9 resultados para Adam
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RESUMO Nos últimos anos têm sido identificados vários factores de risco para asma brônquica em crianças com sibilância recorrente, não se encontrando clara a importância da avaliação funcional respiratória nestas crianças. De igual modo, têm sido documentados resultados contraditórios na avaliação imunológica das populações de células reguladoras bem como na expressão de polimorfismos para a asma. O objectivo deste estudo consistiu na avaliação e comparação de parâmetros de avaliação funcional respiratória, imunológica e de polimorfismos genéticos em crianças entre 8 e 20 meses de idade, com três ou mais episódios de sibilância (n=50), sem qualquer terapêutica anti-inflamatória prévia, diagnosticados por um médico, com e sem factores de risco para asma brônquica (história de asma parental ou história pessoal de eczema ou pelo menos dois dos seguintes: história pessoal de rinite alérgica, sibilância fora do contexto infeccioso e contagem de eosinófilos no sangue periférico > 4%), comparados com um grupo controlo (n=30). Nestas crianças foram efectuadas provas de função respiratória em volume corrente e em volume aumentado através de técnicas de compressão torácica, avaliação de populações celulares por citometria de fluxo, expressão de citocinas por mARN em culturas de células estimuladas com PMA (leitura às 24 horas) e com extractos de ácaros do pó doméstico (leitura ao 7º dia) e expressão de polimorfismos para alguns genes associados a asma (ADAM 33, DPP10, GPRA). Na comparação entre as crianças com sibilância recorrente em relação ao grupo controlo foram observadas reduções significativas nos Z-scores para FVC (diferença média [95% IC]: -0,7 [-1,2; -0,1], p=0,01), FEV0.5 (-1,0 [-1,5; -0,5], p=0,0001), FEF75 (-0,6 [-1,0; -0,2], p=0,0001) e FEF25-75 (-0,8 [-1,2; -0,4], p=0,0001), bem como valores significativamente mais baixos para a quantificação do número absoluto de CD4+CD25forte (-47,9 [-89,6; -6,1], p=0,03), do número absoluto e percentual de CD4+CD25+CTLA-4 (p=0,0001) e da expressão de CTLA-4 (p=0,03) e IFN-
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pp. 83-93
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Dissertation submitted in partial fulfillment of the requirements for the Degree of Master of Science in Geospatial Technologies.
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Understanding how the brain works will require tools capable of measuring neuron elec-trical activity at a network scale. However, considerable progress is still necessary to reliably increase the number of neurons that are recorded and identified simultaneously with existing mi-croelectrode arrays. This project aims to evaluate how different materials can modify the effi-ciency of signal transfer from the neural tissue to the electrode. Therefore, various coating materials (gold, PEDOT, tungsten oxide and carbon nano-tubes) are characterized in terms of their underlying electrochemical processes and recording ef-ficacy. Iridium electrodes (177-706 μm2) are coated using galvanostatic deposition under different charge densities. By performing electrochemical impedance spectroscopy in phosphate buffered saline it is determined that the impedance modulus at 1 kHz depends on the coating material and decreased up to a maximum of two orders of magnitude for PEDOT (from 1 MΩ to 25 kΩ). The electrodes are furthermore characterized by cyclic voltammetry showing that charge storage capacity is im-proved by one order of magnitude reaching a maximum of 84.1 mC/cm2 for the PEDOT: gold nanoparticles composite (38 times the capacity of the pristine). Neural recording of spontaneous activity within the cortex was performed in anesthetized rodents to evaluate electrode coating performance.
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The presence and importance of the sea as a factor that has helped shape the history of England since at least the Roman invasions of 55-54 BC (less successful, incidentally, than most of Caesar’s other military ventures ...) need no particular urging or demonstration. Nonetheless, a bird’s-eye view would necessarily survey the waves of invasions and settlements that, one after the other, came dashing over the centuries upon England’s shores; not to mention the requested invasion of 1688, Angles and Saxons, Scandinavians, Normans, they all crossed the whale’s path and cast anchor in England’s green and pleasant land. In the course of this retrospective voyage through the oceans of History, one would inevitably stop at the so-called ‘Discoveries’ of the 15th-16th centuries, meet their navigators, sailors and pirates extolled by Richard Hakluyt (1553?-1616), face an anonymous crowd of merchants and witness the huge expansion of trade, largely to the benefit of the ‘discovering’ countries as prescribed by the economic Gospel Adam Smith (1723-90) would later baptize as “mercantilism”.
