Global ETD Search

71	Atom economical and environmentally benign metal catalysed synthesis Van Der Waals, Dominic January 2014 (has links) The use of inexpensive metal catalysts for a range of acylation reactions including the activation of anhydrides and the aminolysis of esters. Discussion on the use of a heterogeneous copper catalyst for teh reduction of a range of organic functional groups and its use in amination of nitriles. 541
72	Development of a Monte Carlo Simulation Method for use in investigating CT (Computed Tomography) Mammography Thacker, Samta C 30 April 2004 (has links) The development of new digital mammography techniques such as dual-energy imaging, tomosynthesis and CT mammography will require investigation of optimal camera design parameters and optimal imaging acquisition parameters. One tool that is useful for this purpose is Monte Carlo simulation. This study presents a methodology for generating simulated images from a CsI-based, flat-panel imager model and for estimating the normalized glandular dose to the uncompressed breast in CT mammography. The simulation uses the GEANT 3 Monte Carlo code to model x-ray transport and absorption within the CsI scintillator, and the DETECT-II code to track optical photon spread within a columnar model of the CsI scintillator. The Monte Carlo modeling of x-ray transport and absorption within the CsI was validated by comparing to previously published values for the probability of a K-shell interaction, the fluorescent yield, the probability of a K-fluorescent emission, and the escape fraction describing the probability of a K x-ray escaping the scintillator. To validate the combined (GEANT 3 coupled with DETECT-II) Monte Carlo approach to form simulated images, comparison of modulation transfer functions (MTFs) and system sensitivity (electrons/mR/pixel) obtained from simulations were compared to empirical measurements obtained with different x-ray spectra and imagers with varying CsI thicknesses. By varying the absorption and reflective properties of the columnar CsI used in the DETECT-II code, good agreement between simulated MTFs and system sensitivity and empirically measured values were observed. The Monte Carlo software was also validated for dosimetry by comparing results of the linear attenuation coefficient values and the normalized glandular dose (DgN) values of the compressed breast, to those reposted in the literature. The normalized glandular dose was then estimated for three different sizes of the uncompressed breast with a homogeneous composition of adipose and glandular tissue. Further, fit equations of the normalized glandular dose curves were also generated using MATLAB. These equations can be used to replicate the dose for the three sizes of the breast and three compositions of the adipose and glandular tissue. In addition, images displaying energy deposition maps are presented to better understand the spatial distribution of dose in CT mammography. CT Mammography Monte Carlo Breast Radiography Monte Carlo method Cesium iodide Tomography
73	Le transporteur d’iode NIS dans la carcinogenèse non thyroïdienne : nouvelles fonctions, nouveaux enjeux / The NIS iodide transporter in non thyroid carcinogenesis : new functions, new issues Lacoste, Claire 02 September 2011 (has links) Le symporteur sodium iodure (NIS), une glycoprotéine membranaire, connue pour son rôle dans la biosynthèse des hormones thyroïdiennes, catalyse le transport actif de l’iodure dans la thyroïde. Cette activité de transport lui confère des propriétés à la base du diagnostic, du suivi par imagerie radio-isotopique et du traitement par radiothérapie à l’iode 131 des cancers thyroïdiens. Plusieurs études ont montré une expression de NIS dans un grand nombre de cancers non-thyroïdiens, où il présente en général un défaut d’adressage membranaire. Nous avons identifié une nouvelle fonction biologique de NIS, indépendante de sa fonction de transport, dans la migration et l’invasion cellulaires via une activation de la GTPase RhoA connue pour son implication dans l’oncogenèse. Nous montrons également que NIS est une protéine associée aux jonctions serrées qui transite rapidement dans le cytoplasme ou au front de migration des cellules motiles. Cette étude révèle un nouveau rôle de NIS dans la carcinogenèse et dévoile certains facteurs qui gouvernent le trafic intracellulaire de NIS. / The Natrium iodide symporter (NIS) is