Nuevos métodos de cálculo de la profundidad de las compresiones torácicas a partir de la señal de aceleración.

[EN]These feedback devices are used to improve the quality of chest compressions while performing CPR technique, as they provide real time information to guide the rescuer during resuscitation attempts. Most feedback systems on the market are based on accelerometers and additional sensors or reference signals, used for calculating the displacement of the chest from the acceleration signal. This makes them expensive and complex devices. With the aim of optimizing these feedback systems and overcoming their limitations, in this document we propose three alternative methods for calculating the depth of chest compressions. These methods differ from the ones existing so far in that they use exclusively the chest acceleration signal to compute the displacement. With their implementation, it would be possible to develop systems to provide accurate feedback more easily and economically. In this context, this document details the design and implementation of the three methods and the development of a software environment to analyze the accuracy of each of them and compare the results by means of a detailed calculation of errors. Furthermore, in order to evaluate the methods a database is required, and it can be compiled using a sensorized manikin to record the acceleration signal and the gold standard chest compression depth. The database generated will be used for other studies related to the estimation of the compression depth, because the signals obtained in the manikin platform are very similar to those recorded during a real resuscitation episode.

Exploring new labelling strategies for boronated compounds: towards fast development and efficient assessment of BNCT drug candidates

208 p.

Diseño y PWHT de aceros avanzados de alta resistencia para cadenas de líneas de fondeo.

202 p. El contenido de los capítulos 3,4,5 y 6 está sujeto a confidencialidad

Estudo do comportamento em fluência de juntas metálicas coladas

Juntas coladas têm se mostrado como a principal alternativa de união entre componentes fabricados em materiais distintos ou não, tendo como vantagem principal a ausência de aporte de calor e melhor distribuição de tensões. A literatura mostra que estudos anteriores foram realizados com o objetivo de caracterizar diversas propriedades associados às juntas, porém, pouco ainda se conhece sobre o comportamento dessas uniões relacionado à fluência. Os ensaios de fluência têm como principal desvantagem a baixa produtividade de resultados visto que, na maioria dos casos, os equipamentos aptos a realizarem este tipo de teste ensaiam apenas um corpo de prova por vez. Neste caso, o tratamento estatístico é baseado em uma pequena quantidade de resultados, reduzindo a confiabilidade na predição do comportamento em fluência. O Laboratório de Adesão e Aderência (LAA/UERJ/IPRJ) desenvolveu o equipamento pneumático de fluência (EPF) capaz de realizar dez ensaios simultâneos com parâmetros distintos. Este trabalho investiga o comportamento de juntas de cisalhamento simples (SLJ) compostas por substratos metálicos colados com adesivo epóxi e poliuretano. As juntas foram fabricadas em conformidade a norma ASTM D 1002, seguindo procedimento de preparo RT-003/08 TMC/CENPES/PETROBRAS. Os resultados mostram que, para projetos onde esteja prevista utilização das juntas durante longos períodos de tempo sob carregamento, conhecer apenas suas tensões médias de ruptura não é o suficiente para garantir a segurança do empreendimento. É proposto um modelo inicial do comportamento sob fluência de juntas coladas.

Funcionalización y estudio de nanopartículas de magnetita para su aplicación en terapias de hipertermia magnética

262 p.

Estudio hidrogeoquímico del lago ácido de Cueva de la Mora (IPB, Huelva): controles sobre la concentración de metales y modelo de estratificación

298 p.

