Avaliação ecológica do efeito combinado de contaminantes ambientais

The assessment of ecological status of lotic freshwater bodies, based on stringent criteria of classification, has been defined by the Water Framework Directive (WFD), as a result of the implementation and optimization of methodologies that integrate physico-chemical, biological, and hydromorphological parameters. It is recognized that the application of this methodology is not easy, because it requires deep technical and scientific knowledge; it is time consuming in its application involving high financial costs. Thus, the main objective of this study was the development of cheaper and faster complementary methodologies that may contribute to the technical application of the classification criteria defined by the WFD, achieving the same final results of evaluation. In order to achieve this main goal, the river Mau, a small mountain river subjected to different stressors (eg, metals, pesticides), was established as the main sampling area. This thesis reviewed the historical development of various biotic indexes and its application in assessing water quality, especially highlighting the new paradigm defined by the WFD, and the corresponding actions developed for optimization and intercalibration of methodologies, evaluating the final state of water bodies. The ecological spatiotemporal characterization of the river Mau focused on the application of the WFD methodology, using at this stage only macroinvertebrates collected during four seasons. Results were compared with historical data of the last three years and they demonstrated that the river is in good condition. However, the ecological quality decreased at certain locations indicating that organisms were subjected to some type of disturbance. As the ecological quality can be conditioned by pulses of contamination from the sediments, in environmental adverse conditions, assays were performed with elutriates, obtained from sediments collected near the mining complex Braçal-Palhal. Results showed that this method was effective achieving the state of contamination, which may be important in prioritizing/scoring of critical areas within river ecosystems potentially impacted, using the WFD methodology. However, this methodology requires the collection of sediment which can promote the modification and / or loss of contaminants. To solve this potential problem, we developed a new methodology to obtain similar results. For this, we used a benthic microalga, belonging to the Portuguese flora, sensitive to organic pollution and metals. This methodology was optimized for application in situ, by immobilization of diatom in calcium alginate beads. The results showedthat their sensitivity and normal growth rate are similar to data obtained when used free cells of diatom. This new methodology allowed the achievement of a very quick response on the degree of contamination of a site, providing a complementary methodology to WFD.

Metabolic signature of lung cancer: a metabolomic study of human tissues and biofluids

This thesis reports the application of metabolomics to human tissues and biofluids (blood plasma and urine) to unveil the metabolic signature of primary lung cancer. In Chapter 1, a brief introduction on lung cancer epidemiology and pathogenesis, together with a review of the main metabolic dysregulations known to be associated with cancer, is presented. The metabolomics approach is also described, addressing the analytical and statistical methods employed, as well as the current state of the art on its application to clinical lung cancer studies. Chapter 2 provides the experimental details of this work, in regard to the subjects enrolled, sample collection and analysis, and data processing. In Chapter 3, the metabolic characterization of intact lung tissues (from 56 patients) by proton High Resolution Magic Angle Spinning (HRMAS) Nuclear Magnetic Resonance (NMR) spectroscopy is described. After careful assessment of acquisition conditions and thorough spectral assignment (over 50 metabolites identified), the metabolic profiles of tumour and adjacent control tissues were compared through multivariate analysis. The two tissue classes could be discriminated with 97% accuracy, with 13 metabolites significantly accounting for this discrimination: glucose and acetate (depleted in tumours), together with lactate, alanine, glutamate, GSH, taurine, creatine, phosphocholine, glycerophosphocholine, phosphoethanolamine, uracil nucleotides and peptides (increased in tumours). Some of these variations corroborated typical features of cancer metabolism (e.g., upregulated glycolysis and glutaminolysis), while others suggested less known pathways (e.g., antioxidant protection, protein degradation) to play important roles. Another major and novel finding described in this chapter was the dependence of this metabolic signature on tumour histological subtype. While main alterations in adenocarcinomas (AdC) related to phospholipid and protein metabolisms, squamous cell carcinomas (SqCC) were found to have stronger glycolytic and glutaminolytic profiles, making it possible to build a valid classification model to discriminate these two subtypes. Chapter 4 reports the NMR metabolomic study of blood plasma from over 100 patients and near 100 healthy controls, the multivariate model built having afforded a classification rate of 87%. The two groups were found to differ significantly in the levels of lactate, pyruvate, acetoacetate, LDL+VLDL lipoproteins and glycoproteins (increased in patients), together with glutamine, histidine, valine, methanol, HDL lipoproteins and two unassigned compounds (decreased in patients). Interestingly, these variations were detected from initial disease stages and the magnitude of some of them depended on the histological type, although not allowing AdC vs. SqCC discrimination. Moreover, it is shown in this chapter that age mismatch between control and cancer groups could not be ruled out as a possible confounding factor, and exploratory external validation afforded a classification rate of 85%. The NMR profiling of urine from lung cancer patients and healthy controls is presented in Chapter 5. Compared to plasma, the classification model built with urinary profiles resulted in a superior classification rate (97%). After careful assessment of possible bias from gender, age and smoking habits, a set of 19 metabolites was proposed to be cancer-related (out of which 3 were unknowns and 6 were partially identified as N-acetylated metabolites). As for plasma, these variations were detected regardless of disease stage and showed some dependency on histological subtype, the AdC vs. SqCC model built showing modest predictive power. In addition, preliminary external validation of the urine-based classification model afforded 100% sensitivity and 90% specificity, which are exciting results in terms of potential for future clinical application. Chapter 6 describes the analysis of urine from a subset of patients by a different profiling technique, namely, Ultra-Performance Liquid Chromatography coupled to Mass Spectrometry (UPLC-MS). Although the identification of discriminant metabolites was very limited, multivariate models showed high classification rate and predictive power, thus reinforcing the value of urine in the context of lung cancer diagnosis. Finally, the main conclusions of this thesis are presented in Chapter 7, highlighting the potential of integrated metabolomics of tissues and biofluids to improve current understanding of lung cancer altered metabolism and to reveal new marker profiles with diagnostic value.

