The effects of oligosaccharides on production of secondary metabolites in microbial cultures

Asilonu, Ernest Ozuruonye

January 1999

No description available.

579

Uronic; Sodium alginate; Pectin; Biomass

Mechanisms of Innate Immune Responses Caused by Sodium Alginate

Yang, Dong

08 1900

Alginate is a well-known naturally-derived biomaterial that has been widely used in preparing microparticles for drug delivery and in preparing scaffolds for tissue engineering. Despite desirable properties, alginate has been shown to activate inflammatory cells in vivo. The mechanisms are still unclear. In this thesis, the mechanism by which alginate caused innate immune responses was investigated in vitro by using RAW264.7 cells, a macrophage-like cell line. The NF-(kappa)B pathway, an important signaling pathway in macrophages, has been tracked to identify cellular responses. The secretion of cytokines IL-1(beta), IL-6, IL-12(p40) and TNF-(alpha) was quantified to determine the activation outcomes. Also the interaction between alginate and serum was studied. Experimental results indicated that alginate induced the activation of RAW264.7 cells with a time and dose dependent behavior. Like lipopolysaccharide, a bacterial product and known activator of innate immunity, alginate induced macrophage activation through the NF-(kappa)B pathway and eventually led to detectable IL-1(beta), IL-6 and TNF-(alpha) cytokine secretion. Serum influenced alginate recognition by macrophages in an unknown mechanism. Also, alginate promoted cell survival in a nutrition starvation condition. These results revealed in vitro alginate stimulation, and provided much information for further research. / Thesis / Master of Applied Science (MASc)

immune

immune response

sodium alginate

sodium

alginate

Efeito do tratamento térmico de STx-1b-Li+ na condutividade de filmes de STx-1b-Li+ /Alginato de sódio / Effect of heat treatment of STx-1b-Li+ on the conductivity of STx-1b-Li+ /Sodium alginate films

Sachetto, João Paulo

04 March 2016

Neste trabalho foram estudados os efeitos causados pelo tratamento térmico na argila STx-1b-Li+ na condutividade de filmes argila/alginato de sódio. O argilomineral STx-1b foi submetido à substituição isomórfica do cátion Na+ por Li+ e posteriormente ao tratamento térmico em diferentes temperaturas. As argilas STx-1b-Li+ não tratada e tratada termicamente foram caracterizada por difração de raios-X (DRX) e termogravimetria (TG). As curvas TG mostraram que o argilomineral STx-1b-Li+ apresentou três perdas de massa que podem ser atribuídas à água adsorvida na argila, a água de hidratação dos íons Li+ e a água estrutural da argila. Para as argilas STx-1b-Li+ tratadas termicamente não foi observado a perda de massa associada à água quimicamente ligada aos contra-íons Li+. Estes resultados estão em concordância com os obtidos por DRX, onde observou-se uma diminuição no espaçamento interlamelar nas argilas tratadas termicamente. Em adição, foram preparados filmes de alginato de sódio com as argilas STx-1b-Li+ não tratada e tratada termicamente e estes foram caracterizados por calorimetria exploratória diferencia (DSC) e espectroscopia de impedância eletroquímica (EIE). As curvas DSC mostraram um aumento na temperatura de transição vítrea (Tg) dos filmes com o aumento da temperatura utilizada no tratamento das argilas. Este aumento nos valores de Tg é um indicativo que a mobilidade das cadeias diminuiu nos filmes polímero/argila que contém argilas tratadas em temperaturas mais elevadas. A espectroscopia de impedância eletroquímica (EIE) foi usada para avaliar-se a condutividade iônica dos filmes. Os resultados indicaram que os filmes contendo argilas que foram tratadas com temperaturas mais altas apresentaram menor condutividade. / In this work the effects caused by the heat treatment in STx-1b-Li+ clay on the conductivity of sodium alginate/clay were studied. The clay mineral STx-1b was submitted to isomorphous substitution of the Na+ for Li+ cation and subsequently to heat treatment at different temperatures. The STx-1b-Li+ clays untreated and heats treated were characterized by X-ray diffraction (XRD) and Thermogravimetric Analysis (TG). The TG curve showed that the clay mineral STL-1b-Li+ had three mass losses which can be attributed to adsorbed water in the clay, the water of hydration of the Li+ ions and structural clay water. To STx-1b-Li+ clays heat treated there were no mass loss associated to the water chemically bound to Li+ counter ions. These results are in agreement with those obtained by XRD, which it was observed a decrease in interlayer spacing in the heat treated clay. In addition, they were prepared sodium alginate films with STx-1b-Li+ clays untreated and heat treated and these films were characterized by Differential Scanning Calorimetry (DSC) and Electrochemical Impedance Spectroscopy (EIS). DSC curves showed an increase in glass transition temperature (Tg) of the films with temperature increasing used in the treatment of clays. This increase in Tg value is an indicative that the mobility of the chains had decrease in the polymer/clay films which contains heat treated clays at higher temperatures. The electrochemical impedance spectroscopy (EIS) was used to evaluate the ionic conductivity of the films. The results indicate that films containing clays which have been treated at higher temperatures had lower conductivity.

