Produção de quitosanas com características controladas utilizando a irradiação de ultrassom de alta intensidade / Production of chitosan with controlled characteristics by irradiation of high intensity ultrasound

Jorge Augusto de Moura Delezuk

20 June 2013

A principal reação de derivatização da quitina é a hidrólise dos grupos acetamido, que gera o polímero conhecido como quitosana. O foco do presente estudo é desenvolver um processo eficiente, reprodutivo e versátil para produção de quitosanas com características controladas. Nesse sentido, o processo de desacetilação de quitina assistida por irradiação do ultrassom de alta intensidade, denominado processo DAIUS, foi estudado. Para o desenvolvimento do estudo proposto, as seguintes etapas foram realizadas: i) extração, fracionamento e caracterização de beta-quitina extraída de gládios de lulas; ii) estudo quimiométrico visando determinar as variáveis mais importantes do processo DAIUS; iii) estudo quimiométrico visando a otimização do processo DAIUS empregando gráficos de superfícies de resposta e iv) estudo cinético da desacetilação de beta-quitina via processo DAIUS. A caracterização das quitosanas, obtidas pelo processo DAIUS com o auxílio do planejamento fatorial de experimentos revelou que a intensidade da irradiação de ultrassom é a variável menos importante durante a desacetilação da beta-quitina, e que a temperatura e o tempo de reação são as variáveis que mais afetam a despolimerização da beta-quitina. Desse estudo resultaram quitosanas com elevados <span style=\"text-decoration: overline\">GD (92%) e <span style=\"text-decoration: overline\">Mv (5,42x105g/mol), enquanto o parâmetro de acetilação (PA) apresentou valores próximos de 1,0, que corresponde ao padrão randômico ideal de distribuição de unidades GlcN e GlcNAc, sugerindo que o processo DAIUS ocorre homogeneamente. A análise dos gráficos de superfícies de resposta permitiu observar que o aumento da temperatura e do tempo de sonicação gera quitosanas mais desacetiladas, porém com menores massas molares. Esta análise também permitiu avaliar os efeitos do processo DAIUS sobre <span style=\"text-decoration: overline\">GD, <span style=\"text-decoration: overline\">Mv e PA, sendo que nesse estudo quitosanas com elevada <span style=\"text-decoration: overline\">Mv (9,83x105g/mol) foram obtidas, porém o aumento da temperatura e do tempo de sonicação resultou em quitosanas mais despolimerizadas, e também mais desacetiladas. A seleção das principais variáveis do processo DAIUS, temperatura de reação e do tempo de sonicação, permitiu uma melhor compreensão da variação do <span style=\"text-decoration: overline\">GD e da <span style=\"text-decoration: overline\">Mv, e permitiu a obtenção de quitosanas que apresentaram valores de PA&asymp;1,0, correspondente ao padrão randômico ideal de distribuição de unidades GlcN e GlcNAc. O estudo da cinética da desacetilação da beta-quitina via processo DAIUS revelou a ocorrência de duas etapas bem distintas quantos às suas velocidades, sendo a primeira, atuante nos primeiros 20 minutos, mais rápida (k=29,4 min-1 103) quando comparada com a segunda etapa (k=7,6 min-1 103). As quitosanas geradas no desenvolvimento do estudo cinético do processo DAIUS foram analisadas por difração de raios X, revelando que durante o processo DAIUS ocorre perda de água do retículo cristalino da beta-quitina, fato atribuído à cavitação gerada pela irradiação de ultrassom de alta intensidade. Assim, é proposto que o fenômeno da cavitação, que resulta em importantes alterações morfológicas, reduzindo as dimensões médias das partículas e aumentando sua rugosidade e uniformidade, também atue no interior do retículo cristalino da beta-quitina, resultando na expulsão de moléculas de água e facilitando