Little has been published in the dental literature on the combination of distinct variables in the design of oral health scales. Particular interest in the idea of representing the oral health status in a single numerical value arose with the development of “Periodontal Medicine”, which aims to establish correlations between infectious/inflammatory disorders of the oral cavity and the appearance of certain systemic diseases. In this thesis, we propose a new global oral health scale that establishes a single value for the infectious potential of the oral cavity, which has its clinical expression in the form of local and focal infections. The scale incorporates dental and periodontal variables organised according to objective and tested indices that reflect to a certain degree the presence of the principal infectious disorders of the oral cavity, caries and periodontal disease. The different grades of the scale have been correlated with the presence and concentration of various bacterial species of the salivary flora.

The detection and identification of buried materials (e.g.weapons, explosives) are routine practices in various forensic investigation scenarios, ideally occurring in an expeditious and safe manner. Due to its non-invasive nature concerning the geological matrix where the materials may be buried, forensic geophysics enables a fast response to this kind of needs. In many countries, explosive devices are a threat to public safety, their detection and identification being unexpendable for the subsequent removal and destruction under ideal safety conditions. Consequently, the current study aims to analyze the versatility of two georadars (2D-Easyrad and 3D-radar) in order to meet the above mentioned needs. For that purpose several scans will be processed with the two equipments, both in a soil and a sediment, during the 4 seasons of the year and against variables related to the explosive device (type,shape and size). The main aim of this project is the development of certified protocols suitable for the characteristics of the national soils and sediments in order to be implemented, by police and military forces, in real cases involving the detection of underground explosive devices.

Xanthone derivatives and synthetic intermediates have demonstrated great potential in diverse biological/pharmacological activities. Among them, carboxyxanthones are interesting chemical building blocks for preparation of a variety of derivatives, including chiral derivatives of xanthones (CDXs). Xanthone derivatives with chirality associated and enantioselective studies have been explored in our group with promising results. Preliminary studies with carboxyxanthones coupled with proteinogenic amino acids demonstrated grow inhibition of some bacteria strains, namely Staphylococcus aureus and Staphylococcus epidermidis. In this work we aim to synthesize a new library of CDXs as pure enantiomers by coupling carboxyxanthones to enantiomerically pure proteinogenic amino esters. Antimicrobial activity of these CDXs will be evaluated in different microorganisms, including different bacterial species, Cryptosporidium and Leishmania. Considering that biological activity is dependent on the stereochemistry in many ways, both pure enantiomers as well as the racemates will be evaluated.

Tamoxifen (TAM) is a selective estrogen receptor (ER) modulator that can alter the overall endocrine response. It is also an ER antagonist in breast cancer, being widely used in the treatment of this disease. Due to its undeniable success in the treatment and prevention of breast cancer in postmenopausal women, the prophylactic use of TAM for 5-10 years, has been proposed for premenopausal women, aiming the prevention/reduction of the disease. However, TAM therapy has several side effects associated with endocrine disruption at the neural, cardiovascular and systemic levels, and the risk/ benefit ratio of this preventive measure is still unknown. The liver and thyroid gland are important metabolic regulators with high endocrine modulation, making them preferential targets of systemic endocrine disruptors. Thus, to understand the effect of prolonged TAM therapy on endocrine regulation of metabolism, this project will study the liver and thyroid gland in premenopausal female rats using an animal model of long-term TAM. The studies of this project will able us to find answers to this current problem and help to outline new strategies in the prevention of breast cancer.