Alginato de sódio

Argila

Clay

Heat treatment

Sodium alginate

Tratamento térmico

Efeito do tratamento térmico de STx-1b-Li+ na condutividade de filmes de STx-1b-Li+ /Alginato de sódio / Effect of heat treatment of STx-1b-Li+ on the conductivity of STx-1b-Li+ /Sodium alginate films

João Paulo Sachetto

04 March 2016

Neste trabalho foram estudados os efeitos causados pelo tratamento térmico na argila STx-1b-Li+ na condutividade de filmes argila/alginato de sódio. O argilomineral STx-1b foi submetido à substituição isomórfica do cátion Na+ por Li+ e posteriormente ao tratamento térmico em diferentes temperaturas. As argilas STx-1b-Li+ não tratada e tratada termicamente foram caracterizada por difração de raios-X (DRX) e termogravimetria (TG). As curvas TG mostraram que o argilomineral STx-1b-Li+ apresentou três perdas de massa que podem ser atribuídas à água adsorvida na argila, a água de hidratação dos íons Li+ e a água estrutural da argila. Para as argilas STx-1b-Li+ tratadas termicamente não foi observado a perda de massa associada à água quimicamente ligada aos contra-íons Li+. Estes resultados estão em concordância com os obtidos por DRX, onde observou-se uma diminuição no espaçamento interlamelar nas argilas tratadas termicamente. Em adição, foram preparados filmes de alginato de sódio com as argilas STx-1b-Li+ não tratada e tratada termicamente e estes foram caracterizados por calorimetria exploratória diferencia (DSC) e espectroscopia de impedância eletroquímica (EIE). As curvas DSC mostraram um aumento na temperatura de transição vítrea (Tg) dos filmes com o aumento da temperatura utilizada no tratamento das argilas. Este aumento nos valores de Tg é um indicativo que a mobilidade das cadeias diminuiu nos filmes polímero/argila que contém argilas tratadas em temperaturas mais elevadas. A espectroscopia de impedância eletroquímica (EIE) foi usada para avaliar-se a condutividade iônica dos filmes. Os resultados indicaram que os filmes contendo argilas que foram tratadas com temperaturas mais altas apresentaram menor condutividade. / In this work the effects caused by the heat treatment in STx-1b-Li+ clay on the conductivity of sodium alginate/clay were studied. The clay mineral STx-1b was submitted to isomorphous substitution of the Na+ for Li+ cation and subsequently to heat treatment at different temperatures. The STx-1b-Li+ clays untreated and heats treated were characterized by X-ray diffraction (XRD) and Thermogravimetric Analysis (TG). The TG curve showed that the clay mineral STL-1b-Li+ had three mass losses which can be attributed to adsorbed water in the clay, the water of hydration of the Li+ ions and structural clay water. To STx-1b-Li+ clays heat treated there were no mass loss associated to the water chemically bound to Li+ counter ions. These results are in agreement with those obtained by XRD, which it was observed a decrease in interlayer spacing in the heat treated clay. In addition, they were prepared sodium alginate films with STx-1b-Li+ clays untreated and heat treated and these films were characterized by Differential Scanning Calorimetry (DSC) and Electrochemical Impedance Spectroscopy (EIS). DSC curves showed an increase in glass transition temperature (Tg) of the films with temperature increasing used in the treatment of clays. This increase in Tg value is an indicative that the mobility of the chains had decrease in the polymer/clay films which contains heat treated clays at higher temperatures. The electrochemical impedance spectroscopy (EIS) was used to evaluate the ionic conductivity of the films. The results indicate that films containing clays which have been treated at higher temperatures had lower conductivity.