o acesso do hidróxido de sódio aos grupamentos acetamido da beta-quitina mesmo nos domínios cristalinos. A utilização do ultrassom de alta intensidade na desacetilação de beta-quitina coloca em destaque a obtenção de quitosanas com características controladas. / The main reaction of chitin is the hydrolysis of its acetamido groups, which generates a polymer known as chitosan. The focus of the present study is the development of an efficient, reproductive and versatile process for chitosan production with controlled characteristics. In this sense, the chitin deacetylation assisted by high intensity ultrasound irradiation, called USAD process, was studied. The development of the proposed study was carried out in four steps: i) the extraction, fractionation and characterization of beta-chitin, extracted from squid pens; ii) the chemometric approach, aiming to determine the most important variables of the USAD process; iii) the chemometric approach aiming to the USAD process optimization, employing response surface and iv) the deacetylation kinetics studies of beta-chitin via USAD process. The characterization of the chitosans obtained by the USAD process, supported by factorial design, showed that the intensity of the ultrasound irradiation is the least important variable in the beta-chitin deacetylation, and the temperature and reaction time are the variables that most affect the beta-chitin depolymerization. From this study, chitosans with high <span style=\"text-decoration: overline\">DD (92%) and <span style=\"text-decoration: overline\">Mv (5.42 x105g/mol) were produced, with acetylation parameter (AP) values close to 1.0, which corresponds to an ideal random pattern of distribution of GlcNAc and GlcN units, suggesting that the USAD process occurs homogeneously. The analysis of response surfaces allowed to observe that the increase of temperature and sonication time generates more deacetylated chitosans, but with lower average molecular weights. This analysis also allowed us to evaluate the effects of USAD process in <span style=\"text-decoration: overline\">DD, <span style=\"text-decoration: overline\">Mv, and AP variations: chitosans with high <span style=\"text-decoration: overline\">Mv (9.83x105g/mol) were obtained, but the increase of temperature and sonication time resulted in more degraded and more deacetylated chitosans. The selection of the main USAD process variables, temperature and sonication time, allowed a better understanding of <span style=\"text-decoration: overline\">DD and <span style=\"text-decoration: overline\">Mv variation, and allowed to obtain chitosan with PA&asymp;1.0, which corresponds to an ideal random pattern of distribution of GlcNAc and GlcN units. The study of beta-chitin deacetylation kinetics via USAD process revealed the occurrence of two stages: the first step, active in the first 20 minutes, is faster (k = 29.4 min-1 103) when compared with the second one (k = 7.6 min-1 103). The chitosans generated in the kinetic study of the USAD process were analyzed by X-ray diffraction, which revealed some water loss in the crystalline structure during the USAD process, which is attributed to the cavitation generated by irradiation of high intensity ultrasound. Thus, it is suggested that the phenomenon of cavitation, which results in significant morphological changes by reducing average particle size and increase uniformity and roughness, also act within the crystalline structure of beta-chitin, resulting in the expulsion of water molecules and facilitating the access of sodium hydroxide to beta-chitin acetamido groups even in the crystalline domains. The use of high intensity ultrasound in deacetylation of beta-chitin highlight the production of chitosans with controlled characteristics.