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Esta dissertação de mestrado, voltada para a área da Análise do Discurso, propõe abordar diferentes perspectivas de estudo acerca da argumentação. Tendo também como base teórica a Análise textual dos discursos proposta por Jean-Michel Adam, este trabalho procura analisar um corpus constituído de dois gêneros de texto – a entrevista política e o discurso de posse presidencial – em duas variedades de língua, nomeadamente o Português Brasileiro e o Português Europeu. O trabalho consiste em atestar alguns recursos verbais com finalidade persuasiva, bem como os elementos contextuais possivelmente verificáveis através dos enunciados produzidos pelas respectivas personagens políticas. Uma vez que os textos abordados serão descritos numa perspectiva linguístico-discursiva, pretende-se, ainda, verificar nas construções dos enunciados, a responsabilidade enunciativa (as vozes do texto), bem como a forma de argumentar retoricamente, construindo o que já na Antiguidade Clássica eram denominados de ethos e pathos.
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Understanding how the brain works has been one of the greatest goals of mankind. This desire fuels the scientific community to pursue novel techniques able to acquire the complex information produced by the brain at any given moment. The Electrocorticography (ECoG) is one of those techniques. By placing conductive electrodes over the dura, or directly over the cortex, and measuring the electric potential variation, one can acquire information regarding the activation of those areas. In this work, transparent ECoGs, (TrECoGs) are fabricated through thin film deposition of the Transparent Conductive Oxides (TCOs) Indium-Zinc-Oxide (IZO) and Gallium-Zinc-Oxide (GZO). Five distinct devices have been fabricated via shadow masking and photolithography. The data acquired and presented in this work validates the TrECoGs fabricated as efficient devices for recording brain activity. The best results were obtained for the GZO- based TrECoG, which presented an average impedance of 36 kΩ at 1 kHz for 500 μm diameter electrodes, a transmittance close to 90% for the visible spectrum and a clear capability to detect brain signal variations. The IZO based devices also presented high transmittance levels (90%), but with higher impedances, which ranged from 40 kΩ to 100 kΩ.
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Fully comprehending brain function, as the scale of neural networks, will only be possi-ble with the development of tools by micro and nanofabrication. Regarding specifically silicon microelectrodes arrays, a significant improvement in long-term performance of these implants is essential. This project aims to create a silicon microelectrode coating that provides high-quality electrical recordings, while limiting the inflammatory response of chronic implants. To this purpose, a combined chitosan and gold nanoparticles coating was produced allied with electrodes modification by electrodeposition with PEDOT/PSS in order to reduce the im-pedance at 1kHz. Using a dip-coating mechanism, the silicon probe was coated and then charac-terized both morphologically and electrochemically, with focus on the stability of post-surgery performance in anesthetized rodents. Since not only the inflammatory response analysis is vital, the electrodes recording degradation over time was also studied. The produced film presented a thickness of approximately 50 μm that led to an increase of impedance of less than 20 kΩ in average. On a 3 week chronic implant, the impedance in-crease on the coated probe was of 641 kΩ, compared with 2.4 MΩ obtained for the uncoated probe. The inflammatory response was also significantly reduced due to the biocompatible film as proved by histological tests.
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The unique proprieties exhibited by nanoscale particles compared to their macro size counterparts allow for the creation of novel neural activity manipula-tion procedures. In this sense, gold nanoparticles (AuNPs) can be used to stimu-late the electrical activity of neuron by converting light into heat. During this dissertation, AuNPs are synthesized by the citrate reduction method, resulting in a hydrodynamic diameter of approximately 16 nm and an absorbance peak of 530 nm. A system to control a 532 nm laser and measure the temperature variation was custom built from scratch specifically for this project. Temperature is then measured with recourse to a thermocouple and through changes in impedance. The built system had in consideration the necessities pre-sented by in vivo tests. Trials were performed by measuring the temperature rise of colloidal AuNP solutions, having the temperature variation reached a maximum of ap-proximately 18 ºC relative to control trials; successfully showing that light is ef-fectively transduced into heat when AuNPs are present. This novel approach enables an alternative to optogenetics, which require the animal to be genetically modified in order to allow neuron stimulation.
