13 resultados para Spherical cavities
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Trabalho apresentado no âmbito do Mestrado em Engenharia Informática, como requisito parcial para obtenção do grau de Mestre em Engenharia Informática
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RESUMO: A permeabilidade nasal (nasal patency) é um conceito importante na avaliação da função nasal. Pode ser explicado como uma medida do quanto a cavidade nasal está “aberta” e é determinada por fatores dependentes da sua estrutura anatómica que se relacionam com o fluxo e a resistência nasais e a existência de um fenómeno denominado ciclo nasal. Tradicionalmente, a avaliação da permeabilidade nasal baseia-se em indicadores subjetivos, nomeadamente Escalas Visuais Analógicas ou Scores de Sintomas, embora a sensação subjetiva de obstrução nasal seja difícil de quantificar e frequentemente não se correlacione com métodos mais objetivos de avaliação. A Rinometria Acústica (RA) tem adquirido um papel cada vez mais relevante na avaliação das alterações da permeabilidade nasal, pelo seu carácter não-invasivo, rápido, de fácil execução e por ser bem tolerada pelos pacientes. Contudo, não foram ainda publicados valores de referência para a população normal. Com o presente trabalho pretendeu-se determinar áreas transversais (AT) e volumes (Vol) da cavidade nasal em adultos saudáveis através de RA, em condições basais e após a administração de um fármaco descongestionante tópico nasal, relacionando estes parâmetros com variáveis demográficas e antropométricas. MATERIAL E MÉTODOS: O estudo foi realizado em 32 adultos jovens, de ambos os sexos (18 mulheres e 14 homens), com idade igual ou superior a 18 anos, não fumadores, sem patologias crónicas ou infeção recente das vias aéreas superiores. Para a execução do exame de RA foi utilizado o equipamento SRE2000 com Software RhinoScan Interacoustics, Dinamarca). O rinograma foi analisado em condições basais e após descongestionamento até aos 5 cm de distância da narina, obtendo-se os valores médios entre cavidade nasal direita e esquerda das áreas transversais (AT) dos entalhes registados (AT1 e AT2), a sua localização e volumes nasais a diferentes distâncias (Vol.0-2; Vol.2-5 e Vol.0-5). RESULTADOS: Os indivíduos do género masculino apresentaram valores significativamente superiores aos do género feminino em todos os parâmetros estudados. A administração do fármaco descongestionante tópico nasal provocou um aumento generalizado das AT e volumes nasais, traduzindo uma diminuição da congestão da mucosa nasal, mais acentuada posteriormente ao nível dos cornetos. A comparação entre fossas nasais (direita versus esquerda) após descongestionamento, eliminando o efeito do ciclo nasal, revelou simetria significativa. De uma forma geral, os parâmetros rinométricos estudados revelaram correlação positiva significativa com a altura. CONCLUSÃO: O estudo foi pioneiro para a população portuguesa e representa uma contribuição para a obtenção de valores de referência em adultos jovens. Estudos futuros em amostras de maior dimensão e representatividade são necessários para a obtenção de valores de referência com utilidade clínica e em investigação.--------------ABSTRACT: Nasal patency is an important concept in the evaluation of nasal function. It may be explained as a measure of how open the nasal cavity is, and it depends of anatomical aspects, that relate to nasal airflow, resistance and nasal cycle. Nasal patency evaluation is based in subjective indicators like visual analogical scales or symptom scores, but subjective sensation of nasal obstruction is difficult to quantify and usually doesn’t correlate with more objective methods of evaluation. Acoustic rhinometry has gained an increasingly relevant role in assessing changes in nasal patency, because it is noninvasive, fast and easy to perform and well tolerated by patients However, reference values for the normal population have not yet been published. The aim of the present study was to determine nasal cross-sectional areas and volumes in healthy adults by acoustic rhinometry, before and after administration of a topical nasal decongestant drug, correlating these parameters with demographic and anthropometric variables. MATERIAL E METHODS: The study was performed in 32 young adults (18 females and 14 males), aged 18 years old or more, non-smokers, without chronic diseases or recent airway infection. Acoustic rhinometry evaluation was performed using SRE2000 with RhinoScan software (Interacoustics, Denmark). Nasal cavities were assessed up to 5 cm distance from the nostril, before and after administration of the topical nasal decongestant drug, and mean cross-sectional areas of the notches, their location and mean volumes at different distances from nostril were measured. RESULTS: Males presented significant higher values than females for all rhinometric parameters studied. The decongestant drug, significantly increased all the rhinometric parameters evaluated, in particular those corresponding to the more posterior regions. Comparison between nasal cavities after nasal decongestion showed no significant asymmetry. Globally,a positive correlation was found between rhinometric parameters and height . CONCLUSION: This study was pioneer in the Portuguese population and represents a contribution to acoustic rhinometry reference values in young adults . Further studies, on larger and representative samples, are necessary in order to obtain reference values, useful both to clinical and research applications of this technique.