ácido hialurônico

alginato

beta-quitina

desacetilação

ultrassom de alta intensidade

alginate

beta-chitin

chitosan with controlled characteristics

deacetylation

high intensity ultrasound

hyaluronic acid

Ingénierie d'un nouveau nanobiohybride à base de nanorubans de titanates pour la médecine régénérative / New nanobiohybrid engineering composed of titanate nanoribbons for regenerative medicine

Bellat, Vanessa

20 November 2012

Ce travail de recherche est consacré à l’ingénierie d’un nouveau nanobiohybride à base de nanorubans de titanates pour la médecine régénérative. Dans un premier temps, les nanorubans ont été synthétisés par traitement hydrothermal et leurs caractéristiques morphologiques, structurales et chimiques ont été définies. Une caractérisation fine par différentes techniques de microscopie électronique à transmission a notamment permis de déterminer leur épaisseur; dimension qui n’avait encore jamais été mesurée. Par la suite, les nanorubans de titanates ont été fonctionnalisés par différents PEG hétérobifonctionnels préalablement synthétisés au laboratoire. Ces polymères présentent à l’une de leurs extrémités des groupements fonctionnels spécifiques pouvant se coupler à de nombreuses molécules biologiques. Des peptides de type collagène contenant des sites de reconnaissance cellulaire ont alors été greffés sur ces extrémités. Le nanobiohybride ainsi formé devra permettre l'adhésion et la prolifération des cellules favorisant in fine la cicatrisation et la régénération tissulaire. Pour évaluer les propriétés biologiques du nouveau nanobiohybride, la cytoxicité et le pouvoir agrégeant des nanorubans de titanes ont été déterminés par des tests MTT, réalisés sur deux populations de cellules (cardiomyocytes et fibroblastes) et par des tests d’agrégation plaquettaire (sang humain). Enfin, dans le cas d’une utilisation pour favoriser le processus de cicatrisation, le nouveau nanobiohybride a été formulé sous forme d’un hydrogel d’alginate de sodium permettant une application directe sur les tissus lésés. Pour confirmer l’intérêt de cette formulation galénique, des premiers tests in vivo ont été réalisés / This research work is devoted to new nanohybrid engineering composed of titanate nanoribbons for regenerative medicine. Over a first phase, nanoribbons were synthesized by hydrothermal treatment and their morphological, structural and chemical features were defined. A fine characterization by means of different techniques of transmission electron microscopy mainly enabled to determine their thickness; dimension which had never been measured so far. Subsequently, titanate nanoribbons were functionalized by different home-made heterobifunctional PEG. Those polymers present at one of their extremities specific functional groups being able to couple with numerous biological molecules. Some collagen type peptides containing cellular recognition sites were grafted onto those extremities. The so-formed nanobiohybrid will permit cellular adhesion and proliferation favouring in fine tissue healing and regeneration. To evaluate new nanohybrid biological properties, titanate nanoribbons cytoxicity and aggregating power were determined by MTT tests, performed on two cell populations (fibroblasts and cardiomyocytes) and platelet aggregation tests (human blood). Finally, when used to promote healing process, the new nanobiohybrid was formulated in the form of sodium alginate hydrogel permitting a direct application on damaged tissues. To confirm the interest of this galenic form, initial in vivo tests were realized

Nanorubans de titanates

PEG hétérobifonctionnel

Fonctionnalisation

Protéines

Nanobiohybride

Hydrogel d’alginate

Médecine régénérative

Titanate nanoribbons

Heterobifunctional PEG

Functionalization

Proteins

Nanobiohybrid

Alginate hydrogel

Regenerative medicine

541.2

541.39

543

546

Alginate : a versatile biopolymer for functional advanced materials / Alginate : un biopolymère polyvalent pour des matériaux fonctionnels avancés

