Surface Functionalization Of Sba - 15 Particles For Amoxicillin Delivery

Sevimli, Filiz F.

01 September 2011

There are several studies in order to control drug delivery, decrease the toxicity of drugs and also for novel biomedical applications. It is necessary to be able to control the release of the drug within the body by using drug delivery systems. Mesoporous silica compounds have only been discovered twenty years ago and they have already attracted many researchers to study these materials for several applications. SBA-15 particles have a highly ordered regular structure and are a good matrix for guest-host applications. The aim of this study is to be able to address whether the surface functionalization of SBA-15 samples would improve the loading of a drug into these particles. The synthesized SBA-15 particles were surface functionalized by post - grafting synthesis method in order to be used as carrier materials for drug delivery. Amoxicillin was used as a model drug. These mesoporous materials have been characterized using X-ray diffraction (XRD), small-angle X-ray spectroscopy (SAXS), fourier-transform infrared spectroscopy (FTIR), transmission electron microscopy (TEM), N2 adsorption/ desorption, solid-state silicon nuclear magnetic resonance (Si-NMR), high-performance liquid chromatography (HPLC), ultra-violet (UV) spectroscopy, elemental and thermo gravimetric analysis (TGA). The effect of concentration difference and the type of alkoxysilanes used for the functionalization have been discussed in terms of loading amoxicillin and controlling the delivery. Drug delivery systems have many further applications that still need to be investigated in areas such as neurosciences, cancer and biomedical engineering.

QD Inorganic Chemistry 146-197

Confinement effect of Nickel in mesoporous silica-based catalysts for syngas production by reforming of methane with CO2 / Effet de confinement du nickel dans des catalyseurs à base de silice mésoporeuse pour la production de gaz de synthèse par reformage du méthane avec le CO2

Kaydouh, Marie-Nour

03 November 2016

Malgré ses avantages économiques et environnementaux, le procédé de reformage à sec du méthane sur des catalyseurs au nickel supporté se heurte encore à des problèmes de frittage de la phase active (un métal de transition) et de dépôt de carbone, ce qui entraîne une diminution de l'activité catalytique. Cette thèse porte sur l'étude de l'effet de confinement du nickel dans des catalyseurs à base de silice mésoporeuse pour la production de gaz de synthèse par reformage du méthane par le CO2. Dans cette étude, les échantillons ont été caractérisés par physisorption de N2, DRX, MET/MEB, RTP, et, en plus, par Raman, SPX, HTP/SM, ATG/SM pour les catalyseurs après test catalytique. Les résultats montrent qu'un support mésoporeux bien structuré ayant une grande surface spécifique et un grand volume poreux est important pour une meilleure dispersion et stabilisation de la phase active à l'intérieur de la porosité. La silice mésoporeuse de SBA-15 (préparée en grande quantité), composée de grains allongés, semble être appropriée pour atteindre cet objectif. Il est de plus démontré que la formation de petites particules bien confinées à l'intérieur des pores favorise la résistance au dépôt de carbone. Ceci peut être obtenu en imposant un traitement hydrothermal au support, en utilisant la méthode deux solvants pour le dépôt de Ni, en passant à une réduction directe des échantillons non calcinés, en ajoutant du Rh en faibles quantités ou en utilisant du Ce comme promoteur, à condition que le Ni et Ce soient en interaction. / Although economically and environmentally advantageous, the methane dry reforming process using supported nickel based catalysts still faces problems of active phase (a transition metal) sintering and of carbon deposition, which result in catalytic activity loss. This thesis is focused on the study of the confinement effect of nickel in mesoporous silica-based catalysts for syngas production by reforming of methane with CO2. In this study, the samples were characterized by N2 sorption, XRD, TEM/SEM, TPR, in addition to Raman, XPS, TPH/MS, TGA/MS for the spent catalysts. The results indicate that a well-structured mesoporous support with high surface area and large pore volume is important for better dispersion and stabilization of the active phase inside the porosity. The mesoporous SBA-15 silica support (prepared in large quantity), composed of elongated grains, appear to be suitable for the purpose. Moreover, it is demonstrated that the formation of small nickel particles well-confined inside the pores favors carbon resistance. This can be achieved by applying hydrothermal treatment to the support, using two solvents method for Ni deposition, using direct reduction of uncalcined samples, adding Rh in small quantities or promoting with Ce, provided that Ni and Ce are in interaction.

Confinement

Nanoparticules de nickel

SBA-15 mésoporeuse

Reformage

Méthane

CO2

Confinement

Nickel nanoparticles

Mesoporous SBA-15

541.39

Efeito da sílica nanoestruturada SBA-15 na apresentação antigênica e na resposta imune. / Effect of nanostructured silica SBA-15 in antigen presentation and immune response.