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Dissertação para obtenção do Grau de Doutor em Engenharia Biomédica
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Thesis submitted to the Instituto Superior de Estatística e Gestão de Informação da Universidade Nova de Lisboa in partial fulfillment of the requirements for the Degree of Doctor of Philosophy in Information Management – Geographic Information Systems
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A Work Project, presented as part of the requirements for the Award of a Masters Degree in Management from the NOVA – School of Business and Economics
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Dissertação para obtenção do Grau de Mestre em Engenharia Química e Bioquímica
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Dissertação para obtenção do Grau de Doutor em Ciência e Engenharia de Materiais
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There were two main objectives in this thesis investigation, first, the production, characterisation, in vitro degradation and release studies of double walled microspheres for drug release control. The second one, and the most challenging, was the production of double walled nanospheres, also for drug control delivery. The spheres were produced using two polymers, the Poly(L-lactide)Acid, PLLA, and the Poly(L-lactide-co-glycolic)Acid, PLGA.Afterwards, a model drug, Meloxicam, which is an antiinflammatory drug, was encapsulated into the particles. Micro and nanospheres were produced by the solvent extraction/evaporation method, where perfect spherical particles were obtained. By varying the polymers PLLA/PLGA mass ratio, different core and shell composition, as well as several shell and core thickness were observed. In the particles with a PLLA/PLGA mass ratio 1:1, the shell is composed by PLLA and the core by PLGA. It was also verified that the Meloxicam has a tendency to be distributed in the PLGA layer. Micro and nanoparticles were characterised in morphology, size, polymer cristalinity properties and drug distribution. Particles degradation studies was performed, where the particles in a PVA solution of pH 7,4 where placed in an incubator, during approximately 40 days, at 120rpm, and 37ºC, simulating, as much as possible, the human body environment. From these studies, the conclusion was that particles containing a PLGA shell and a PLLA core degrade more rapidly, due to the fact that PLLA is more hydrophobic than the PLGA. Concerning the drug release controlled results, done also for 40 and 50 days, they showed that the microspheres containing a shell of PLLA release more slowly than when the shell is composed of PLGA. This result was predictable, since the drug is solubilised in the PLGA polymer and so, in that case, the PLLA shell works like a barrier between the drug and the outer medium. Another positive aspect presented by this study is the lower initial burst effect, obtained when using double walled particles, which is one of the advantages of the same. In a second part of this investigation, the production of the nanospheres was the main goal, since it was not yet accomplished by other authors or investigators. After several studies, referring to the speed, time and type of agitation, as well as, the concentration and volume of the first aqueous solution of poly-vinyl-alcohol (PVA) during the process of solvent extraction/evaporation it was possible to obtain double walled nanospheres.(...)
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Polymeric particulate-systems are of great relevance due to their possible biomedical applications, among them as carriers for the nano- or microencapsulation of drugs. However, due to their unique specific properties, namely small size range, toxicity issues must be discarded before allowing its use on health-related applications. Several polymers, as poly(methyl methacrylate) (PMMA), have proved to be suitable for the preparation of particulate-systems. However, a major drawback of its use refers to incomplete drug release from particles matrix. Recent strategies to improve PMMA release properties mention the inclusion of other acrylic polymers as Eudragit (EUD) on particles formulation. Though PMMA and EUD are accepted by the FDA as biocompatible, their safety on particle composition lacks sufficient toxicological data. The main objective of this thesis was to evaluate the biological effects of engineered acrylic particulate-systems. Preparation, physicochemical characterization and in vitro toxicity evaluation were assessed on PMMA and PMMA-EUD (50:50) particles. The emulsification-solvent evaporation methodology allowed the preparation of particles with spherical and smooth surfaces within the micrometer range (±500 nm), opposing surface charges and different levels of hydrophobicity. It was observed that particles physicochemical properties (size and charge) were influenced by biological media composition, such as serum concentration, ionic strength or pH. In what concerns to the in vitro toxicological studies, particle cellular uptake was observed on different cell lines (macrophages, osteoblasts and fibroblasts). Cytotoxicity effects were only found after 72 h of cells exposure to the particles, while no oxidative damage was observed neither on osteoblasts nor fibroblasts. Also, no genotoxicity was found in fibroblast using the comet assay to assess DNA damage. This observation should be further confirmed with other validated genotoxicity assays (e.g. Micronucleus Assay). The present study suggests that the evaluated acrylic particles are biocompatible, showing promising biological properties for potential use as carriers in drug-delivery systems.