Alginato de sódio

Argila

Tratamento térmico

Clay

Heat treatment

Sodium alginate

Estudo do equilí­brio de fases em sistemas contendo polímeros naturais: fibroí­na de seda e alginato de sódio. / Study of phase equilibrium in systems containing natural polymers: silk-fibroin and sodium alginate.

Badra, Suzanna Bizarro

13 November 2018

Blendas poliméricas de biopolímeros, além de apresentarem uma melhora das propriedades do material, ainda possuem as vantagens de serem biocompatíveis, biodegradáveis e apresentar baixa toxicicidade, como no caso de blendas de alginato de sódio e fibroína de seda. Membranas confeccionadas a partir desta mistura apresentam grande potencial no desenvolvimento de curativos de alto desempenho, proporcionando condições ótimas de cicatrização. Entretanto, o processo de mistura destes biopolímeros é bastante complexo e resulta na separação de fases, processo que ainda não foi muito explorado. Este trabalho buscou explorar experimentalmente o comportamento do equilíbrio de fases dos sistemas aquosos contendo fibroína de seda e alginato de sódio em diversos valores de pH. Soluções aquosas de fibroína foram previamente preparadas por meio de processo de diálise, e soluções de alginato, por meio de dissolução direta em água. Ambas as soluções eram misturadas em concentrações em que se desejava avaliar o comportamento de fases. Após a separação de fases, a fase líquida sobrenadante era coletada, a fibroína quantificada via espectrofotometria e o alginato, via calcinação. Observou-se que a região monofásica do diagrama de fases é pequena, e a separação de uma segunda fase ocorre em concentrações baixas dos dois biopolímeros. A separação de fases pôde ser descrita como a precipitação da fibroína pela adição de alginato, e a solubilidade da fibroína pôde ser descrita por meio da equação de Cohn. As curvas de solubilidade obtidas não apresentaram diferenças significativas em função do pH. Medidas do potencial Zeta de soluções de alginato e fibroína em diversas faixas de pH não mostraram diferenças significativas quanto à carga superficial das moléculas, o que é compatível com a ausência de influência do pH no equilíbrio de fases. / Polymer blends formed by biopolymers may show an improvement of material properties (compared to the pure biopolymers), and present advantages such as biocompatibility, biodegradability and low toxicity. An interesting biopolymer blend is that formed by sodium alginate and silk fibroin. Membranes prepared with this mixture show great potential in the development of high-performance wound dressing, since it provides optimum healing conditions. However, the mixing process of these two biopolymers is complex and has not been extensively explored. In this work the phase equilibrium behavior of aqueous systems containing silk fibroin and sodium alginate was experimentally studied at different pH values. Fibroin aqueous solutions were previously prepared through dialysis, and alginate solutions were prepared by direct dissolution in water. Both solutions were mixed at the concentration range in which the phase behavior of the system was to be assessed. After phase separation, the supernatant liquid phase was separated, the fibroin was quantified through spectrophotometry. and the alginate was quantified through calcination. The single-phase region of the phase diagram is small, and the separation of a second phase occurs at low concentrations of both biopolymers. The phase separation could be described as the precipitation of fibroin due to the addition of alginate, and the solubility of fibroin was described by the Cohn equation. The solubility was not significantly affected by the pH. The Zeta potential of either alginate or fibroin, measured in solutions of different pH values, did not present any significant difference concerning the surface charges of these macromolecules. This finding agrees with the absence of pH influence upon the phase equilibrium.

Alginato de sódio

Biopolímeros

Biopolymers

Equilíbrio de fases

Fibroína de seda

Phase equilibrium

Silk-fibroin

Sodium alginate

Termodinâmica

Thermodynamics

Estudo do equilí­brio de fases em sistemas contendo polímeros naturais: fibroí­na de seda e alginato de sódio. / Study of phase equilibrium in systems containing natural polymers: silk-fibroin and sodium alginate.

