Valor prognóstico cardiovascular da MAPA numa população hipertensa portuguesa

Efectuou-se um estudo prospectivo e observacional em 1200 doentes, maiores de 18 anos, com hipertensão essencial e sem eventos cardiovasculares (CV) prévbs que foram referenciados entre 1991 e 1998 para realização de MAPA no Serviço de Cardiologia do Hospital Infante D. Pedro, Aveiro (HIP), na Unidade de Hipertensão e Risco CV do Hospital Pedro Hispano (HPH), Matosinhos e na Clínica Cross/Moss do Porto. O objectivo principal deste estudo foi avaliar, nesta população, seguida durante 8- 12 anos, o valor preditivo de morbi-mortalidade CV da pressurometria ambulatória de 24 horas (MAPA), nomeadamente de diversos índices e valores dela extraída, tais como: (i) valores médios da pressão arterial (PA) de 24-h, diurna e nocturna; (ii) queda tensional noctuma, (iii) diferentes padrões de queda tensional nocturna em particular do padrão Non Dipper; (iv) PA diferencial de 24h, diurna e nodurna; (v) frequência cardíaca de 24 horas (vi) Ambulatory Arterial Stifness. Foram incluídos registos de MAPA de 1200 doentes, de um total de 2644, dos quais 53,8% eram mulheres e 10,2% eram diabéticos. Ao longo de um follow up médio de 8,2+3,0 anos, verificaram-se 62 óbitos e 152 eventos CV fatais e não fatais compreendendo 79 AVC, 51 eventos coronários e 22 classificados de outros eventos cardiovasculares. O estudo permitiu concluir que: 1- A MAPA foi superior a PA casual como preditor de eventos CV globais e de acidentes cerebrovasculares (AVC). 2 - De entre os valores da MAPA, o valor preditivo dos valores sistólicos (de 24 h, diurnos e nocturnos) foi superior ao dos respectivos valores diastólicos e o dos valores nocturnos foi superior ao dos valores diurnos. 3 - 0s eventos CV totais e os eventos coronários foram mais frequentes nos homens do que nas mulheres, sem diferença relativamente ao AVC. O valor preditivo independente da MAPA (sobretudo da PAS e da PP24h) foi superior nas mulheres vs homens relativamente aos eventos globais e AVC. 4- 0s padrões non-dipper e reverted-dipper de queda tensional nocturna associaram-se a pior prognóstico cardiovascular, relativamente ao padrão dipper. Contudo, dentro do padrão non-dipper, somente os doentes com queda tensional nocturna entre 0-4,9% -non-dippers 1 (mas não os doentes com queda tensional nocturna entre 5,O-9,9% -non-dippers 2) apresentaram risco CV superior ao do padrão dipper e semelhante ao do padrão reverted-dipper. Este achado poderá implicar a reclassificação do padrão non-dipper e do risco CV a ele associado. 5- O índice de rigidez arterial derivado da MAPA (AASI) correlaciona-se com outros índices (ex. a velocidade da onda de pulso) e contribui para estratificar o risco CV (eventos CV e AVC). O valor preditivo CV do AASI não é globalmente superior ao da PP 24h, embora em alguns casos o AASI possa acrescentar informação prognostica adicional a PP.