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Polymeric nanoparticles (PNPs) have attracted considerable interest over the last few years due to their unique properties and behaviors provided by their small size. Such materials could be used in a wide range of applications such as diagnostics and drug delivery. Advantages of PNPs include controlled release, protection of drug molecules and its specific targeting, with concomitant increasing of the therapeutic index. In this work, novel sucrose and cholic acid based PNPs were prepared from different polymers, namely polyethylene glycol (PEG), poly(D,L-lactic-co-glycolic acid) (PLGA) and PLGA-co-PEG copolymer. In these PNP carriers, cholic acid will act as a drug incorporation site and the carbohydrate as targeting moiety. The uptake of nanoparticles into cells usually involves endocytotic processes, which depend primarily on their size and surface characteristics. These properties can be tuned by the nanoparticle preparation method. Therefore, the nanoprecipitation and the emulsion-solvent evaporation method were applied to prepare the PNPs. The influence of various parameters, such as concentration of the starting solution, evaporation method and solvent properties on the nanoparticle size, size distribution and morphology were studied. The PNPs were characterized by using atomic force microscopy (AFM), scanning electron microscopy (SEM) and dynamic light scattering (DLS) to assess their size distribution and morphology. The PNPs obtained by nanoprecipitation ranged in size between 90 nm and 130 nm with a very low polydispersity index (PDI < 0.3). On the other hand, the PNPs produced by the emulsion-solvent evaporation method revealed particle sizes around 300 nm with a high PDI value. More detailed information was found in AFM and SEM images, which demonstrated that all these PNPs were regularly spherical. ζ-potential measurements were satisfactory and evidenced the importance of sucrose moiety on the polymeric system, which was responsible for the obtained negative surface charge, providing colloidal stability. The results of this study show that sucrose and cholic acid based polymeric conjugates can be successfully used to prepare PNPs with tunable physicochemical characteristics. In addition, it provides novel information about the materials used and the methods applied. It is hoped that this work will be useful for the development of novel carbohydrate based nanoparticles for biomedical applications, specifically for targeted drug delivery.
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In the context of this dissertation several studies were developed resulting in submission and publication “Evaluation of mechanical soft-abrasive blasting and chemical cleaning methods on alkyd-paint graffiti made on calcareous stones” to Journal of Cultural Heritage. (http://dx.doi.org/10.101 /j.culher.2014.10.004)
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The spinning rotor gauge (SRG) is one of the most interesting vacuum gauges ever made, covering a pressure range of over seven orders of magnitude, with minimal gas interference (no pumping, ionization or heating of the measured gas), and a great stability of less than 1% drift per year. But despite its remarkable properties, apparently the SRG has not been further developed since the eighties, when it gained commercial interest. In this context, this dissertation aims at providing a starting point for a new line of investigation regarding this instrument, focused on the rotor itself. A brief study of different rotor geometries is provided, including a comparison between a cylindrical rotor and a spherical one. A cylindrical spinning rotor gauge (CSRG) is then proposed, based on the original SRG, but requiring a completely new lateral damping system. A prototype was built and tested against a non calibrated reference gauge.
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AuNPs are versatile systems used for different biomedical application including imaging, drug and gene delivery. These systems support the intracellular transport of active molecules, a step that is considered one of the crucial problems in drug delivery. Nevertheless, in order to design optimal multifunctional AuNPs for specific and efficient nanomedicine applications, the mechanism by which AuNPs interact with living cells must be fully understand. The main goal of this work consisted in the assessment of the cellular uptake mechanism of 14 nm spherical AuNPs by A549 cells, through fluorescent spectroscopy and microscopy, in combination with quantitative analysis by ICP-MS. TAMRA labeled AuNPs were characterized by UV-visible and fluorescent spectroscopy and the final hydrodynamic diameter of 22.5 ± 0.33 nm was obtained by DLS. Regarding the cellular uptake studies, the AuNPs presented a fast cellular uptake kinetics reaching a saturation point after 6 hours of incubation in A549 cells. Further investigation concerning the internalization mechanism of this AuNPs was evaluated using specific inhibitors for different endocytic pathways. Optimal inhibition was achieved using chlorpromazine, inhibitor of clathrin-mediated endocytosis, resulting in a 23.5 % inhibition of AuNPs after 1 hour of incubation. This preliminary result obtained by fluorescent spectroscopy suggests that these AuNPs were predominantly uptake by clathrin-mediated endocytosis, meaning that other endocytic pathways must be involved in the cellular uptake of this AuNPs. In what cell viability is concern, the prepared AuNPs and the endocytic inhibitors revealed no significant effect on the cell viability in A549 cell line.