Suzanna Bizarro Badra

13 November 2018

Blendas poliméricas de biopolímeros, além de apresentarem uma melhora das propriedades do material, ainda possuem as vantagens de serem biocompatíveis, biodegradáveis e apresentar baixa toxicicidade, como no caso de blendas de alginato de sódio e fibroína de seda. Membranas confeccionadas a partir desta mistura apresentam grande potencial no desenvolvimento de curativos de alto desempenho, proporcionando condições ótimas de cicatrização. Entretanto, o processo de mistura destes biopolímeros é bastante complexo e resulta na separação de fases, processo que ainda não foi muito explorado. Este trabalho buscou explorar experimentalmente o comportamento do equilíbrio de fases dos sistemas aquosos contendo fibroína de seda e alginato de sódio em diversos valores de pH. Soluções aquosas de fibroína foram previamente preparadas por meio de processo de diálise, e soluções de alginato, por meio de dissolução direta em água. Ambas as soluções eram misturadas em concentrações em que se desejava avaliar o comportamento de fases. Após a separação de fases, a fase líquida sobrenadante era coletada, a fibroína quantificada via espectrofotometria e o alginato, via calcinação. Observou-se que a região monofásica do diagrama de fases é pequena, e a separação de uma segunda fase ocorre em concentrações baixas dos dois biopolímeros. A separação de fases pôde ser descrita como a precipitação da fibroína pela adição de alginato, e a solubilidade da fibroína pôde ser descrita por meio da equação de Cohn. As curvas de solubilidade obtidas não apresentaram diferenças significativas em função do pH. Medidas do potencial Zeta de soluções de alginato e fibroína em diversas faixas de pH não mostraram diferenças significativas quanto à carga superficial das moléculas, o que é compatível com a ausência de influência do pH no equilíbrio de fases. / Polymer blends formed by biopolymers may show an improvement of material properties (compared to the pure biopolymers), and present advantages such as biocompatibility, biodegradability and low toxicity. An interesting biopolymer blend is that formed by sodium alginate and silk fibroin. Membranes prepared with this mixture show great potential in the development of high-performance wound dressing, since it provides optimum healing conditions. However, the mixing process of these two biopolymers is complex and has not been extensively explored. In this work the phase equilibrium behavior of aqueous systems containing silk fibroin and sodium alginate was experimentally studied at different pH values. Fibroin aqueous solutions were previously prepared through dialysis, and alginate solutions were prepared by direct dissolution in water. Both solutions were mixed at the concentration range in which the phase behavior of the system was to be assessed. After phase separation, the supernatant liquid phase was separated, the fibroin was quantified through spectrophotometry. and the alginate was quantified through calcination. The single-phase region of the phase diagram is small, and the separation of a second phase occurs at low concentrations of both biopolymers. The phase separation could be described as the precipitation of fibroin due to the addition of alginate, and the solubility of fibroin was described by the Cohn equation. The solubility was not significantly affected by the pH. The Zeta potential of either alginate or fibroin, measured in solutions of different pH values, did not present any significant difference concerning the surface charges of these macromolecules. This finding agrees with the absence of pH influence upon the phase equilibrium.

Alginato de sódio

Biopolímeros

Equilíbrio de fases

Fibroína de seda

Termodinâmica

Biopolymers

Phase equilibrium

Silk-fibroin

Sodium alginate

Thermodynamics

Síntese e caracterização de biofilmes à base alginato de sódio reticulado com poliacrilamida catiônica / Synthesis and characterization of biofilms based on sodium alginate crosslinked with cationic polyacrylamide