Estudios de estabilidad de medicamentos bajo normativa BPL y GMP

Este trabajo de fin de grado, enmarcado en las primeras fases del desarrollo de medicamentos tanto nuevos como genéricos, es un proyecto en colaboración con la empresa Tecnalia Research & Innovation, y su objetivo es conseguir el desarrollo de medicamentos y el estudio de estos por medio de estudios de estabilidad, cuya finalidad es permitir hacer propuestas sobre la fecha de vencimiento o caducidad y en qué condiciones se debe de almacenar dicho producto. La calidad de cualquier producto es requisito fundamental en la sociedad actual y más en el desarrollo de nuevos productos farmacéuticos, donde la exigencia de los sistemas de garantía de calidad como los de Normas de Correcta Fabricación y Buenas Prácticas de Laboratorio es cada día mayor. La validación de los ensayos y las técnicas utilizadas permiten la veracidad y la trazabilidad de los resultados obtenidos en cualquier parte del mundo, lo que añadido a métodos oficiales y farmacopeas supone una gran fuente de información supeditado siempre por un control de las agencias reguladoras. Al finalizar el trabajo se habrán alcanzado una serie de conclusiones gracias a los resultados obtenidos por los ensayos de laboratorio, sobre las propiedades y estabilidad del medicamento en estudio además de la influencia de los diversos factores en este.

Discursos sobre a miséria e a exclusão no cinema brasileiro contemporâneo: o caso do filme 5Xfavela, agora por nós mesmos

Este trabalho visa a abordar a questão dos discursos que emergem sobre a miséria e a exclusão no cinema contemporâneo brasileiro, tomando como ponto central o filme 5Xfavela, agora por nós mesmos (2010). Pretendemos analisar quais são esses discursos, como são apresentados, em que contextos eles surgem e quais são as estratégias utilizadas para se produzi-los. Para tanto, partimos de ensaios produzidos nos meios cultural e acadêmico sobre o tema da periferia no cinema brasileiro e utilizamos o conceito de agenciamento coletivo de enunciação, dos filósofos Gilles Deleuze e Félix Guattari, para propor esse debate. A partir da análise que fizemos, notamos que não há necessariamente uma ruptura nos discursos sobre a periferia, mas sim um deslocamento do polo negativo para o polo positivo no que concerne à representação da exclusão. O excluído deixa de estar associado ao banditismo e passa a ser associado ao consumo, o que lhe confere um novo status social. Portanto, consideramos que surge uma nova figura ligada ao excluído a que chamamos de novo pobre".

Determinação do perfil fenotípico e genotípico de amostras de Staphylococus aureus resistentes à meticilina (MRSA) e sensíveis a antibióticos não ß-lactâmicos em cinco hospitais no município do Rio de Janeiro

Staphylococcus aureus resistente à meticilina (MRSA) é um dos principais microrganismos envolvidos nas Infecções relacionadas à Assistência à Saúde (IrAS). Porém, um clone de MRSA, o CA-MRSA, emergiu na comunidade e atualmente vem sendo agente de IrAS. O objetivo desta dissertação é avaliar fenotípica e genotipicamente 111 amostras de Staphylococcus aureus resistentes à meticilina e sensíveis a antibióticos não ß-lactâmicos de pacientes atendidos em cinco hospitais no município do Rio de Janeiro. Utilizando os critérios padronizados pelo CLSI 2012, foram determinadas as susceptibilidades a 11 antimicrobianos pelo método de disco difusão em ágar e concentração inibitória mínima para vancomicina e oxacilina pelo método da microdiluição em caldo. A multirresistência (resistência a 3 ou mais antimicrobianos não ß-lactâmicos) foi observada em 31,5% das amostras, sendo que 53,2% apresentaram resistência ao antimicrobiano clindamicina, uma das opções para o tratamento empírico das infecções de pele/tecidos moles. 86,4% apresentaram concentração inibitória mínima (CIM) para vancomicina ≥ 1,0 g/mL ou seja, elevado percentual de amostras associadas ao fenômeno MIC creep, o qual está associado ao insucesso na terapia antimicrobiana anti-MRSA. Não foi observado até o momento nenhuma amostra com CIM ≥ 4cg/mL para vancomicina, entretanto, já há resistência à linezolida em quatro hospitais do estudo. A tipificação do SCCmec nos permitiu classificar 4,5% das amostras em HA-MRSA e 86,5% em CA-MRSA, nas quais a resistência heterogênea típica à oxacilina foi observada em 57,2%. A toxina de Panton-Valentine (PVL) foi identificada pela metodologia de PCR em 28% das amostras com genótipo CA-MRSA. Os fatores de riscos clássicos, da literatura, relacionados à infecção por HA-MRSA foram também observados nos pacientes com infecção por CA-MRSA portadoras de SCCmec IV e V. No intuito de verificar a existência de similaridades genéticas ou a presença de clone predominante entre as amostras dos cinco hospitais, foi realizada a técnica de eletroforese em gel sob campo pulsado (PFGE) e observou-se diversidade genética assim como a presença de amostras com padrões similares aos clones OSPC (18,5%) e USA400. Não foram encontradas amostras com padrões de eletroforese similares aos clones USA300, USA800 e CEB. É essencial a vigilância da resistência aos antimicrobianos não ß-lactâmicos no CA-MRSA, em especial à vancomicina. A mudança na epidemiologia deste microrganismo vem impactando os padrões característicos dos genótipos limitando os critérios de diferenciação entre eles. Neste contexto, as técnicas moleculares atuam como excelentes ferramentas de caracterização. O conhecimento do patógeno auxilia na elaboração e implementação de medidas preventivas, contribuindo para o controle da doença tanto no ambiente hospitalar quanto na comunidade.

