Formação de professores de ciências para o uso de tecnologias

Na atualidade, torna-se premente que os alunos exerçam um papel ativo face a problemáticas de cariz científico e tecnológico na sociedade em que se inserem. Neste contexto, tem sido recomendada a promoção da Educação em Ciências, com orientação Ciência-Tecnologia-Sociedade (CTS) para o desenvolvimento da Literacia científica dos alunos, em particular, do Ensino Básico (EB). As Tecnologias da Informação e Comunicação (TIC) têm-se assumido, cada vez mais, como recursos privilegiados para os alunos aprenderem ciências. Portanto, é fundamental que os professores de Ciências do EB considerem os aspetos pedagógico-didáticos relacionados com a integração das TIC no processo de ensino e aprendizagem (E/A) das Ciências. No entanto, vários estudos têm revelado que a maioria dos professores parece não integrar as TIC no processo de E/A, o que se relaciona, entre outros obstáculos, com a falta de formação a este nível. Por outro lado, em Portugal, são escassos os estudos relacionados com a formação de professores de Ciências do EB para o uso de TIC no processo de E/A, com orientação CTS. O presente estudo tem como finalidade a criação de uma proposta de esquema referencial para o desenvolvimento de programas de formação (PF) de professores de Ciências do EB com orientação CTS (inicial, contínua e pós-graduada), com vista ao desenvolvimento de “competências TIC” destes (futuros) profissionais. Para tal, procurou-se responder a duas questões de investigação: Que componentes curriculares privilegiar em PF de professores do EB, que contribuam para o desenvolvimento de competências de integração das tecnologias no processo de E/A, em geral, e das Ciências, em particular?; e Qual o contributo de um PF na promoção de práticas pedagógico-didáticas com orientação CTS de Professores de Ciências do EB? O estudo organizou-se em duas fases. A Fase I designou-se “Formação de Professores do Ensino Básico em Tecnologia Educativa”, decorreu entre janeiro de 2009 e novembro de 2009, e teve um caráter exploratório com vista a descrever estratégias para a promoção do desenvolvimento pessoal, social e profissional, em particular, na dimensão do Conhecimento Pedagógico Tecnológico de Conteúdo (CPTC), de estudantes/professores do EB (inicial, contínua e pós-graduada). O CPTC representa o conhecimento de professores do EB para integrar as TIC no processo de E/A das Ciências, de acordo com a Perspetiva de Ensino por Pesquisa (EPP). A recolha de dados envolveu: a análise documental de vinte e três unidades curriculares (UC) de Tecnologia Educativa (TE) de Cursos de Educação Básica (1.º Ciclo de Bolonha), de dezassete Instituições de Ensino Superior Público Português; e o inquérito por entrevista a quatro Investigadores Portugueses em TE. A análise de conteúdo do corpus recolhido possibilitou a identificação dos componentes curriculares a privilegiar em PF de professores do EB neste âmbito, tais como: i) a “competência digital” de “pesquisa, seleção e organização de informação”; ii) a “competência pedagógica com TIC” de “planificação e/ou implementação de atividades de E/A”; iii) a “competência pedagógica com TIC de nível avançado” de reflexão crítica; iv) o conteúdo curricular centrado na colaboração online; v) a estratégia/atividade de E/A de trabalho de projeto; vi) o cenário de E/A misto (b-learning); vii) as ferramentas da web 2.0 (ex. Blog); e viii) a avaliação formativa de portefólios digitais desenvolvidos pelos estudantes/professores do EB em formação. A Fase II denominou-se “Formação de Professores de Ciências do Ensino Básico com Orientação CTS”, decorreu entre dezembro de 2009 e maio de 2011, e teve um caráter interventivo, com o intuito de conceber, produzir, implementar e avaliar um PF com esta orientação. O PF foi integrado nas UC de “TIC e Educação em Ciências” (TIC_EC) e de “Didática das Ciências Integradas II” (DCI_II) do Mestrado em Didática, área de especialização das Ciências, da Universidade de Aveiro (no 2.º semestre do ano letivo 2009/2010). O Mestrando dirigiu-se a um público profissionalizado, em particular, Educadores de Infância, Professores do 1.º CEB e Professores de Matemática e Ciências Naturais do 2.º CEB. A avaliação do PF foi contínua durante todo o seu processo de desenvolvimento, o que implicou a recolha das perceções dos principais envolvidos (os dois Docentes de DCI_II e de TIC_EC, os nove Mestrandos, um especialista externo em TE e a Investigadora do estudo). Para tal recorreu-se ao inquérito por questionário e por entrevista, à observação participante da Investigadora e à análise dos portefólios digitais desenvolvidos pelos Mestrandos durante o PF. A avaliação final do PF ocorreu no final do mesmo e dez meses após a formação ter terminado (maio de 2011). A análise de conteúdo do corpus recolhido permitiu demonstrar que o PF foi exequível e eficaz no contexto em que se projetou, o que se comprova na evidência de práticas pedagógico-didáticas de utilização das TIC no processo de E/A das Ciências, com orientação CTS, por parte de Mestrandos envolvidos no PF. O esquema referencial resultante do estudo integra a “estratégia de investigação conduzida pelo professor”, pressupõe a sinergia entre as áreas científicas da Didática das Ciências (DC) e da TE, e implica a integração da dimensão do CPTC ao nível da formação de professores de Ciências do EB (inicial, contínua e pós-graduada). Neste âmbito, sugere-se o desenvolvimento de projetos CTS pelos (futuros) profissionais, com recurso às TIC, e tendo em conta a perspetiva de EPP. Considera-se que estudos desta natureza poderão ser um contributo para impulsionar a Educação em Ciências com orientação CTS recorrendo às potencialidades educativas das tecnologias, em particular no EB. Assim, preconiza-se a necessidade de se investir na transferência, expansão e avaliação do referencial a outros contextos de formação de professores de Ciências.