Pettignano, Asja

19 September 2016

Les alginates, des polysaccharides produits par les algues brunes, sont des copolymères à blocs linéaires, formés d’unités mannuronate (M) et guluronate (G). En raison de leur abondance naturelle, prix et propriétés physicochimiques avantageuses, les alginates représentent une classe de biopolymères très intéressante et relativement inexplorée pour des applications dans le domaine des matériaux avancés. Dans ce contexte, le présent travail vise à enrichir la gamme des applications des matériaux dérivés d’alginates, en exploitant les propriétés de cette classe de polysaccharides naturels. En particulier, la préparation de matériaux à base d'alginate pour la catalyse, l'adsorption et le domaine biomédical a été étudiée, avec des résultats encourageants dans toutes les applications testées. L'utilisation bénéfique de l'acide alginique en catalyse hétérogène a été démontrée, en tant que promoteur de réaction et support pour l’hétérogénéisation d'un organocatalyseur. L'activité du catalyseur a été trouvée très dépendante de l'accessibilité des groupes fonctionnels, mettant en évidence l’avantage de l’emploi de formulations plus accessibles. La texturation des alginates a été aussi avantageuse dans la préparation de matériaux pour applications en flux. Des mousses d'acide alginique, avec une structure hiérarchique macro-mésoporeuse, ont été développées à cet effet. Une caractérisation précise des matériaux a été réalisée, afin d'optimiser la procédure de préparation et de corréler les propriétés texturales obtenues avec les paramètres utilisés. L'intérêt dans l’utilisation de mousses à base d'acide alginique a été démontré dans une application modèle, l'adsorption de bleu de méthylène à partir de solutions aqueuses, à la fois en batch et en flux. La possibilité de modifier facilement les groupes fonctionnels de l’alginate, couplée avec la nature biocompatible et biodégradable de ces biopolymères, a finalement été exploitée pour le développement de gels auto-réparants, obtenus grâce à la formation de deux types d'interactions covalentes dynamiques : base de Schiff et ester de boronate. Les deux systèmes examinés ont présenté une remarquable habilité à se reconstruire après un dégât, même si l'ampleur de la reconstruction et la stabilité des gels étaient fortement dépendantes des paramètres de préparation des gels et des conditions environnementales utilisées. Les résultats obtenus dans le cadre de cette étude démontrent clairement comment la compréhension et un emploi conscient des propriétés physico-chimiques des alginates peuvent maximiser le potentiel que cette ressource durable dans le domaine de la chimie des matériaux. / Alginates, polysaccharides produced by brown algae, are linear block-copolymers formed by mannuronate (M) and guluronate (G) units. Because of their huge natural abundance, cheapness and physicochemical properties, alginates represent a highly attractive and still relatively unexplored class of biopolymers for applications in the field of advanced materials. In this context, the present work aimed to enrich the range of possible applications of alginate-derived materials, making the most of the peculiar features of this class of natural polysaccharides. In particular, the preparation of alginate-based active materials to be employed in the catalysis, adsorption and biomedical field was studied, achieving encouraging results in all the tested applications. The beneficial use of alginic acid in heterogeneous catalysis, both as reaction promoter and as support for the heterogeneization of an organocatalyst, was demonstrated. The activity of the material was found highly dependent on the accessibility of the active functions, highlighting the advantage of employing more accessible alginate formulations. The texturation of alginates was further advantageous for the preparation of materials with improved flowability. Alginic acid foams, bearing a hierarchical macro-mesoporous structure were developed by means of a simple procedure. Accurate characterization was performed to optimize the preparation procedure and to correlate the textural properties of the obtained materials with the parameters used. The interest of the prepared alginic acid foams was demonstrated in a model application, the adsorption of methylene blue from aqueous solutions, both in batch and in flow conditions. The possibility to easily modify alginate functional groups, coupled with the biocompatible and biodegradable nature of alginates, was finally employed for the development of self-healing gels, thanks to the formation of two types of dynamic covalent interactions: Schiff base and boronate ester bonds. Both the examined systems presented a marked ability to recover after damage, even if the extent of the recovery and the stability of the gels was highly dependent on the preparation parameters and environmental conditions used. The results obtained in the course of this study clearly demonstrate how a full comprehension and conscious employment of alginate physicochemical properties can maximize the potential of this sustainable resource in the field of material chemistry.

Alginate

Texturation

Catalyse

Adsorption

Gels auto-Réparant

Matériaux bio-Sourcés

Alginates

Textural properties

Catalysis

Adsorption

Self-Healing gels

Bio-Based materials

540

Intégration d'un bioréacteur à lit fluidisé dans un circuit extracorporel monitoré / Integration of the fluidized bed bioreactor in an extracorporeal circulation device