a transmembrane glycoprotein known for its role in thyroid hormones biosynthesis, catalyzes active iodide transport in the thyroid. The iodide transport activity of NIS allows its clinical applications for diagnosis, follow-up using radio-isotopic imaging and treatment by 131I radiotherapy of thyroid cancers. Several studies described NIS expression in non thyroidal tumour tissues frequently displaying a cytoplasmic localization. In the current study, we reveal that, independently to its transport activity, NIS habors new biological functions in migration and invasion through RhoGTPase signalling pathway, a pathway involved in carcinogenesis. In addition, we establish that NIS is a tight junction-associated protein, which dynamically shuttles between tight junctions and cytoplasm during cell migration, and localizes at the leading edge of the metastatic cancer cells. Overall, these findings offer a novel appraisal of the potential role of NIS in carcinogenesis, and of the factors governing NIS intracellular trafficking. Symporteur sodium iodure Migration Invasion Polarité et cancer Natrium iodide symporter Migration Invasion Polarity and cancer
74	Rôle du Symporteur Sodium Iodure dans la carcinogenèse non thyroïdienne / Role of Sodium Iodide Symporter NIS in Non-Thyroid Carcinogenesis Bou Nader, Myriam 22 December 2014 (has links) Le symporteur Sodium Iodure (NIS) est une glycoprotéine transmembranaire catalysant le transport actif de l’iodure circulant et participant ainsi à la voie de biosynthèse des hormones thyroïdiennes. L’activité de captation de l’iode médiée par NIS est à la base du diagnostic par imagerie nucléaire et du traitement par radiothérapie à l'iode 131 des cancers thyroïdiens, ce qui fait de NIS un réel marqueur d’intérêt clinique pour une utilisation potentielle dans les cancers non-thyroïdiens qui l’expriment. La connaissance des mécanismes de régulation et d’adressage membranaire de NIS est limitée. Nous identifions une nouvelle fonction de NIS dans la migration et l’invasion cellulaires indépendamment de sa fonction de transport. Cette fonction est facilitée par l’activation de RhoA suite à l’interaction protéine-protéine de NIS avec LARG (Leukemia-Associated RhoA Guanine Exchange Factor). Notre travail a révélé que cette accumulation de NIS dans les compartiments intracellulaires de cellules cancéreuses était également observée dans les cancers primitifs et métastatiques du foie. Nous montrons l’importance de la voie de signalisation du TGF-β, fréquemment activée dans les cancers humains, dans le défaut d’adressage de NIS. Nos travaux suggèrent qu’une thérapie basée sur des inhibiteurs pharmacologiques de la voie du TGF-β serait capable de corriger ce défaut d’adressage, rendant ainsi possible un traitement par radiothérapie métabolique / The sodium iodide symporter (NIS) is a glycosylated protein that mediates the active transport of iodide for thyroid hormone biosynthesis. The ability of the thyroid to accumulate iodide via NIS has provided the basis for diagnostic imaging and served as effective treatment by radioiodine to target and destroy thyroid cancers. This propriety makes NIS a real marker of clinical interest for potential use in non-thyroid cancers which express it, however, the mechanisms of regulation and membrane targeting of NIS remain unknown. We identify a new function of NIS in cell migration and invasion independently of its transport activity. This function is facilitated by the activation of RhoA after the protein-protein interaction of NIS and LARG (Leukemia-Associated RhoA Guanine Exchange Factor). Our work has shown that this accumulation of NIS in intracellular compartments of cancer cells was also observed in primary and metastatic liver cancers. Our results pointed out the importance of TGF-β signaling pathway, frequently activated in human cancers, in NIS default targeting. Our work suggests that a therapy based on pharmacological inhibitors of TGF-β could be able to correct this targeting defect, making metabolic radiotherapy possible Symporteur sodium iodure Cancer TGF-β Polarité Natrium iodide symporter Cancer TGF-β Polarity