ABREU JÚNIOR, Aquiles Ferreira de

30 October 2017

Submitted by Rosivalda Pereira (mrs.pereira@ufma.br) on 2017-12-05T19:27:25Z No. of bitstreams: 1 AquilesAbreu.pdf: 1827634 bytes, checksum: d2d7ee078cf8878dfe676a53e1e8bdf0 (MD5) / Made available in DSpace on 2017-12-05T19:27:25Z (GMT). No. of bitstreams: 1 AquilesAbreu.pdf: 1827634 bytes, checksum: d2d7ee078cf8878dfe676a53e1e8bdf0 (MD5) Previous issue date: 2017-10-30 / CAPES / Biofilms based on sodium alginate (AS) crosslinked with cationic polyacrylamide (PAMc) of high molar mass were made by the casting technique. In this study, the central rotational compound design (DCCR) was used and 11 trials were performed. The biofilms produced were characterized with respect to moisture (ω), water solubility (S), water vapor permeability (PVA), thickness (σ), absorption spectroscopy in the infrared region with Fourier transform (FTIR), microscopy scanning (SEM) and mechanical properties. The experimental results showed that biofilms with lower glycerol contents obtained lower moisture content. It was observed that for the solubility and permeability to water vapor, the lower values observed were influenced by the concentrations of PAMc. Assay 5 (AS 6.0g, GLI 1.0g, PAMc 2.5%) presented lower values of ω and PVA, with possible application as food coatings and assay 10 (AS 6.0g, GLI 3.0g; PAMc 2.5%) higher S, and can be applied in biodegradable packages. The results obtained through FTIR confirmed the chemical interaction between AS and PAMc. Morphological analyzes showed that biofilms showed heterogeneity when the concentrations of MAP were increased. Regarding the mechanical properties, tensile strength (TR) and Young's modulus (E) were found to increase when the PAMc concentrations were higher and the deformation decreased when glycerol concentrations were high. Trial 11 (AS 6.0g, GLI 3.0g, PAMc 2.5%) showed higher TR (14.06 MPa) and E (21.17 MPa), with potential for applications as biodegradable bags. / Biofilmes à base de alginato de sódio (AS) reticulados com poliacrilamida catiônica (PAMc) de alta massa molar foram confeccionados pela técnica casting. Nesse estudo foi utilizado o delineamento composto central rotacional (DCCR) realizando-se 11 ensaios. Os biofilmes produzidos foram caracterizados com relação à umidade (ω), solubilidade em água (S), permeabilidade ao vapor de água (PVA), espessura (σ), espectroscopia de absorção na região do infravermelho com transformada de Fourier (FTIR), microscopia eletrônica de varredura (MEV) e propriedades mecânicas. Os resultados experimentais mostraram que os biofilmes com menores teores de glicerol obtiveram menores teores de umidade. Observou-se que para a solubilidade e permeabilidade ao vapor de água, os menores valores observados foram influenciados pelas concentrações de PAMc. O ensaio 5 (AS 6,0g; GLI 1,0g; PAMc 2,5%) apresentou menores valores de ω e PVA, com possível aplicação como coberturas de alimentos e o ensaio 10 (AS 6,0g; GLI 3,0g; PAMc 2,5%) maior S, podendo ser aplicado em embalagens biodegradáveis. Os resultados obtidos através FTIR confirmaram a interação química entre o AS e a PAMc. As análises morfológicas mostraram que os biofilmes apresentaram heterogeneidade quando as concentrações de PAMc foram aumentadas. Quanto às propriedades mecânicas, verificou-se que a tensão à ruptura (TR) e o módulo de Young (E) aumentaram quando as concentrações de PAMc foram maiores e a deformação diminuiu quando as concentrações de glicerol foram elevadas. O ensaio 11 (AS 6,0g; GLI 3,0g; PAMc 2,5%) apresenta maiores TR (14,06 MPa) e E (21,17 MPa), com potenciais para aplicações como sacolas biodegradáveis.