Inter layer and cooperative design strategies for green mobile networks

The promise of a truly mobile experience is to have the freedom to roam around anywhere and not be bound to a single location. However, the energy required to keep mobile devices connected to the network over extended periods of time quickly dissipates. In fact, energy is a critical resource in the design of wireless networks since wireless devices are usually powered by batteries. Furthermore, multi-standard mobile devices are allowing users to enjoy higher data rates with ubiquitous connectivity. However, the bene ts gained from multiple interfaces come at a cost in terms of energy consumption having profound e ect on the mobile battery lifetime and standby time. This concern is rea rmed by the fact that battery lifetime is one of the top reasons why consumers are deterred from using advanced multimedia services on their mobile on a frequent basis. In order to secure market penetration for next generation services energy e ciency needs to be placed at the forefront of system design. However, despite recent e orts, energy compliant features in legacy technologies are still in its infancy, and new disruptive architectures coupled with interdisciplinary design approaches are required in order to not only promote the energy gain within a single protocol layer, but to enhance the energy gain from a holistic perspective. A promising approach is cooperative smart systems, that in addition to exploiting context information, are entities that are able to form a coalition and cooperate in order to achieve a common goal. Migrating from this baseline, this thesis investigates how these technology paradigm can be applied towards reducing the energy consumption in mobile networks. In addition, we introduce an additional energy saving dimension by adopting an interlayer design so that protocol layers are designed to work in synergy with the host system, rather than independently, for harnessing energy. In this work, we exploit context information, cooperation and inter-layer design for developing new energy e cient and technology agnostic building blocks for mobile networks. These technology enablers include energy e cient node discovery and short-range cooperation for energy saving in mobile handsets, complemented by energy-aware smart scheduling for promoting energy saving on the network side. Analytical and simulations results were obtained, and veri ed in the lab on a real hardware testbed. Results have shown that up to 50% energy saving could be obtained.