75	Purificação e preparação do cristal semicondutor de iodeto de bismuto para aplicação como detector de radiação / Purification and preparation of bismuth(III) iodide for application as radiation semiconductor detector Cauê de Mello Ferraz 06 May 2016 (has links) O presente trabalho descreve o procedimento experimental do método de purificação do sal de Triiodeto de Bismuto (BiI3), visando uma futura aplicação destes em cristais semicondutores, como detector de radiação à temperatura ambiente. A técnica de Bridgman Vertical Repetido foi aplicada para a purificação e crescimento de BiI3, baseada na teoria da fusão e o fenômeno de nucleação do material. Uma ampola preenchida com sal de BiI3, na quantidade máxima de 25% do seu volume interno, foi posicionada no interior do forno de Bridgman Vertical e verticalmente deslocada à uma velocidade de 2 milímetros por hora dentro do forno programado obedecendo um perfil térmico e gradiente de temperatura, com uma temperatura máxima de 530°C, estabelecidos neste trabalho. A redução de impurezas no BiI3, para cada purificação, foi analisada por Análise por Ativação Neutrônica Instrumental (AANI), para a verificação da eficiência do técnica de purificação estabelecida neste trabalho, para impurezas de metais traço, presente na matéria prima do cristal Foi demonstrado que a técnica de Bridgman Repetido é eficiente para a redução da concentração de diversas impurezas, como Ag, As, Br, Cr, K, Mo, Na, e Sb. As estruturas cristalinas nos cristais purificados duas e três vezes apresentou similaridade com o padrão do BiI3. No entanto, para o sal de partida e cristal purificado somente uma vez foi observado a contribuição de intensidade BiOI (Oxido de Iodeto de Bismuto) similar ao padrão observada no seu difratograma. É conhecido que detectores semicondutores fabricados a partir de cristais com alta pureza exibem uma melhora significativa no seu desempenho, comparado com os cristais produzidos com cristais de baixa pureza. / This study describes the experimental procedure of a BiI3 purification method powder, aiming a future application of these semiconductor crystals as room temperature radiation detector. The Repeated Vertical Bridgman Technique was applied for the purification, based on the melting and nucleation phenomena. An ampoule filled with a maximum of 25% by volume of BiI3 powder was mounted into the Bridgman furnace and vertically moved at a speed of 2 millimeters per hour, inside the furnace with programmed thermal gradient and temperature profile, at a temperature maximum of 530ºC. The reduction of the impurities in the BiI3, each purification, was analysed by Instrumental Neutron Activation Analysis (INAA), in order to evaluate the efficiency of the purification technique established in this work, for trace metal impurities. It was demonstrated that the Repeated Bridgman is effective to reduce the concentration of many impurities in BiI3, such as Ag, As, Br, Cr, K, Mo, Na and Sb. The crystalline structure of the BiI3 crystal purified twice and third times was similar to the BiI3 pattern. However, for BiI3 powder and purified once an intensity contribution of the BiOI was observed in the diffractograms. It is known that semiconductor detectors fabricated from high purity crystal exhibit significant improvement in their performance compared to those produced from low purity crystals. crescimento de cristais detector de radiação iodeto de bismuto semicondutores bismuth iodide crystal growth radiation detector semiconductors
76	Influência de defeitos e da qualidade superficial no desempenho do cristal de iodeto de mercúrio aplicado como detector de radiação / The influence of defects and surface quality on the mercuric iodide crystal used as a radiation detector João Francisco Trencher Martins 19 November 2015 (has links) Os compostos semicondutores com alto número atômico e energia de banda proibida larga vêm sendo pesquisados como detectores de radiação X e gama, com alta resolução energética, operando à temperatura ambiente. O denominador comum dos materiais semicondutores, que operam à temperatura ambiente, é a dificuldade em crescer cristais com pureza química elevada e boa estequiometria. O desenvolvimento deste tipo de detectores semicondutores de radiação é ainda um desafio tecnológico e tem deparado com muitos fatores limitantes, tais como: material de partida com qualidade compatível para o uso no crescimento de cristal, baixa estabilidade do detector ao longo do tempo, oxidação superficial e outras dificuldades relatadas na literatura, que limitam o seu uso. Neste trabalho, estabeleceu-se a metodologia de transporte físico de vapor (PVT) para a purificação e crescimento do