Figaro, Sarah

30 June 2015

La nécessité de nouveaux modes de suppléance hépatique se fait clairement ressentir pour maintenir en vie les patients en attente d’une greffe. Des traitements, basés sur l’utilisation de cellules cultivées dans un environnement adéquat, pourraient même permettre le rétablissement de certains patients en insuffisance hépatique sévère et ainsi éviter la greffe et les traitements immunosuppresseurs associés. Une suppléance hépatique efficace pourrait aussi servir au rétablissement des patients récemment greffés ou ayant subi une hépatectomie. L’objectif de cette thèse a été de développer, créer et valider un nouveau foie bioartificiel avec une prise en compte des contraintes réglementaires des médicaments combinés de thérapie innovante. Ce BAL doit pouvoir inclure des bioréacteurs à lit fluidisé perfusés par du plasma et contenant des sphéroïdes d’hépatocytes encapsulés. Des microparticules de verre, ajoutés aux billes d’alginate pour les alourdir, permettent d’obtenir une fluidisation optimale dans du plasma pathologique sans que des effets délétères ne soient observables ni pour les cellules ni pour les propriétés mécaniques des billes. Une méthode de culture cellulaire utilisant un revêtement anti-adhérent sur des boites de Petri en verre permet de produire un nombre important de sphéroïdes viables in vitro. Ces sphéroïdes encapsulés peuvent être maintenus vivants et métaboliquement actifs dans un bioréacteur à lit fluidisé pendant au minimum 4 jours.Pour assurer l’efficacité du BAL et la sécurité des patients, une circulation extracorporelle complexe a été mise au point pour être compatible avec une machine d’épuration extracorporelle commerciale, la Prismaflex® de la société Gambro, déjà utilisée en soins intensifs. Une étude préclinique sur un modèle ovin a montré que le traitement était bien toléré en ce qui concerne les aspects hémodynamiques. La prochaine étape concerne la mise en place d’une étude dans un modèle porcin d’insuffisance hépatique, avant de pouvoir procéder aux premiers essais cliniques. / The need for new liver support devices is clearly felt to allow keeping alive patients waiting for a transplant. Treatments, based on the use of cells cultured in an adequate environment, may even allow the recovery of some patients suffering from acute liver failure and avoid graft and associated immunosuppressive therapies. A hepatic substitution could also be used to reestablish patients recently transplanted or who had underwent an hepatectomy.. The objective of the thesis was to design, create and validate of a new bioartificial liver with consideration for the regulatory requirements of the Advanced Therapies Medical Product (ATMP). This device has to include fluidized bed bioreactors perfused with plasma and hosting alginate-encapsulated hepatocytes spheroids. Microparticles of glass have been added to weight down alginate beads in order to have an optimal fluidization in pathological plasma without negative effects neither on cells metabolism nor on mechanical properties of the beads. A cellular culture method using non adhesive coating in Petri dish led to the production of a large amount of viable spheroids in vitro. These encapsulated spheroids can be kept alive and metabolically active in a fluidized bed bioreactor during a minimum of four days. To ensure the efficacy of the BAL and the safety of patients, a complex extracorporeal circulation was designed to be compatible with a commercial medical device, the Prismaflex® monitor of the company Gambro, already used in intensive care units. A preclinical study on sheeps has shown that the treatment was well tolerated in terms of hemodynamics considerations. The next step is the establishment of a study in a porcine model of liver failure, before we can proceed to the first clinical trial.

Foie bioartificiel