Advanced energy efficient coordinated multi-point transmission for OFDMA

The ever-growing energy consumption in mobile networks stimulated by the expected growth in data tra ffic has provided the impetus for mobile operators to refocus network design, planning and deployment towards reducing the cost per bit, whilst at the same time providing a signifi cant step towards reducing their operational expenditure. As a step towards incorporating cost-eff ective mobile system, 3GPP LTE-Advanced has adopted the coordinated multi-point (CoMP) transmission technique due to its ability to mitigate and manage inter-cell interference (ICI). Using CoMP the cell average and cell edge throughput are boosted. However, there is room for reducing energy consumption further by exploiting the inherent exibility of dynamic resource allocation protocols. To this end packet scheduler plays the central role in determining the overall performance of the 3GPP longterm evolution (LTE) based on packet-switching operation and provide a potential research playground for optimizing energy consumption in future networks. In this thesis we investigate the baseline performance for down link CoMP using traditional scheduling approaches, and subsequently go beyond and propose novel energy e fficient scheduling (EES) strategies that can achieve power-e fficient transmission to the UEs whilst enabling both system energy effi ciency gain and fairness improvement. However, ICI can still be prominent when multiple nodes use common resources with di fferent power levels inside the cell, as in the so called heterogeneous networks (Het- Net) environment. HetNets are comprised of two or more tiers of cells. The rst, or higher tier, is a traditional deployment of cell sites, often referred to in this context as macrocells. The lower tiers are termed small cells, and can appear as microcell, picocells or femtocells. The HetNet has attracted signiffi cant interest by key manufacturers as one of the enablers for high speed data at low cost. Research until now has revealed several key hurdles that must be overcome before HetNets can achieve their full potential: bottlenecks in the backhaul must be alleviated, as well as their seamless interworking with CoMP. In this thesis we explore exactly the latter hurdle, and present innovative ideas on advancing CoMP to work in synergy with HetNet deployment, complemented by a novel resource allocation policy for HetNet tighter interference management. As system level simulator has been used to analyze the proposed algorithm/protocols, and results have concluded that up to 20% energy gain can be observed.

Evaluation of the matabolic response of osteosarcoma cells to conventional and new anticancer drugs by NMR metabolomics

The main scope of this work was to evaluate the metabolic effects of anticancer agents (three conventional and one new) in osteosarcoma (OS) cells and osteoblasts, by measuring alterations in the metabolic profile of cells by nuclear magnetic resonance (NMR) spectroscopy metabolomics. Chapter 1 gives a theoretical framework of this work, beginning with the main metabolic characteristics that globally describe cancer as well as the families and mechanisms of action of drugs used in chemotherapy. The drugs used nowadays to treat OS are also presented, together with the Palladium(II) complex with spermine, Pd2Spm, potentially active against cancer. Then, the global strategy for cell metabolomics is explained and the state of the art of metabolomic studies that analyze the effect of anticancer agents in cells is presented. In Chapter 2, the fundamentals of the analytical techniques used in this work, namely for biological assays, NMR spectroscopy and multivariate and statistical analysis of the results are described. A detailed description of the experimental procedures adopted throughout this work is given in Chapter 3. The biological and analytical reproducibility of the metabolic profile of MG-63 cells by high resolution magic angle spinning (HRMAS) NMR is evaluated in Chapter 4. The metabolic impact of several factors (cellular integrity, spinning rate, temperature, time and acquisition parameters) on the 1H HRMAS NMR spectral profile and quality is analysed, enabling the definition of the best acquisition parameters for further experiments. The metabolic consequences of increasing number of passages in MG-63 cells as well as the duration of storage are also investigated. Chapter 5 describes the metabolic impact of drugs conventionally used in OS chemotherapy, through NMR metabolomics studies of lysed cells and aqueous extracts analysis. The results show that MG-63 cells treated with cisplatin (cDDP) undergo a strong up-regulation of lipid contents, alterations in phospholipid constituents (choline compounds) and biomarkers of DNA degradation, all associated with cell death by apoptosis. Cells exposed to doxorubicin (DOX) or methotrexate (MTX) showed much slighter metabolic changes, without any relevant alteration in lipid contents. However, metabolic changes associated with altered Krebs cycle, oxidative stress and nucleotides metabolism were detected and were tentatively interpreted at the light of the known mechanisms of action of these drugs. The metabolic impact of the exposure of MG-63 cells and osteoblasts to cDDP and the Pd2Spm complex is described in Chapter 6. Results show that, despite the ability of the two agents to bind DNA, the metabolic consequences that arise from exposure to them are distinct, namely in what concerns to variation in lipid contents (absent for Pd2Spm). Apoptosis detection assays showed that, differently from what was seen for MG-63 cells treated with cDDP, the decreased number of living cells upon exposure to Pd2Spm was not due to cell death by apoptosis or necrosis. Moreover, the latter agent induces more marked alterations in osteoblasts than in cancer cells, while the opposite seemed to occur upon cDDP exposure. Nevertheless, the results from MG-63 cells exposure to combination regimens with cDDP- or Pd2Spm-based cocktails, described in Chapter 7, revealed that, in combination, the two agents induce similar metabolic responses, arising from synergy mechanisms between the tested drugs. Finally, the main conclusions of this thesis are summarized in Chapter 8, and future perspectives in the light of this work are presented.

