Microcápsulas de sílice preparadas a partir de sistemas tensioactivos para la liberación de sustancias activas

Màster Experimental en Química: Química Física Curs: 2008-2009 Tutor: Francesc Mas Director: Carlos Rodríguez Abreu

Elaboración de planos en papel de microcápsulas : planos de Internet modificados con Microsoft Word.

Resumen tomado de la publicación

Desenvolvimento de microcápsulas contendo as antocianinas presentes no corante do extrato do jambo por polimerização interfacial

The industries of food, medicine and cosmetic apply microencapsulation for many reasons, among them, stabilize the active, control the release of encapsulated and separate incompatible components of the formulation. In this context, microencapsulation techniques have been used in the food industry to provide stable liquid and solid ingredients. Anthocyanins have high antioxidant potential, but they are photodegradable. The challenges are therefore directed to the research for techniques that could make this potential remaining active and bioavailable and could be used as a vehicle for the delivery release of bioactive and micronutrients in appropriate conditions and levels. This work has as main objective to propose a method to encapsulate the anthocyanins in the extract of mountain apple using the interfacial polymerization technique. As well as to define the ideal conditions of temperature and agitation system for this procedure. The microparticles were characterized for size, morphology, active distribution, surface charge, degradation, composition and stability. The results, like particle diameter of 5.94 μm and Zeta potential of 7.03 mV, showed that the technique used to obtain these microparticles was satisfactory and has potential for application in cosmetics and food

Cell microencapsulation for therapeutic purposes: towards greater control over biocompatibility

233 p.: il.

Terapia celular para el tratamiento de la enfermedad de Alzheimer: angiogénesis terapéutica inducida por células microencapsuladas secretoras del factor de crecimiento del endotelio vascular

197 p. (Bibliogr. 189-197)

Biofunctionalization of alginate microcapsules: advances in cell-based drug delivery systems

172 p.

Micro/nanoreservoirs for controlled release of active species in smart functional coatings

This work reports one possible way to develop new functional coatings used to increase the life time of metallic structures. The functionalities selected and attributed to model coatings in the frame of this work were corrosion protection, self-sensing and prevention of fouling (antifouling). The way used to confer those functionalities to coatings was based on the encapsulation of active compounds (corrosion inhibitors, pH indicators and biocides) in micro and nanocontainers followed by their incorporation into the coating matrices. To confer active corrosion protection, one corrosion inhibitor (2-mercaptobenzothiazole, MBT) was encapsulated in two different containers, firstly in silica nanocapsules (SiNC) and in polyurea microcapsules (PU-MC). The incorporation of both containers in different models coatings shows a significant improvement in the corrosion protection of aluminum alloy 2024 (AA2024). Following the same approach, SiNC and PU-MC were also used for the encapsulation of phenolphthalein (one well known pH indicator) to introduce sensing properties in polymeric coatings. SiNC and PU-MC containing phenolphthalein acted as corrosion sensor, showing a pink coloration due to the beginning of cathodic reaction, resulting in a pH increase identified by those capsules. Their sensing performance was proved in suspension and when integrated in coatings for aluminium alloy 2024 and magnesium alloy AZ31. In a similar way, the biocide activity (antifouling) was assigned to two polymeric matrices using SiNC for encapsulation of one biocide (Dichloro-2-octyl-2H-isothiazol-3-one, DCOIT) and also SiNC-MBT was tested as biocide. The antifouling activity of those two encapsulated compounds was assessed through inhibition and consequent decrease in the bioluminescence of modified E. coli. That effect was verified in suspension and when incorporated in coatings for AISI 1008 carbon steel. The developed micro and nanocontainers presented the desired performance, allowing the introduction of new functionalities to model coatings, showing potential to be used as functional additives in the next generation of multifunctional coatings.