Ingénierie tissulaire

Sphéroïdes

Etude préclinique

Bioartificial liver

Hepatic cells

Tissue engineering

Bioreactors

Artificial organ

Fluidized bed

Microencapsulation

Alginate

Spheroids

Preclinical study

Structuration et contrôle de l’architecture de capsules à coeur liquide à base d’hydrogel d’alginate par association de biopolymères / Structuring and control of the architecture of alginate liquid-core capsules by biopolymers association

Ben Messaoud, Ghazi

29 October 2015

Cette thèse a pour objectif d’étudier les propriétés physico-chimiques de capsules à cœur liquide à base d'hydrogel d'alginate et de contrôler leur perméabilité et propriétés mécaniques par ajout des biopolymères. Ces capsules sont préparées par un procédé de sphérification inverse par extrusion goutte à goutte d’une solution de chlorure de calcium dans un bain à base d’alginate. Dans un premier travail, l’influence des polymères utilisés pour contrôler la viscosité du cœur liquide lors de la préparation des capsules sur la perméabilité et la stabilité mécanique a été étudiée. Les propriétés mécaniques des capsules ont été corrélées avec les propriétés viscoélastiques d’hydrogels d’alginate caractérisés par rhéologie oscillatoire aux faibles amplitudes. Un second travail, a consisté à élaborer des capsules composites avec une membrane de caséinate de sodium/alginate qui présentent une meilleure stabilité et une libération pH-dépendante d’un colorant utilisé comme molécule modèle. Comme perspective a cette étude, des hydrogels sphériques à base d’alginate et de caséinate de sodium, avec différentes architecture ont été développés et leur efficacité a été testée sur trois colorants. Enfin, l’influence de l’incorporation de la gomme laque dans la membrane ou comme revêtement externe a permis de mettre en évidence une amélioration des propriétés barrières vis-à-vis de molécules de faible masse moléculaire (riboflavine dans ce cas). Les capsules à base d’alginate ont un large spectre d’utilisation allant de la cuisine moléculaire à la biotechnologie ce qui nécessite une meilleure compréhension et contrôle de leurs propriétés physicochimiques en fonction de l’application visée / The aim of this thesis is to study the physicochemical properties of alginate liquid-core capsules and to control their permeability and mechanical properties by biopolymers blending. These millimeter-scale size capsules are prepared by a reverse spherification process by dripping a solution of calcium chloride into an alginate gelling bath. In a first work, the influence of polymers used to control capsule liquid-core viscosity (thickening agent) during capsules preparation on permeability and mechanical stability of the alginate membrane was investigated. The mechanical properties of capsules were correlated with viscoelastic properties of plane alginate hydrogels characterized by small amplitude oscillatory shear rheology. In a second work, composite capsules with a membrane of sodium caseinate / alginate were developed and showed improved stability and pH-dependent release of a dye used as a model molecule. As a perspective, composite alginate/sodium caseinate microspheres with different architectures were developed and their effectiveness was tested against three anionic dyes. This type of system has applications in the removal of dyes from industrial wastewater by an adsorption mechanism. Finally, the influence of shellac incorporation in alginate membrane or as an external coating layer resulted in enhanced physicochemical properties and decreased membrane permeability against low molecular weight molecules (riboflavin in this case). Alginate capsules have a wide range of applications ranging from molecular gastronomy to biotechnology which requires a better understanding and control of their physicochemical properties according to the target application