Nanosensor for assessing the risk of a cardiovascular disease

The incidence of cardiovascular diseases (CVD) has been increasing according to the European and global statistics. Thus, the development of new analytical devices, such as biosensors for assessing the risk of CVD could become a valuable approach for the improvement of healthcare service. In latest years, the nanotechnology has provided new materials with improved electronic properties which have an important contribution in the transduction mechanism of biosensors. Thus, in this thesis, biosensors based on field effect transistors with single-walled carbon nanotubes (NTFET) were developed for the detection of C-reactive protein (CRP) in clinical samples, that is, blood serum and saliva from a group of control patients and a group of CVD risk patients. CRP is an acute-phase protein, which is commonly known as the best validated biomarker for the assessment of CVD, the single-walled carbon nanotubes (SWCNT) were applied as transduction components, and the immunoreaction (interaction between the CRP antigen and the antibodies specific to CRP) was used as the mechanism of molecular recognition for the label-free detection of CRP. After the microfabrication of field effect transistors (FET), the screening of the most important variables for the dispersion of SWCNT, the assemblage of NTFET, and their application on standard solutions of CRP, it was found that NTFET respond accurately to CRP both in saliva and in serum samples, since similar CRP levels were found with the NTFET and the traditional methodology (ELISA technique). On the other hand, a strong correlation between salivary and serum CRP was found with NTFET, which means that saliva could be used, based on non-invasive sampling, as an alternative fluid to blood serum. It was also shown that NTFET could discriminate control patients from CVD risk patients, allowing the determination of a cut-off value for salivary CRP of 1900 ng L-1, which corresponds to the well established cut-off of 3 mg L-1 for CRP in serum, constituting an important finding for the possible establishment of a new range of CRP levels based on saliva. According to the data provided from the volunteer patients regarding their lipoprotein profile and lifestyle factors, it was concluded that the control and the CVD risk patients could be separated taking into account the various risk factors established in literature as strong contributors for developing a CVD, such as triglycerides, serum CRP, total cholesterol, LDL cholesterol, body mass index, Framingham risk score, hypertension, dyslipidemia, and diabetes mellitus. Thus, this work could provide an additional contribution to the understanding of the association of biomarkers levels in serum and saliva samples, and above all, cost-effective, rapid, label-free, and disposable NTFET were developed, based on a noninvasive sampling, for the assessment of CVD risk, thus constituting a potential point-of-care technology.

Surface reactivity enhancement of silica-based glass-ceramic scaffolds

A paradigm shift is taking place from using transplanting tissue and synthetic implants to a tissue engineering approach that aims to regenerate damaged tissues by combining cells from the body with highly porous scaffold biomaterials, which act as templates, guiding the growth of new tissue. The central focus of this thesis was to produce porous glass and glass-ceramic scaffolds that exhibits a bioactive and biocompatible behaviour with specific surface reactivity in synthetic physiological fluids and cell-scaffold interactions, enhanced by composition and thermal treatments applied. Understanding the sintering behaviour and the interaction between the densification and crystallization processes of glass powders was essential for assessing the ideal sintering conditions for obtaining a glass scaffolds for tissue engineering applications. Our main goal was to carry out a comprehensive study of the bioactive glass sintering, identifying the powder size and sintering variables effect, for future design of sintered glass scaffolds with competent microstructures. The developed scaffolds prepared by the salt sintering method using a 3CaO.P2O5 - SiO2 - MgO glass system, with additions of Na2O with a salt, NaCl, exhibit high porosity, interconnectivity, pore size distribution and mechanical strength suitable for bone repair applications. The replacement of 6 % MgO by Na2O in the glass network allowed to tailor the dissolution rate and bioactivity of the glass scaffolds. Regarding the biological assessment, the incorporation of sodium to the composition resulted in an inibition cell response for small periods. Nevertheless it was demonstrated that for 21 days the cells response recovered and are similar for both glass compositions. The in vitro behaviour of the glass scaffolds was tested by introducing scaffolds to simulated body fluid for 21 days. Energy-dispersive Xray spectroscopy and SEM analyses proved the existence of CaP crystals for both compositions. Crystallization forming whitlockite was observed to affect the dissolution behaviour in simulated body fluid. By performing different heat treatments, it was possible to control the bioactivity and biocompatability of the glass scaffolds by means of a controlled crystallization. To recover and tune the bioactivity of the glass-ceramic with 82 % crystalline phase, different methods have been applied including functionalization using 3- aminopropyl-triethoxysilane (APTES). The glass ceramic modified surface exhibited an accelerated crystalline hydroxyapatite layer formation upon immersion in SBF after 21 days while the as prepared glass-ceramic had no detected formation of calcium phosphate up to 5 months. A sufficient mechanical support for bone tissue regeneration that biodegrade later at a tailorable rate was achievable with the glass–ceramic scaffold. Considering the biological assessment, scaffolds demonstrated an inductive effect on the proliferation of cells. The cells showed a normal morphology and high growth rate when compared to standard culture plates. This study opens up new possibilities for using 3CaO.P2O5–SiO2–MgO glass to manufacture various structures, while tailoring their bioactivity by controlling the content of the crystalline phase. Additionally, the in vitro behaviour of these structures suggests the high potential of these materials to be used in the field of tissue regeneration.