Biofilmes

Alginato de Sódio

Poliacrilamida Catiônica

Glicerol

Biofilms

Sodium Alginate

Cationic Polyacrylamide

Glycerol

Química Analítica

Inter-Grade and Inter-Batch Variability of Pharmaceutical-Grade Sodium Alginate

Fu, Shao

19 December 2011

Polymeric excipients are generally the least well-characterized components of pharmaceutical formulations. The aim of this dissertation work is to facilitate the quality-by-design (QbD) approach to pharmaceutical formulation and manufacturing by evaluating the inter-grade and inter-batch variability of pharmaceutical-grade polymeric excipients. Sodium alginate, a widely used polymeric excipient, was selected for evaluation using appropriate analytical methods and test conditions, especially rheological methods. The materials used were six different grades of sodium alginate and an additional ten batches of one of the grades. <br>To compare the six grades, steady shear measurements were conducted on solutions at 1, 2, and 3% w/w, consistent with their use as thickening or binding agents. Small amplitude oscillation (SAO) measurements were conducted on sodium alginate solutions at higher concentrations (4-13% w/w) corresponding to their use in controlled release matrices. In order to compare the ten batches of one grade, steady shear and SAO measurements were performed on their solutions at 2% w/w and 8% w/w, respectively. Results show that rheological properties of sodium alginate solutions are influenced by both molecular weight and chemical composition of sodium alginate. ¡§One-point¡¨ apparent viscosity data obtained at one low concentration and one shear rate is not representative of the complex rheological behavior of various grades of sodium alginate solutions at higher concentrations or other shear rates. The potential interchangeability of these different grades used as thickening or binding agents could be established by comparing the apparent viscosities of their solutions as a function of both alginate concentration and shear conditions. For sodium alginate used in controlled release formulations, both steady shear (at one low concentration, e.g., 2% w/w) and SAO measurements (at one high concentration indicative of polymer gel state, e.g., 8% w/w) are recommended to be performed on sodium alginate solutions to ensure interchangeability. Furthermore, among batches of the same grade, significant differences in rheological properties were observed, especially at the high solution concentration (i.e., 8% w/w). In summary, inter-grade and inter-batch variability of sodium alginate can be determined using steady shear and SAO methods. <br>The influence of inter-grade and inter-batch variability of sodium alginate on the functionality of sodium alginate used in matrix tablets was investigated with a focus on compression properties, swelling, erosion behavior of alginate matrix tablets, and drug release from matrix tablets. The compression behavior of four grades and three batches of sodium alginate were studied by compaction energetics, out-of-die Gurnham, and out-of-die Heckel analysis. It was found that sodium alginates deform less plastically than microcrystalline cellulose (MCC PH102) but similar to lactose anhydrous. Sodium alginates also demonstrate more elastic deformations during compression than both MCC PH102 and lactose anhydrous. Compacts prepared from multiple batches of the same grade varied in porosity. The same tensile strength of compacts can be achieved by compressing the multiple batches to the same porosity. <br>Sodium alginate tablets undergo both swelling and erosion in water. Grades with substantially higher apparent viscosities at low solution concentration exhibit a higher percentage of water uptake and a low percentage of erosion. Those batches not significantly different in their apparent viscosities at low solution concentration but significantly different in viscoelasticity at high solution concentrations do demonstrate significant differences in their swelling and erosion behavior. Acetaminophen release from sodium alginate matrix tablets prepared from the four grades and three batches can be well described by a zero-order equation. Significant differences in release profile were observed among various grades and batches. <br>In conclusion, the inter-grade and inter-batch variability of sodium alginate has a significant influence on the swelling, erosion, and drug release behavior of sodium alginate matrix tablets. Apparent viscosities of sodium alginate solution at low concentration alone are not sufficient to predict the functionality of sodium alginate used in matrix tablets. Viscoelastic properties of sodium alginate solutions at high concentrations indicative of polymer gel state are appropriate to be characterized. <br>Further study was conducted to determine whether sodium alginate solutions¡&brkbar; rheological parameters are relevant to sodium alginate¡&brkbar;s use in the formulation of calcium alginate gels. Among the grades with similar guluronic acid percentage (%G), there is a significant correlation between gel fracture force and apparent viscosity. However, the results for the partial correlation analysis for all six grades of sodium alginate show that gel fracture force is significantly correlated with %G, but not with the rheological properties of the sodium alginate solutions. Studies of the ten batches of one grade of sodium alginate show that apparent viscosities of their solutions do not correlate with gel fracture force while tan <em>f</em>Ô values are significantly, but minimally, correlated to gel fracture force. Inter-batch differences in the rheological behavior for one specific grade of sodium alginate are insufficient to predict the corresponding calcium alginate gel's mechanical properties. <br>In summary, rheological methods, including steady shear and small amplitude oscillation, are able to identify the inter-grade and inter-batch variability of sodium alginate. Inter-grade and inter-batch variability of sodium alginate could lead to substantial differences in the functionality of sodium alginate in matrix tablets and in calcium alginate gels. Rheological properties of sodium alginate in solution are suggestive of its functionality as thickeners, or as controlled release agent. However, rheological properties of sodium alginate in solution do not seem to be sufficient to predict the mechanical properties of the corresponding calcium alginate gels. / Mylan School of Pharmacy and the Graduate School of Pharmaceutical Sciences / Pharmaceutics / PhD / Dissertation

Grafting of sodium alginate with poly (N-isopropylacrylamide) chains. Study of the thermothickening behavior / Εμβολιασμός αλγινικού οξέος με πολυ (Ν -ισοπροπυλακρυλαμίδιο). Μελέτη θερμικής συμπεριφοράς