Capsules à cœur liquide

Hydrogel d’alginate

Biopolymères

Sphérification inverse

Propriétés mécaniques

Perméabilité

Liquid-Core capsules

Alginate hydrogel

Biopolymers

Reverse spherification

Mechanical properties, Permeability

660.294 5

664

Incorporação de antimicrobianos naturais em filme biodegradável à base de alginato para o controle de Listeria monocytogenes em embutido cárneo fatiado / Incorporation of natural antimicrobials into alginate based film for the control of Listeria monocytogenes in sliced meat product

Maria Crystina Igarashi

03 November 2015

A incorporação de substâncias antimicrobianas, entre elas os óleos essenciais, em embalagens tem como objetivo minimizar a contaminação microbiana em alimentos. No entanto, essa utilização é limitada por critérios sensoriais, sendo necessário determinar a concentração mínima necessária para inibir o desenvolvimento de micro-organismos sem afetar sensorialmente as características do alimento. Assim, os objetivos dessa pesquisa foram: determinar a concentração inibitória mínima (CIM) de óleos essenciais (OE) para Listeria monocytogenes (LM); avaliar do efeito da combinação de óleos essenciais para a redução da população de LM; avaliar a combinação de compostos ativos presentes em óleos essenciais para a inibição de LM, Pseudomonas spp e Salmonella spp; avaliar in vitro e in situ a eficiência antimicrobiana do filme à base de alginato incorporado de compostos ativos presentes em óleos essenciais; determinar a disponibilidade dos compostos ativos incorporados ao filme pela determinação dos compostos fenólicos totais; caracterizar o filme frente às propriedades mecânicas e propriedades de barreira, e verificar a aceitação pelo consumidor, através da análise sensorial, de fatias de salame embaladas com o filme antimicrobiano. Constatou-se que a combinação de eugenol (0,01%) e limoneno (0,04%) apresentou um maior efeito para a redução da população de LM comparado ao uso individual desses compostos, confirmando, portanto, a existência de sinergismo entre esses dois compostos. Em relação à Pseudomonas spp, o sinergismo foi constatado quando as concentrações de eugenol (0,15%) e de limoneno (0,30%) foram utilizadas, no entanto, para Salmonella spp o mesmo efeito não foi observado. Em ensaios in vitro apesar do aumento na concentração de eugenol e limoneno incorporados à matriz do filme, não houve diferença significativa para os valores de zona de inibição antimicrobiana porém, em ensaios in situ, a utilização desse filme como embalagem primária promoveu a redução de 2 log UFC/g da população de LM até o 10º dia de análise permanecendo constante até o 30º dia o que não ocorreu com a combinação de eugenol (0,15%) e limoneno (0,3%). A quantificação dos compostos fenólicos totais nas amostras mostrou que há correlação entre o teor de compostos fenólicos extraídos da amostra do filme e o comportamento de LM. As propriedades mecânicas e de barreira do filme à base de alginato não foram significativamente afetadas pelas concentrações de eugenol e limoneno avaliadas neste estudo. O sabor, o aroma e a aparência das amostras de salame foram aceitos pelos provadores mostrando que o uso do filme à base de alginato incorporado com eugenol e limoneno é viável para a aplicação como embalagem antimicrobiana para o controle de L. monocytogenes em salame fatiado. Este resultado é considerado importante, pois em alimentos com atividade de água e valores de pH adequados à multiplicação desse patógeno e armazenados sob refrigeração, a temperatura é capaz de selecionar a microbiota presente no alimento, favorecendo a multiplicação de micro-organismos psicrotróficos, como L. monocytogenes. / The incorporation of antimicrobial substances in packages aims at reducing food microbial contamination among which the phenolic compounds extract from plants have received special attention being natural and attending consumer demand. However, the use of these compounds is limited by sensory criteria and it is necessary to determine the minimum concentration required to inhibit the growth of microorganisms without affecting the sensory characteristics of the food. The aim of this research were: to determine the minimum inhibitory concentration (MIC) of essential oils (EO) for Listeria monocytogenes (LM); to evaluate effect of the combination of essential oils in order to reduce LM population; to evaluate the active compounds combination for the inhibition of LM, Pseudomonas spp, and Salmonella spp; to evaluate the antimicrobial efficiency in vitro and in situ of the alginate film incorporated with the active compounds; to determine the availability of the active compounds incorporated into the film for the determination of total phenolic compounds; to characterize the mechanical and barrier properties of the film, and to verify consumer acceptance of slices of salami packaged with the antimicrobial film. The combination of eugenol (0.01%) and limonene (0.04%) showed a greater effect for reducing LM population compared to the individual use of these compounds, confirming the existence of synergism between these two compounds. Regarding Pseudomonas spp, synergism was observed when the concentrations of eugenol (0.15%) and limonene (0.30%) were used, however, the same effect was not observed for Salmonella spp. In in vitro tests, despite of the increase in the concentration of limonene and eugenol incorporated in the film matrix, no significant difference for the antimicrobial inhibition zone values was observed. In in situ tests, the film containing eugenol (0.3%) and limonene (0.6%) promoted the reduction of 2 log CFU/g of LM population in sliced salami, while the combination of eugenol (0.15%) and limonene (0.3%) did not have the same effect. The quantification of the phenolic compounds in the film samples showed that there is correlation between the content of phenolic compounds extracted from the film sample and LM behavior. The mechanical properties of the barrier film and the alginate were not significantly affected by eugenol, and limonene concentrations evaluated in this study. The taste, flavor and appearance of the salami samples were accepted by the panel showing that the use of the alginate-based film incorporated with limonene and eugenol are feasible for use as antimicrobial packaging for the control of L. monocytogenes in sliced salami. This is an important result, because in food matrix with water activity and pH suitable for the pathogen growth, the storage under refrigerated condition is able to select the psycrothophic microorganisms, such as L. monocytogenes.

Eugenol

Filmes à base de alginato

Limoneno

Listeria monocytogenes

Óleos essenciais

Pseudomonas spp

Salmonella spp

Alginate film

Essential oils

Eugenol

Limonene

Listeria monocytogenes

Pseudomonas spp

Salmonella spp

Příprava bioaktivních krytů ran a testování jejich interakce s lidskými buňkami / Preparation of bioactive wound dressings and testing their interaction with human cells