A bone remodelling model coupling micro-damage growth and repair by 3D BMU-activity.

Bone as most of living tissues is able, during its entire lifetime, to adapt its internal microstructure and subsequently its associated mechanical properties to its specific mechanical and physiological environment in a process commonly known as bone remodelling. Bone is therefore continuously renewed and micro-damage, accumulated by fatigue or creep, is removed minimizing the risk of fracture. Nevertheless, bone is not always able to repair itself completely. Actually, if bone repairing function is slower than micro-damage accumulation, a type of bone fracture, usually known as "stress fracture", can finally evolve. In this paper, we propose a bone remodelling continuous model able to simulate micro-damage growth and repair in a coupled way and able therefore to predict the occurrence of "stress fractures". The biological bone remodelling process is modelled in terms of equations that describe the activity of basic multicellular units. The predicted results show a good correspondence with experimental and clinical data. For example, in disuse, bone porosity increases until an equilibrium situation is achieved. In overloading, bone porosity decreases unless the damage rate is so high that causes resorption or "stress fracture".

Analytical techniques for indentation of viscoelastic materials

Indentation of linearly viscoelastic materials is explored using elastic-viscoelastic correspondence analysis for both conical-pyramidal and spherical indentation. Boltzmann hereditary integrals are used to generate displacement-time solutions for loading at constant rate and creep following ramp loading. Experimental data for triangle- and trapezoidal-loading are examined for commercially-available polymers and compared with analytical solutions. Emphasis is given to the use of multiple experiments to test the fidelity and predictive capability of the obtained material creep function. Plastic deformation occurs in sharp indentation of glassy polymers and is found to complicate the viscoelastic analysis. A new method is proposed for estimating a material time-constant from peak displacement or hardness data obtained in pyramidal indentation tests performed at different loading rates.

Viscoelastic properties of bone as a function of hydration state determined by nanoindentation

Spherical indentation creep testing was used to examine the effect of hydration state on bone mechanical properties. Analysis of creep data was based on the elastic-viscoelastic correspondence principle and utilized a direct solution for the finite loading-rate experimental conditions. The zero-time shear modulus was computed from the creep compliance function and compared to the indentation modulus obtained via conventional indentation analysis, based on an elastic unloading response. The method was validated using a well-known polymer material under three different loading conditions. The method was applied to bone samples prepared with different water content by partial exchange with ethanol, where 70% ethanol was considered as the baseline condition. A hydration increase was associated with a 43% decrease in stiffness, while a hydration decrease resulted in a 20% increase in bone tissue stiffness.