Ciocoiu, Oana Nicoleta

16 June 2010

Designing new materials with improved or tailored properties is one of the main goals of the chemists. Two common ways are mainly used to get a material with improved or new properties: blending or chemical synthesis. Chemical synthesis is an unlimited method to get new substances with well-defined properties even it is often time consuming and not seldom costly.A rheology study has shown a considerable increase in viscosity of 1% aqueous solutions, 40 and 120 times at 550C, for the graft copolymers with a composition 67 and 80% in PNIPAM respectively as temperature increases above 350C. This behaviour is also related with a critical concentration that has been found around 0.6% for the same copolymers. Fluorescence measurements have shown that this behavior is related with the hydrophobic character and aggregation of PNIPAM chains by increasing temperature over 350C. A dynamic light scattering study in dilute aqueous solutions by varying temperature could provide more information on the kind of the transition taking place and the nature of the particles formed as temperature increases. / Ο σχεδιασμός νέων υλικών με βελτιωμένες ιδιότητες είναι ένας από τους κύριους στόχους των χημικών. Δύο είναι οι πιο συνηθισμένοι τρόποι που χρησιμοποιούνται κυρίως για τη παραλαβή ενός υλικού με βελτιωμένες ή νέες ιδιότητες: ανάμειξη ή χημική σύνθεση. Χημική σύνθεση είναι η μέθοδος όπου λαμβάνονται νέα υλικά με καθορισμένες ιδιότητες αλλά έχει ως μειονέκτημα το κόστος και είναι συχνά χρονοβόρα.Μετρήσεις ρεολογίας έδειξαν μια αξιοσημείωτη αύξηση στο ιξώδες του 1% υδατικού διαλύματος, από 40 μέχρι 120 φορές στους 550C, για συστάσεις του εμβολιασμένου συμπολυμερούς σε PNIPAM 67 εως 80% αντίστοιχα, καθώς η θερμοκρασία αυξάνεται πάνω από τους 350C. Επιπλέον αυτή η συμπεριφορά σχετίζεται με μια κρίσιμη συγκέντρωση που βρέθηκε ίση με 0,6% για τα ίδια συμπολυμερή. Μετρήσεις φθορισμού έδειξαν ότι αυτή η συμπεριφορά σχετίζεται άμεσα με τον υδρόφοβο χαρακτήρα του PNIPAM καθώς η θερμοκρασία αυξάνεται πάνω από τους 350C. Μετρήσεις με δυναμική σκέδαση φωτός σε αραιά υδατικά διαλύματα σε διάφορες θερμοκρασίες μπορούν να δώσουν επιπλέον πληροφορίες για τη μετάπτωση που λαμβάνει χώρα και τη φύση των σωματιδίων όσο η θερμοκρασία αυξάνεται.

Sodium alginate

Thermothickening

PNIPAM

547.782

Αλγινικό οξύ

Estudo da coimobilização de lactase e neutrase em suporte de quitosana e alginato de sódio: Comparação de diferentes metodologias visando à hidrólise da lactose e proteínas provenientes do soro de queijo / Study of lactase and neutrase coimobilization in support of quitosan and sodium alginate: Comparison of different methodologies visiting lactose hydrolysis and proteins from the cheese serum.

SILVA, Elisangela Batista da.