Carvalho, Luciana Vieira

29 November 2010

A sílica SBA-15 devido às suas propriedades físico-química e estrutural tem demonstrado efeito adjuvante, carreando, protegendo e liberando antígenos. Nesse estudo avaliou-se o seu efeito sobre a atividade fagocítica de macrófagos; no recrutamento de células para órgãos linfóides; na expressão de moléculas MHC de classe II e co-estimuladoras pelas APCs; e a influência do tempo de contato imunógeno:SBA15 no potencial de adsorção e geração de anticorpos. Experimentos in vitro evidenciam que diferentes concentrações da SBA-15 não afetam a morfologia ou atividade de macrófagos. A SBA15 induz o recrutamento de macrófagos, células dendríticas, CD4+, CD8+ e B220+ para os linfonodos drenantes, promovendo aumento de expressão de moléculas co-estimuladoras. As análises da produção de anticorpos demonstram que o contato imunógeno:sílica é importante na adsorção e melhora da resposta imune. Esses resultados sugerem que o potencial adjuvante da SBA-15 relaciona-se com a capacidade de adsorver antígenos e liberá-los às APCs, influindo diretamente na reposta imunológica. / The SBA-15 silica is a polymer that due to its physico-chemical and structural properties has shown adjuvant effect, carrying, protecting and delivering antigens. In this study was evaluated the effect of SBA15 in the phagocytic activity of macrophages; recruitment of cells to lymphoid organs; expression of MHC class II and co-stimulatory molecules by the APCs, and the influence of contact time between immunogen:SBA-15 in potential for absorption and generation of antibodies. In vitro experiments showed that different concentrations of SBA-15 do not affect the morphology or macrophage activity. SBA-15 induces the recruitment of macrophages, dendritic cells, CD4+, CD8+ and B220+ to the draining lymph nodes, increasing the expression of co-stimulatory molecules. Analyses of antibody production showed that the contact immunogen:silica is important for adsorption and improves the immune response. These results suggest that the adjuvanticity of SBA-15 is related to its ability in antigens adsorption and release to APCs, directly influencing the immune response.

Adjuvantes imunológicos

Antígenos (Imunologia)

Antigens (Immunology)

Células dendríticas

Dendritic cells

Fagócitos

Immunological adjuvants

Linfoma (Imunologia)

Lymphoma (Immunology)

Macrófagos

Macrophages

Mesoporous SBA-15 silica

Phagocytes

Sílica mesoporosa SBA-15

Efeito da sílica nanoestruturada SBA-15 na apresentação antigênica e na resposta imune. / Effect of nanostructured silica SBA-15 in antigen presentation and immune response.

Luciana Vieira Carvalho

29 November 2010

A sílica SBA-15 devido às suas propriedades físico-química e estrutural tem demonstrado efeito adjuvante, carreando, protegendo e liberando antígenos. Nesse estudo avaliou-se o seu efeito sobre a atividade fagocítica de macrófagos; no recrutamento de células para órgãos linfóides; na expressão de moléculas MHC de classe II e co-estimuladoras pelas APCs; e a influência do tempo de contato imunógeno:SBA15 no potencial de adsorção e geração de anticorpos. Experimentos in vitro evidenciam que diferentes concentrações da SBA-15 não afetam a morfologia ou atividade de macrófagos. A SBA15 induz o recrutamento de macrófagos, células dendríticas, CD4+, CD8+ e B220+ para os linfonodos drenantes, promovendo aumento de expressão de moléculas co-estimuladoras. As análises da produção de anticorpos demonstram que o contato imunógeno:sílica é importante na adsorção e melhora da resposta imune. Esses resultados sugerem que o potencial adjuvante da SBA-15 relaciona-se com a capacidade de adsorver antígenos e liberá-los às APCs, influindo diretamente na reposta imunológica. / The SBA-15 silica is a polymer that due to its physico-chemical and structural properties has shown adjuvant effect, carrying, protecting and delivering antigens. In this study was evaluated the effect of SBA15 in the phagocytic activity of macrophages; recruitment of cells to lymphoid organs; expression of MHC class II and co-stimulatory molecules by the APCs, and the influence of contact time between immunogen:SBA-15 in potential for absorption and generation of antibodies. In vitro experiments showed that different concentrations of SBA-15 do not affect the morphology or macrophage activity. SBA-15 induces the recruitment of macrophages, dendritic cells, CD4+, CD8+ and B220+ to the draining lymph nodes, increasing the expression of co-stimulatory molecules. Analyses of antibody production showed that the contact immunogen:silica is important for adsorption and improves the immune response. These results suggest that the adjuvanticity of SBA-15 is related to its ability in antigens adsorption and release to APCs, directly influencing the immune response.

Adjuvantes imunológicos

Antígenos (Imunologia)

Células dendríticas

Fagócitos

Linfoma (Imunologia)

Macrófagos

Sílica mesoporosa SBA-15

Antigens (Immunology)

Dendritic cells

Immunological adjuvants

Lymphoma (Immunology)

Macrophages

Mesoporous SBA-15 silica

Phagocytes