Gestão da sustentabilidade nas organizações: uma nova metodologia

O presente trabalho pretende auxiliar o processo de consolidação do conceito de sustentabilidade no seio das organizações. Partindo de ferramentas de gestão e avaliação já existentes, esta tese sugere a sua integração numa única metodologia, ultrapassando desse modo as limitações e potenciando as suas capacidades enquanto ferramentas isoladas. O modelo proposto para o Sistema de Gestão da Sustentabilidade (SGS) integra assim: o conceito de melhoria contínua característico dos sistemas de gestão normalizados; a capacidade de tradução da perspetiva estratégica da gestão para o plano operacional, característica do Business Scorecard (BSC); e, por fim, a avaliação emergética é ainda utilizada como uma ferramenta de avaliação da sustentabilidade de sistemas. Um objetivo secundário desta tese prende-se com o desenvolvimento de um procedimento para a realização da análise emergética de um sistema. Depois de analisada a literatura referente à utilização da análise emergética, identificou-se como necessária a definição de um procedimento normalizado, adotando um conjunto de tarefas e um formato de apresentação de resultados que permita disseminar o conceito e tornar a ferramenta mais “utilizável”. Por outro lado, procurou-se dotar o procedimento com um conjunto de indicações que permitem ultrapassar limitações e inconvenientes apontados pelos críticos mas também utilizadores do método, nomeadamente: problemas de dupla contagem, cálculo da incerteza da análise e critérios de qualidade da informação utilizada. O modelo dos sistemas de gestão normalizados apresenta um papel central na metodologia proposta. O conceito de “melhoria contínua” afigura-se como fundamental num sistema que pretende implementar o conceito “desenvolvimento sustentável” e avaliar o seu desempenho à luz do mesmo. Assim, o ciclo Plan-Do-check-Act (PDCA) deve ser utilizado para implementar o SGS de acordo com uma Política para a Sustentabilidade que a organização deve desenvolver. Definida a Política, o modelo baseia-se então no ciclo PDCA: fase de planeamento; fase de implementação; fase de verificação; e fase de revisão. É na fase de planeamento do SGS que se sugere a introdução das outras duas ferramentas: a análise emergética (AEm) e o BSC. A fase de planeamento do modelo de SGS proposto neste trabalho foi aplicada à Universidade de Aveiro (UA), incluindo a definição de uma Política para a Sustentabilidade e o planeamento estratégico e operacional. A avaliação emergética à UA foi realizada recorrendo ao procedimento desenvolvido nesta tese e permitiu caracterizar e avaliar os fluxos de recursos que a “alimentam” sob uma só unidade, atribuindo deste modo graus de importância aos diferentes recursos utilizados. A informação representa 96% do total de recursos utilizados na UA, quando avaliados sob o ponto de vista emergética. Para além da informação, os fluxos financeiros representam a maior fatia do orçamento emergético da UA, grande parte dos quais serve para sustentar os serviços prestados pelo corpo docente da UA. Analisando valores históricos de 3 indicadores de desempenho emergético, observa-se que a UA não regista uma evolução positiva em nenhum dos indicadores: a emergia utilizada nos edifícios tem-se mantido mais ou menos constante; a retribuição emergética da UA para a sociedade, avaliada sobre a forma de diplomados, tem diminuído; e a relação emergética entre professores e alunos tem também diminuído, facto que pode refletir-se na qualidade dos “produtos” da UA. Da aplicação do SGS à UA regista-se: a adequabilidade do ciclo PDCA à implementação de um SGS; a capacidade da AEm “obrigar” a organização a adotar uma abordagem sistémica da sua atividade, resultando numa visão mais aprofundada da sua relação com o contexto ambiental, económico e social em que se insere; a importância da visão estratégica e da sua tradução em termos operacionais na fase de planeamento de um SGS; e, por fim, a capacidade de adaptação e dupla funcionalidade (implementação e avaliação) do modelo de SGS proposto. A metodologia de SGS proposta nesta tese, sendo direcionada para todo o tipo de organizações, não se desvirtua quando aplicada ao contexto específico das instituições de ensino superior e permite implementar e avaliar o conceito “desenvolvimento sustentável” nas quatro dimensões da universidade (Educação, Investigação, Operação; Relação com as partes interessadas).