cristal semicondutor de Iodeto de Mercúrio (HgI2). Cristais de HgI2 com orientação cristalina, estequiometria e morfologia da superfície adequadas foram obtidos por essa técnica. Uma redução nítida de impurezas após a purificação pode ser observada e o nível de impureza presente nos cristais não interferiu nas suas estruturas cristalinas. Uma boa morfologia com uniformidade nas camadas da superfície foi encontrada nos cristais, indicando uma boa orientação na estrutura cristalina. Um estudo inédito foi realizado no Laboratório da University of Freiburg, sob a coordenação do Prof. Michael Fiederle, com o intuito de aumentar a estabilidade do detector de HgI2 ao longo do tempo. A aplicação de diferentes tipos de resina polimérica para encapsulamento dos detectores HgI2 foi realizada e estudada, no intuito de proteger o cristal de HgI2 das reações com os gases atmosféricos e isolar eletricamente a superfície dos cristais. Quatro resinas poliméricas foram analisadas, cujas composições são: Resina n 1: 50% - 100% de heptano, 10% - 25% metilcicloexano, <1% de ciclo-hexano; Resina n2: 25% - 50% de etanol, 25% - 50% de acetona, <2,5% de acetato de etilo; Resina n3: 50% - 100% de acetato de metilo, 5% - 10% de n-butilo e Resina 4: 50% - 100% de etil-2- cianoacrilato. A influência dos tipos de resina polimérica utilizada na espectroscopia de desempenho do detector semicondutor HgI2 é, claramente, demonstrada. O melhor resultado foi encontrado para o detector encapsulado com resina n3. Um aumento de até 26 vezes no tempo de estabilidade, como detector de radiação, foi observado para os detectores encapsulados com resina em comparação com o detector não encapsulado, exposto à atmosfera. / The semiconductor compounds with high atomic number and wide band gap energy have been investigated as X and gamma range radiation detectors, with high energy resolution, operating at room temperature. The common denominator of semiconductor materials, which operate at room temperature, is the difficulty to grow crystals with high chemical purity and good stoichiometry. The development of this type of radiation semiconductor detectors is still a technological challenge and it has faced many limiting factors, such as: starting material quality compatible for use in crystal growth, low stability of the detector over the time, surface oxidation and other difficulties reported in the literature, which limit their use. In this work, the Physical vapor transport (PVT) methodology for purification and growth of the Iodide Mercury (HgI2) semiconductor crystals was established. HgI2 crystals with crystalline orientation and suitable surface stoichiometry and morphology were obtained by this technique. A significant reduction of impurities after purification could be observed and the impurity levels present in crystals did not interfere in their crystal structures. A good morphology with uniformity in the surface layers of the crystals was found, indicating a good orientation in the crystal structure. A novel study was conducted at the Laboratory of the University of Freiburg, under the guidance of Prof. Michael Fiederle, in order to increase the stability of the HgI2 detector over the time. The application of different types of polymer resins for encapsulation of HgI2 detectors was carried out and studied, in order to protect the HgI2 crystal of reactions with the atmospheric gases and to isolate, electrically, the surface of these crystals. Four types of polymeric resins were evaluated, and each composition is : (a) Resin n1: 50% - 100% heptane 10% - 25% methyl cyclohexane, <1% cyclohexane; (b) Resin n2: 25% - 50% ethanol, 25% - 50% acetone <2.5% ethyl acetate; (c) Resin n3: 50% - 100% methyl acetate, 5% - 10% n-butyl and (d) Resin n 4: 50% - 100% ethyl-2- cyanoacrylate. The influence of the different types of polymer resins composition, used in the HgI2 detector encapsulation, is clearly demonstrated by the results of the gamma ray spectroscopy. The best results were found for the detector encapsulated with resin n3. An increase of up to 26 times in the stability period was observed for the detectors encapsulated with resin, compared to those which were not encapsulated and, therefore, had been exposed to the atmosphere. detector HgI2 iodeto de mercúrio semicondutor temperatura ambiente detector HgI2 mercuric iodide room temperature semiconductor
