluble in 1 % acetic acid with insoluble contents of 0.62 % or less. XRD patterns exhibited the characteristic peaks of chitosan centered at 10 and 20 degrees in 2 θ . The molecular weight of chitosan was between 2.3 and 2.8 × 10 5 g/mol. It is concluded that the procedure developed in the present work allowed obtaining chitosans with physical and chemical properties suitable for pharmaceutical applications.
Assuntos
Exoesqueleto/química , Quitosana/química , Penaeidae/química , Animais , Microscopia Eletrônica de Varredura , Estrutura Molecular , Espectrofotometria Ultravioleta , Espectroscopia de Infravermelho com Transformada de Fourier , Difração de Raios XRESUMO
INTRODUCCIÓN: el efecto irritante sobre la mucosa gástrica que producen los antiinflamatorios no esteroideos es una de sus principales reacciones adversas. La encapsulación de estos en matrices poliméricas con propiedades entéricas constituye una alternativa tecnológica para solucionar dicho problema. OBJETIVO: obtener micropartículas de quitosana cargadas con ibuprofeno recubiertas con un complejo interpolimérico pH dependiente a base de poli(ácido acrílico)/poli(N-vinil-2-pirrolidona) MÉTODOS: se prepararon micropartículas de quitosana cargadas con ibuprofeno mediante secado por aspersión y se determinó el rendimiento del proceso y la eficiencia de encapsulación. Las micropartículas se recubrieron con un complejo interpolimérico pH dependiente de poli(ácido acrílico)/poli(N-vinil-2-pirrolidona), empleando la técnica de emulsión/evaporación del disolvente. Mediante espectroscopia infrarroja de transformada de Fourier, se comprobó la formación del complejo, y la evaluación morfológica se realizó por microscopia electrónica de barrido. Los estudios de liberación se realizaron en fluido gástrico e intestinal simulados (FGS pH= 1,2; FIS pH= 6,8). RESULTADOS: en el proceso de obtención de las micropartículas de quitosana y quitosana-ibuprofeno hubo un rendimiento de 69 ± 1 por ciento y 54,4 ± 0,8 por ciento respectivamente. La eficiencia de encapsulación resultó de 46,8 ± 0,7 por ciento. Las micropartículas recubiertas presentaron una superficie rugosa. La formación del complejo se confirmó a través de los cambios observados en la posición de las bandas de absorción de los grupos funcionales involucrados en la formación del enlace por puente de hidrógeno. La liberación de ibuprofeno en FGS resultó del 40 por ciento para las micropartículas sin recubrimiento, mientras que fue despreciable en el caso de las micropartículas recubiertas durante el intervalo de tiempo estudiado. CONCLUSIONES: los resultados muestran las potencialidades del complejo interpolimérico poli(ácido acrílico)/poli(N-vinil-2-pirrolidona) como cubierta pH dependiente, con vistas a obtener un recubrimiento de tipo entérico que reduzca los efectos adversos sobre la mucosa gástrica de fármacos como los antiinflamatorios no esteroideos(AU)
INTRODUCTION: the irritating effect on the gastric mucosa caused by non-steroidal anti-inflammatory drugs is one of the main adverse reactions. Their encapsulation in polymer matrices with enteric properties is a technological alternative to solve the problem. OBJECTIVE: to obtain ibuprofen-loaded chitosan microparticles coated with a pH dependent interpolymer complex based on poly(acrylic acid)/poly(N-vinyl-2-pyrrolidone). METHODS: Ibuprofen-loaded chitosan microparticles were prepared through the spray drying technique; the yield and the efficiency of encapsulation were evaluated. Microparticles were coated with a pH-dependent interpolymer complex based on poly(acrylic acid)/poly(N-vinyl-2-pyrrolidone) using the emulsion/solvent evaporation technique. The complex formation was verified by Fourier transform infrared spectroscopy and the morphological evaluation was made with the electronic scanning microscopy. Release studies used simulated gastric (SGF, pH= 1.2) and intestinal (SIF, pH= 6.8) fluids. RESULTS: in the process of obtaining the chitosan and chitosan-ibuprofen microparticles, the yield rates amounted to 69 ± 1 percent and 54.4 ± 0.8 percent respectively were obtained. The encapsulation efficiency was 46.8 ± 0.7 percent he coated microparticles presented rough surface. Complex formation was confirmed by changes in the position of the absorption bands of the functional groups involved in hydrogen bonding. The release of ibuprofen from uncoated microparticles in simulated gastrointestinal fluid reached 40 percent whereas it was neglectable in the coated microparticles during the study interval. CONCLUSIONS: the results show the potential of poly(acrylic acid)/poly(N-vinyl-2-pyrrolidone) interpolymer complex as pH dependent cover for use as enteric coating to reduce the side effects on the gastric mucosa of medications such as non-steroidal anti-inflammatory drugs(AU).
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Humanos , Masculino , Feminino , Anti-Inflamatórios não Esteroides/uso terapêutico , Ibuprofeno/uso terapêutico , Mucosa Gástrica/efeitos dos fármacos , Comprimidos com Revestimento EntéricoRESUMO
The present work describes the preparation of hydrogel based on cross-linked networks of poly (N-vinylpirrolidone), PVP, with polyethyleneglicol and agar with 90% water and PVP nancomposites with a synthetic nanoclay, Laponite XLG, for use as burn dressings. These systems were obtained in two ways: using gamma Co-60 and electron beam radiation. The gelation obtained dose was Dg= 1.72 kGy. The elastic modulus of hydrogel was independent of the method of irradiation. It was 0.39 MPa for the hydrogel irradiated with gamma Co-60 and 0.38 MPa for electron beam irradiation. The elastic modulus of the nanocomposite membrane was 1.25 MPa, three times higher. These results indicate that the PVP/Laponite XLG nanocomposite hydrogel membrane is the best choice for wound dressing applications due to its high water sorption capacity and its superior mechanical properties.
En el presente trabajo se describe la preparación de hidrogeles basados en redes entrecruzadas de poli (N-vinilpirrolidona), PVP con polietilenglicol, agar y un 90% de agua, y nanocomposites de PVP con una nanoarcilla sintética, la Laponita XLG para su empleo como apósito para quemaduras. Estos sistemas se obtuvieron por dos vías: radiación gamma de Co-60 y haz de electrones. La dosis de gelificación obtenida fue de Dg= 1.72 kGy. El módulo elástico de los hidrogeles resultó independiente del método de irradiación, siendo igual a 0.39 MPa para el irradiado con Co-60 y 0.38 MPa para el irradiado con haz de electrones. El módulo elástico de la membrana de nanocomposite fue 3 veces superior, 1.25 MPa. Estos resultados muestran que los hidrogeles de nanocomposites de PVP/Laponita XLG resultan superiores para su aplicación en el tratamiento de quemaduras, por su alta capacidad de sorción de agua y sus mejores propiedades mecánicas.
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Chitosan was chemically branched with ferrocene moieties and further used as a support for the immobilization of horseradish peroxidase on a glassy carbon electrode. The reagentless biosensor device showed a linear amperometric response toward hydrogen peroxide concentrations between 35 x 10(-6) M and 2.0 x 10(-3) M. The biosensor reached 95% of the steady-state current in about 20 s and its sensitivity was 28.4 x 10(-3) microA x M(-1). The enzyme electrode retained 94% of its initial activity after 2 weeks of storage at 4 degrees C in 50 x 10(-3) M sodium phosphate buffer at pH 7.0.