Bendová, Agáta

January 2019

The thesis was focused on the preparation and optimization of the preparation of wound dressing from materials with bioactive ingredients. In this work were prepared nanofiber dressings based on polyhydroxybutyrate and non-fibrous dressings from alginate and chitosan. Nanofibers were prepared by electrospinning and forcespinning methods. The bioactive components, which were used to functionalize the prepared dressings, were plant extracts, clotrimazole, ampicillin, lysozyme, and proteolytic enzymes. The theoretical part is focused on the description of the use of nanofibrous and non-fibrous materials in medicine, characterization of materials for the production of wound dressings and bioactive components. Furthermore, this section describes the methods used to prepare and characterize wound dressings. In the practical part were prepared aqueous and oil extracts from selected plants. Extracts were characterized for polyphenols content and antioxidant activity. PHB-based nanofibers were prepared using electrospinning and forcepinning methods. Nanofibers were enriched with selected plant oil extracts and clotrimazol. Modified nanofibres were detemined for antioxidant activity, short-term and long-term stability. Non-fibrous wound dressings were prepared from alginate and chitosan. These dressings were functionalized by the addition of selected aqueous extracts, ampicillin, lysozyme, papain, bromelain, and collagenase. Non-fibrous wound dressings were determined for antioxidant activity, short-term stability and proteolytic activity. The prepared wound dressings were tested for their antimicrobial effects on cultures of Micrococcus luteus, Serratia marcescens, Staphylococcus epidermidis and Escherichia coli. In conclusion, successfully prepared bioactive wound dressings with antioxidant and antimicrobial agents were tested for safety on human cells. The determination was performed using the MTT cytotoxicity test on human keratinocytes.

Studium možných aplikací polymeru kyseliny glutamové / Study on potential applications of glutamic acid polymer

Čangelová, Katarína

January 2019

The subject of the thesis is study of possible applications of isoform of glutamic acid polymer (-PGA). The theoretical part is focused on the properties of this biopolymer and potential applications in various areas. Producers and mechanisms of biosynthesis are also mentioned. In the experimental part, the polymer was firstly characterised by following methods: FT-IR spectroscopy, TGA, DSC and SEC-MALS. Its isoelectric point, antimicrobial activity and solubility in various solvents were also determined. The biopolymer was also precipitated by divalent cations and its interaction with oppositely charged CTAB surfactant was studied. The main experimental study was researching the effect of -PGA on viability of Saccharomyces cerevisiae and Lactobacillus rhamnosus under stress conditions by flow cytometry. The performed stresses included ethanol exposure, high temperature and freezing stress, in which its effects were compared to conventional cryoprotectants. The cells of the mentioned microorganisms were also stressed osmotically and exposed to model gastrointestinal juices - gastric, pancreatic and bile. The protective effects of -PGA on the cells were recorded in ethanol stress on Lactobacillus rhamnosus. Its excellent cryoprotection properties were confirmed and its protective effect of gastric juice exposure on Saccharomyces cerevisiae cells was also observed. At the end of the experimental part, -PGA/alginate beads suitable for encapsulation of probiotic bacteria and -PGA/chitosan nanoparticles for encapsulation of biologically active substances.

Optimalizace MRI měření slepičích embryí / Optimization of the MRI chicken embryos measurements

Sedláčková, Gabriela

January 2015

This thesis deals with optimization of MRI measuring of phantoms containing the chicken embryo. The theoretical part of thesis is dedicated to the MRI fundamentals and description of pulse sequences. In the next part the options of keeping and monitoring the temperature are being discussed. The thesis also deals with design and realization of phantoms which are used for measuring. A browser of images captured by MRI was programmed in Matlab environment. The program allows users to look through the images with different settings of pulses sequences or kind of phantom. The final part of thesis describes the anatomical structures of chicken embryo and discussion of collected results.

Studium bariérových a transportních vlastností vybraných polyelektrolytů v hydrogelových matricích pomocí difúzních technik / Study of barrier and transport properties of polyelectrolytes using diffusion techniques in hydrogels

Valentová, Kristýna

January 2017

This diploma thesis was focused on study of barrier and transport properties of selected polyelectrolytes in hydrogel matrices by using diffusion techniques. The study of these properties was performed in horizontal diffusion cells where is observed the change in diffusion probe concentration over time. Diffusion experiments were performed on an agarose hydrogel with the addition of alginate, hyaluronic acid, polystyrene sulfonate, humic acids and as a model probe rhodamine 6G was used. Important parts of this thesis are also the methods which characterize the substances and hydrogel matrices such as rheology and potentiometric titration. The main aim of this diploma thesis was to investigate the effect of interactions between passing model dye (rhodamine 6G) and the appropriate gel (agarose + polyelectrolyte) on the fundamental diffusion parameters (effective diffusion coefficient, lag time, etc.).