Nanoindentation measurements of bone viscoelasticity as a function of hydration state

Bone is an anisotropic material, and its mechanical properties are determined by its microstructure as well as its composition. Mechanical properties of bone are a consequence of the proportions of, and the interactions between, mineral, collagen and water. Water plays an important role in maintaining the mechanical integrity of the composite, but the manner in which water interacts within the ultrastructure is unclear. Dentine being an isotropic two-dimensional structure presents a homogenous composite to examine the dehydration effects. Nanoindentation methods for determining the viscoelastic properties have recently been developed and are a subject of great interest. Here, one method based on elastic-viscoelastic correspondence for 'ramp and hold' creep testing (Oyen, J. Mater. Res., 2005) has been used to analyze viscoelastic behavior of polymeric and biological materials. The method of 'ramp and hold' allows the shear modulus at time zero to be determined from fitting of the displacement during the maximum load hold. Changes in the viscoelastic properties of bone and dentine were examined as the material was systematically dehydrated in a series of water:solvent mixes. Samples of equine dentine were sectioned and cryo-polished. Shear modulus was obtained by nanoindentation using spherical indenters with a maximum load hold of 120s. Samples were tested in different solvent concentrations sequentially, 70% ethanol to 50% ethanol, 70 % ethanol to 100% ethanol, 70% ethanol to 70% methanol to 100% methanol, and 70% ethanol to 100% acetone, after storage in each condition for 24h. By selectively removing and then replacing water from the composite, insights in to the ultrastructure of the tissue can be gained from the corresponding changes in the experimentally determined moduli, as well as an understanding of the complete reversibility of the dehydration process. © 2006 Materials Research Society.

Degradation evaluation of microelectromechanical thermal actuators

Metal based thermal microactuators normally have lower operation temperatures than those of Si-based ones; hence they have great potential for applications. However, metal-based thermal actuators easily suffer from degradation such as plastic deformation. In this study, planar thermal actuators were made by a single mask process using electroplated nickel as the active material, and their thermal degradation has been studied. Electrical tests show that the Ni-based thermal actuators deliver a maximum displacement of ∼20μm at an average temperature of ∼420°C, much lower than that of Si-based microactuators. However, the displacement strongly depends on the frequency and peak voltage of the pulse applied. Back bending was clearly observed at a maximum temperature as low as 240°C. Both forward and backward displacements increase with increasing the temperature up to ∼450°C, and then decreases with power. Scanning electron microscopy observation clearly showed that Ni structure deforms and reflows at power above 50mW. The compressive stress is believed to be responsible for Ni piling-up (creep), while the tensile stress upon removing the pulse current is responsible for necking at the hottest section of the device. Energy dispersive X-ray diffraction analysis revealed severe oxidation of the Ni-structure induced by Joule-heating of the current.

Poroelastic indentation analysis for hydrated biological tissues

Indentation techniques are employed for the measurement of mechanical properties of a wide range of materials. In particular, techniques focused at small length-scales, such as nanoindentation and AFM indentation, allow for local characterization of material properties in heterogeneous materials including natural tissues and biomimetic materials. Typical elastic analysis for spherical indentation is applicable in the absence of time-dependent deformation, but is inappropriate for materials with time-dependent responses. Recent analyses for the viscoelastic indentation problem, based on elastic-viscoelastic correspondence, have begun to address the issue of time-dependent deformation during an indentation test. The viscoelastic analysis has been shown to fit experimental indentation data well, and has been demonstrated as useful for characterization of viscoelasticity in polymeric materials and in hydrated mineralized tissues. However, a viscoelastic analysis is not necessarily sufficient for multi-phase materials with fluid flow. In the current work, a poroelastic analysis-based on fluid motion through a porous elastic network-is used to examine spherical indentation creep responses of hydrated biological materials. Both analytical and finite element approaches are considered for the poroelastic Hertzian indentation problem. Modeling results are compared with experimental data from nanoindentation of hydrated bone immersed in water and polar solvents (ethanol, methanol, acetone). Baseline (water-immersed) bone responses are characterized using the poroelastic model and numerical results are compared with altered hydration states due to polar solvents. © 2007 Materials Research Society.