77	Iodeto de mercúrio (HgI2) para aplicações em detectores de radiação. / Mercuric iodide (HgI2) for applications in radiation detectors Ugucioni, Julio César 23 February 2005 (has links) O iodeto de mercúrio(HgI2) vem sendo largamente estudado com o objetivo de utilizá-lo em detectores de radiação X e γ. Este material semicondutor apresenta propriedades interessantes que o tornam um grande candidato a esta aplicação em relação a outros materiais. Suas propriedades são gap óptico largo (2,13 eV), alto numero atômico (ZHg = 80; ZI = 53) e alto coeficiente de absorção para comprimentos de onda da ordem de energia do raios-X e -γ. Este, também, pode apresentar três fases quando sólido: fase vermelha (ou α-HgI2), fase amarela (ou β-HgI2) e fase laranja. Cada uma destas fases é associada com diferentes estruturas cristalinas. O α-HgI2 é tetragonal, o HgI2 laranja é também tetragonal,diferindo da fase vermelha somente na posição dos átomos de mercúrio, e β-HgI2 é ortorrômbico. Neste trabalho, estes materiais foram obtidos por duas técnicas: spray pyrolysis e evaporação de solvente. Nas duas técnicas os mais importantes parâmetros para a obtenção das diferentes estruturas são a temperatura e a taxa de evaporação do solvente. Através do método de spray pyrolysis foi possível obter filmes finos de HgI2 com duas estruturas diferentes, somente variando a temperatura do aquecedor de substratos e o solvente. Acima da temperatura de 100ºC com o solvente água foi possível obter filmes amarelados de HgI2. Por sua vez, a temperatura abaixo de 100ºC com o solvente etanol foi possível obter filmes avermelhados. Com a técnica de evaporação de solvente foi possível obter cristais e filmes laterais variando somente a taxa de evaporação de solvente. Variaram-se as taxas de evaporação entre rápida(~10ml/h), média(~0,5ml/h), lenta(~0,1ml/h) e super-lenta(~0,01ml/h). Para a taxa de evaporação média e lenta foram obtidos filmes laterais. Já para a taxa super-lenta foi possível obter cristais. Outro ponto estudado foi a influência da luz no crescimento dos cristais: no escuro obteve-se cristais maiores que os submetidos a luz ambiente. Todos os filmes foram caracterizados por difração de raios-X, microscopia eletrônica de varredura (MEV), e espectroscopia de dispersão de energia (EDS). Já os cristais foram caracterizados por difração de raios-X, MEV e espalhamento Raman. / Recently, attention has been devoted to the study of mercuric iodide (HgI2) because this material is a strong candidate for the development of X- and γ -ray detectors. This material has an optical gap of 2.13 eV, high atomic number (ZHg = 80; ZI = 53) and high absorption coefficient for radiation in the wavelength region of X- and γ rays. When solid, three phases can be obtained: red (or α-HgI2), yellow (or β-HgI2) and orange. Each of these phases has a different crystalline structure: α-HgI2 is tetragonal, as it is the orange- HgI 2 (the difference is that for the last one the mercury atoms sits in different positions), while the β-HgI2 is orthorhombic. In this work we obtained these materials using two different techniques: spray pyrolysis and solvent evaporation. For both of them the most important parameters are the deposition temperature and solvent evaporation rate. Thin films with two different structures were obtained by spray pyrolysis varying the substrate temperature and the solvent. Using water as solvent and deposition temperature above 100ºC we obtained yellow HgI2. When the temperature is reduced below that value and the solvent is ethanol, red films were obtained. For the solvent evaporation technique, lateral films and millimeter-sized crystals were obtained by varying the solvent evaporation rate. For ethanol as solvent we used four evaporation rates named as fast(~10ml/h), medium (~0.5ml/h), slow (~0.1ml/h) and super-slow (~0.01ml/h). For the medium and slow evaporation rates lateral films were obtained on the wall of the reservoir. For the super-slow evaporation rate crystals were obtained at the bottom of the reservoir. We observed that light has a tremendous influence on crystal growth: bigger crystals are obtained in the dark than under ambient light illumination. As characterization techniques we used: X-rays diffraction, Scanning Electron Microscopy (SEM), Energy Dispersive Spectroscopy (EDS), and Raman Scattering. caracterização estrutural evaporação de solvente iodeto de mercúrio mercuric iodide solvent evaporation spray pyrolysis spray pyrolysis structural characterization