Desenvolvimento de filmes à base de quitosano com microencapsulação de agentes naturais: cinéticas de libertação

Dissertação de mestrado, Tecnologia de Alimentos, Instituto Superior de Engenharia, Universidade do Algarve, 2013

Desenvolvimento de filmes com microencapsulação de agentes naturais: aplicação na preservação de salmão

Dissertação de mestrado, Tecnologia dos Alimentos, Instituto Superior de Engenharia, Universidade do Algarve, 2015

Test and development of microcapsules for rigid polyurethane foam

Tese de mestrado em Química Tecnológica, apresentada à Universidade de Lisboa, através da Faculdade de Ciências, 2016

Materiais de mudança de fase em revestimentos

Dissertação para obtenção do grau de Mestre em Engenharia Civil na Área de especialização em Edificações

PROTECÇÃO INDIVIDUAL À PICADA DE MOSQUITOS: Avaliação Laboratorial e no Campo do Efeito Repelente de Vestuário Tratado com Insecticidas ou Repelentes

RESUMO O controlo vectorial representa uma parte importante da estratégia global actual para a prevenção das principais doenças transmitidas por insectos, como a malária, a febre de dengue ou do West Nile. Uma das vertentes do controlo vectorial é aquela que se associa à protecção individual dos hospedeiros contra a picada de insectos. É no âmbito desta problemática que surge o estudo aqui apresentado. Este teve como um dos objectivos testar em laboratório a eficácia de três compostos diferentes (permetrina, DEET e citronela) contra a picada de mosquitos Anopheles stephensi Liston, 1901, quando aplicados a tecidos de algodão. Com base neste estudo laboratorial, seleccionaram-se os tecidos mais eficientes que foram testados no terreno, na área da Comporta, em ensaios simuladores de uma situação real. Os resultados foram complementados com alguns ensaios preliminares efectuados em laboratório com a espécie Culex theileri Teobald, 1903. Nos primeiros ensaios laboratoriais, tecidos impregnados com permetrina mostraram induzir uma repelência mais eficaz do que tecidos com DEET e citronela micro-encapsulados. O efeito de repelência dos tecidos com permetrina manteve-se, mesmo quando estes foram sujeitos a vários ciclos de lavagem. No entanto, os ensaios de repelência/protecção efectuados no campo demonstraram que a eficácia do tecido impregnado com permetrina é afectada pelo número de lavagens. Testes laboratoriais realizados com Cx. theileri, a espécie mais abundante da área da Comporta, apontam para que a discrepância observada entre os resultados das experiências laboratoriais e de campo possa estar associada a um comportamento diferencial das espécies envolvidas nos dois tipos de ensaio. Em conclusão, embora o uso de vestuário tratado com microcápsulas de repelentes seja um método promissor na protecção contra as picadas de insectos, este terá de beneficiar de algum investimento futuro para que possa vir a ser considerado uma estratégia válida no controlo vectorial a larga escala. Há que melhorar o modo de incorporação e apresentação do composto activo nos tecidos de modo a obter-se um efeito repelente mais efectivo e prolongado e a procura de repelentes naturais, indutores de menor toxicidade e mais repelência, deve ser continuada.

Desenvolvimento de uma formulação cólon específica visando o tratamento da colite ulcerativa

Micro and nanoparticulate systems as drug delivery carriers have achieved successful therapeutic use by enhancing efficacy and reducing toxicity of potent drugs. The improvement of pharmaceutical grade polymers has allowed the development of such therapeutic systems. Microencapsulation is a process in which very thin coatings of inert natural or synthetic polymeric materials are deposited around microsized particles of solids or around droplets. Products thus formed are known as microparticles. Xylan is a natural polymer abundantly found in nature. It is the most common hemicellulose, representing more than 60% of the polysaccharides existing in the cell walls of corn cobs, and is normally degraded by the bacterial enzymes present in the colon of the human body. Therefore, this polymer is an eligible material to produce colon-specific drug carriers. The aim of this study was to evaluate the technological potential of xylan for the development of colon delivery systems for the treatment of inflammatory bowel diseases. First, coacervation was evaluated as a feasible method to produce xylan microcapsules. Afterwards, interfacial cross-linking polymerization was studied as a method to produce microcapsules with hydrophilic core. Additionally, magnetic xylan-coated microcapsules were prepared in order to investigate the ability of producing gastroresistant systems. Besides, the influence of the external phase composition on the production and mean diameter of microcapsules produced by interfacial cross-linking polymerization was investigated. Also, technological properties of xylan were determined in order to predict its possible application in other pharmaceutical dosage forms