25 July 2018

Submitted by Rosana Amâncio (rosana.amancio@ufcg.edu.br) on 2018-07-25T20:49:24Z No. of bitstreams: 1 ELISANGELA BATISTA DA SILVA- DISSERTAÇÃO PPGCNBio 2015.pdf: 1682556 bytes, checksum: 441c1648554dce2563984e2135e7eae7 (MD5) / Made available in DSpace on 2018-07-25T20:49:24Z (GMT). No. of bitstreams: 1 ELISANGELA BATISTA DA SILVA- DISSERTAÇÃO PPGCNBio 2015.pdf: 1682556 bytes, checksum: 441c1648554dce2563984e2135e7eae7 (MD5) Previous issue date: 2015-07-28 / CNPq / Enzimas são proteínas biocatalisadoras, aumentam a velocidade de reação sem alterar o equilíbrio. Apresentam alta eficiência durante as reações bioquímicas no metabolismo dos seres vivos. O soro de queijo pode apresentar-se aplicado na dieta de alguns animais; como também serem descartado nos efluentes. O extrato seco do soro de leite corresponde à lactose, proteínas, sais minerais e gordura, dos quais a lactose é o material energético utilizado em processos biotecnológicos (indústria farmacêutica e alimentícia) e as proteínas destacam-se devido ao valor nutricional. A hidrólise é um método promissor para a indústria de alimentos, pois possibilita o desenvolvimento de novos produtos hidrolisados, aumentando assim a disponibilidade de nutrientes aos produtos lácteos e a nível mundial e atenuação por intolerantes a lactose. A imobilização de enzimas é uma técnica cada vez mais utilizada a fim de melhorar a aplicação industrial de enzimas permitindo um melhor controle da produção e redução de custos. Objetivou-se estudar coimobilização de lactase e neutrase em suporte de quitosana comparando metodologias visando à hidrólise da lactose e proteínas do soro de queijo, além de promover o reaproveitamento de produtos regionais mais baratos como suportes a base de quitosana e alginato de sódio. Inicialmente prepararam-se os suportes a serem aplicados no estudo com quitosana 4% (m/v) e alginato de sódio 2,5% (m/v) ativados com glutaraldeído 5% (v/v). Na primeira etapa, determinaram-se o rendimento e atividade de imobilização e coimobilização, atividade recuperada e atividade aparente dos melhores derivados obtidos. Para a segunda fase, os catalisadores imobilizados e coimobilizados foram estudados quanto à estabilidade térmica e operacional, tempo de meia vida, grau de hidrólise e concentração de glicose. Os resultados para os derivados formados a partir da quitosana foram satisfatórios obtendo um rendimento de coimobilização para a neutrase (76,53%) e para a lactase (91,30%). Suportes de alginato de sódio não apresentaram boa adequação para imobilização e coimobilização obtendo-se rendimentos nulos. Houve um aumento na estabilidade térmica e tempo de meia vida nos derivados de quitosana. Na comparação do grau de hidrólise entre a neutrase livre, imobilizada e coimobilizada obteve-se um melhor desempenho da enzima imobilizada (20%) em 80 minutos de reação. Quando se comparou a conversão de glicose com lactase livre, imobilizada e coimobilizada a melhor resultado foi a lactase livre (15g/L) em 30 minutos de reação. A estabilidade operacional da neutrase em cinco ciclos consecutivos ocorreu uma queda de (46%) no grau máximo de hidrólise, já a lactase em seu quinto ciclo de reutilização em bateladas foi obtido perda de (16,4%) na concentração de glicose. Dessa forma, obtiveram-se bons derivados de lactase e neutrase coimobilizada possibilitando a reutilização da enzima, reduzindo custos de processo. / Enzymes are proteins biocatalisadoras, increase reaction speed without changing the balance. They feature high efficiency during the biochemical reactions in the metabolism of living beings. The cheese whey may be present in the applied diet some animals; but also be disposed in the effluent. The dry extract of whey corresponds lactose, proteins, minerals and fat, of which lactose is the energetic material used in biotechnological processes (pharmaceutical and food industry) and proteins stand out due to their nutritional value. Hydrolysis is a promising method for the food industry, it allows the development of new hydrolysed products, thereby increasing the availability of nutrients for milk products and worldwide and mitigation for the lactose intolerant. The immobilizing enzymes is an increasingly used technique to improve the industrial application of enzymes allowing better control of production and cost reduction. The objective was to study coimobilização lactase and neutrase in chitosan support methodologies aimed at comparing hydrolysis of lactose and whey proteins, and promote the reuse of cheaper local products as supports the basis of chitosan and sodium alginate. Initially prepared brackets to be applied to the study of 4% chitosan (w/v) and sodium alginate (2.5% w/v) activated with glutaraldehyde (5% v/v). In the first stage, they were determined income and immobilization activity and coimobilizada, recovered activity and apparent activity of the best obtained derivatives. For the second phase, the immobilized catalysts and coimobilizada were studied for thermal and operational stability, half-life, degree of hydrolysis and the glucose concentration. The results for the derivatives formed from chitosan were obtained satisfactory yield coimobilizada for neutrase (76.53%) and lactase (91.30%). Sodium alginate holders did not show good fit for immobilization and coimobilizada obtaining zero income. There was an increase in the thermal stability and half-life in the chitosan derivatives. Comparing the degree of hydrolysis between free Neutrase, and immobilized coimobilizada obtained a better performance of the immobilized enzyme (20%) at 80 minutes of reaction. When comparing the conversion of glucose to free lactase, immobilized and coimobilizada the best result was the free lactase (15g/L) in 30 minutes of reaction. The operational stability of Neutrase in five consecutive cycles there was a fall (46%) maximum degree of hydrolysis, longer lactase in its fifth reuse cycle in batches loss was obtained (16.4%) in glucose concentration. Thus, there were obtained good derivatives lactase and coimobilizada neutrase enabling reuse of the enzyme, reducing processing costs.

Proteína.

Soro de queijo

Lactase

Neutrase

Imobilização

Coimobilização

Quitosana

Alginato de sódio

Cheese whey

Sodium alginate