Hybrid materials for biomedical applications

The increased longevity of humans and the demand for a better quality of life have led to a continuous search for new implant materials. Scientific development coupled with a growing multidisciplinarity between materials science and life sciences has given rise to new approaches such as regenerative medicine and tissue engineering. The search for a material with mechanical properties close to those of human bone produced a new family of hybrid materials that take advantage of the synergy between inorganic silica (SiO4) domains, based on sol-gel bioactive glass compositions, and organic polydimethylsiloxane, PDMS ((CH3)2.SiO2)n, domains. Several studies have shown that hybrid materials based on the system PDMS-SiO2 constitute a promising group of biomaterials with several potential applications from bone tissue regeneration to brain tissue recovery, passing by bioactive coatings and drug delivery systems. The objective of the present work was to prepare hybrid materials for biomedical applications based on the PDMS-SiO2 system and to achieve a better understanding of the relationship among the sol-gel processing conditions, the chemical structures, the microstructure and the macroscopic properties. For that, different characterization techniques were used: Fourier transform infrared spectrometry, liquid and solid state nuclear magnetic resonance techniques, X-ray diffraction, small-angle X-ray scattering, smallangle neutron scattering, surface area analysis by Brunauer–Emmett–Teller method, scanning electron microscopy and transmission electron microscopy. Surface roughness and wettability were analyzed by 3D optical profilometry and by contact angle measurements respectively. Bioactivity was evaluated in vitro by immersion of the materials in Kokubos’s simulated body fluid and posterior surface analysis by different techniques as well as supernatant liquid analysis by inductively coupled plasma spectroscopy. Biocompatibility was assessed using MG63 osteoblastic cells. PDMS-SiO2-CaO materials were first prepared using nitrate as a calcium source. To avoid the presence of nitrate residues in the final product due to its potential toxicity, a heat-treatment step (above 400 °C) is required. In order to enhance the thermal stability of the materials subjected to high temperatures titanium was added to the hybrid system, and a material containing calcium, with no traces of nitrate and the preservation of a significant amount of methyl groups was successfully obtained. The difficulty in eliminating all nitrates from bulk PDMS-SiO2-CaO samples obtained by sol-gel synthesis and subsequent heat-treatment created a new goal which was the search for alternative sources of calcium. New calcium sources were evaluated in order to substitute the nitrate and calcium acetate was chosen due to its good solubility in water. Preparation solgel protocols were tested and homogeneous monolithic samples were obtained. Besides their ability to improve the bioactivity, titanium and zirconium influence the structural and microstructural features of the SiO2-TiO2 and SiO2-ZrO2 binary systems, and also of the PDMS-TiO2 and PDMS-ZrO2 systems. Detailed studies with different sol-gel conditions allowed the understanding of the roles of titanium and zirconium as additives in the PDMS-SiO2 system. It was concluded that titanium and zirconium influence the kinetics of the sol-gel process due to their different alkoxide reactivity leading to hybrid xerogels with dissimilar characteristics and morphologies. Titanium isopropoxide, less reactive than zirconium propoxide, was chosen as source of titanium, used as an additive to the system PDMS-SiO2-CaO. Two different sol-gel preparation routes were followed, using the same base composition and calcium acetate as calcium source. Different microstructures with high hydrophobicit were obtained and both proved to be biocompatible after tested with MG63 osteoblastic cells. Finally, the role of strontium (typically known in bioglasses to promote bone formation and reduce bone resorption) was studied in the PDMS-SiO2-CaOTiO2 hybrid system. A biocompatible material, tested with MG63 osteoblastic cells, was obtained with the ability to release strontium within the values reported as suitable for bone tissue regeneration.