78	Cell Toxicology Study of RRR-Alpha-Tocopheryl Polyethylene Glycol 1000 Succinate (TPGS). Muenyi, Clarisse Sornsay 16 August 2005 (has links) This research focused on the cytotoxic properties of RRR-alpha-tocopheryl polyethylene glycol 1000 succinate (TPGS) in transformed and cancerous cell lines. We used RAW264.7 macrophage and prostate cancer (LNCaP) cell lines in this study. TPGS caused cell death and decreased cell viability in a dose and time dependent manner. Cell death was evaluated fluorimetrically by employing the nucleic acid-binding fluorophore; propidium iodide. A colorimetric 3-(4, 5-dimethylthiazol-2-yl)-2, 5-diphenyl tetrazolium bromide (MTT) assay was used to evaluate cell viability. Cell death can occur through necrosis or apoptosis. Our results suggested that TPGS triggered apoptotic cell death. Induction of apoptosis, as measured by caspase 3 enzymatic activity, was dependent upon the TPGS dose and incubation time. Caspase 8 was activated before caspase 9, suggesting the importance of the death receptor pathway in apoptosis. Our results indicated that TPGS cytotoxicity could also be due to one of its products of hydrolysis, alpha-tocopheryl succinate. Colorimetric Flourimetric TPGS Caspases MTT Propidium Iodide Cytotoxicity Apoptosis Necrosis Chemistry Organic Chemistry Physical Sciences and Mathematics
79	A Study of the Effects of Titanium Dioxide Nanoparticles on the Fluorescent Intensity of Fluorescent Compounds in the Presence of Known Quenchers. Koka, Vivian Dzigbodi 17 December 2011 (has links) Titanium Dioxide is a naturally occurring oxide of titanium. It has a wide range of uses in commercial products for providing whiteness and opacity. It has photocatalytic properties and can also be used to produce electricity in its nanoparticles form. This research is focused on investigating the effect of titanium dioxide nanoparticles in analysis of compounds using luminescence-based techniques. Quenching, which is one of the basic problems of fluorescent measurements, was studied in the presence of molecular oxygen and methyl iodide. The rutile phase of titanium dioxide nanoparticles was synthesized by the acid hydrolysis of titanium isobutoxide at low temperatures with nitric acid. The crystalline powder was dissolved at different concentrations and used to monitor the fluorescence intensities of carbazole, pyrene, and fluoranthene in the presence of methyl iodide and oxygen. Quenching by molecular oxygen was studied by comparing the fluorescence intensities of compounds with and without degassing the solutions. Titanium Dioxide was found to exhibit interesting effects on the fluorescent intensities of these compounds in the presence of quenchers. Titanium Dioxide Nanoparticles Fluorescence Quenching Methyl Iodide Chemistry Physical Sciences and Mathematics
80	Augmenting antiviral host defense in the respiratory epithelium Fischer, Anthony John 01 May 2009 (has links) The airway epithelium has many roles in innate immunity including detection of pathogens and transmitting danger signals to other cell types. However, its role as a primary defender against infection is not well recognized. We have investigated methods of augmenting antiviral immunity by application of agents that stimulate viral killing, either in the extracellular space or within the cytoplasm. A recently described property of airway epithelial cells is direct oxidative killing of bacteria through the coordination of Duox and lactoperoxidase enzymes. We have exploited this property by supplementing airway cells with the lactoperoxidase substrate iodide to prevent viral infection. A second method for enhancing antiviral defenses is to supply small interfering RNAs (siRNAs) targeting essential viral genes. We have optimized antiviral siRNAs targeting respiratory syncytial virus by designing them to specifically target positive sense viral RNAs. Finally, we have initiated a project to discover host defense genes that are expressed in either the submucosal glands surface epithelium of human airway. This information will enable a better characterization of the roles for these structures in host defense pathways, and may identify other targets for augmentation of antiviral immunity. Airway Epithelium Iodide Laser Capture Microdissection Respiratory Syncytial Virus siRNA Genetics

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