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- Influence of outdoor air pollution on cardiovascular diseases in Madeira (Portugal)Publication . Camacho, Irene; Camacho, Jaime; Camacho, Roberto; Góis, André; Nóbrega, VítorPrevious studies suggest that human exposure to atmospheric pollution can trigger cardiovascular diseases (CVDs). This study aimed at assessing the influence of short-term exposure to atmospheric pollution in the occurrence of CVD and mortality in Madeira. A single-centre retrospective study was conducted during 2005–2011. Air pollutant data and meteorological parameters were gathered. Daily admissions at the emergency service due to CVD and markers levels for cardiac function were obtained from a public hospital. Exploratory and correlation analysis of all variables were performed, and the CVD relative risk (RR) of hospital admissions and mortality was calculated. During the study, mean annual concentrations of the air pollutants varied greatly, with NOx and O3 showing the highest annual average concentrations. Two hundred ten thousand five hundred forty patients were admitted at the emergency service, 74% of them due to cardiovascular causes. Hospital admissions were positively correlated with PM2.5, and SO2. A positive and significant association between PM2.5 with creatine kinase myocardial band and B-type natriuretic peptides markers was found, whilst SO2 was positively associated with Creatine kinase myocardial band. The RR seemed to increased with PM2.5 and NOx exposure. Traffic-related pollutants were weakly but statistically associated to hospital admissions due to CVD and mortality. PM2.5 and SO2 were related with higher hospital admissions which in turn seemed to increase the serum markers. The risk of mortality was mainly associated with O3 and average air temperature. Adults and elders seem to be more susceptible to atmospheric pollutants, particularly in the winter.
- From a basic microalga and an Acetic Acid Bacterium cellulose producer to a living symbiotic biofilmPublication . Nóbrega, Vítor; Faria, Marisa; Quintana, Antera; Kaufmann, Manfred; Ferreira, Artur; Cordeiro, Nereida Maria AbanoBacterial cellulose (BC) has recently been the subject of a considerable amount of research, not only for its environmentally friendly biosynthesis, but also for its high potential in areas such as biomedicine or biomaterials. A symbiotic relationship between a photosynthetic microalga, Chlamydomonas debaryana, and a cellulose producer bacterium, Komagataeibacter saccharivorans, was established in order to obtain a viable and active biofilm. The effect of the growth media composition ratio on the produced living material was investigated, as well as the microalgae biomass quantity, temperature, and incubation time. The optimal temperature for higher symbiotic biofilm production was 30 °C with an incubation period of 14 days. The high microalgae presence, 0.75% w/v, and 60:40 HS:BG-11 medium (v/v) induced a biofilm microalgae incorporation rate of 85%. The obtained results report, for the first time, a successful symbiotic interaction developed in situ between an alkaline photosynthetic microalga and an acetic acid bacterium. These results are promising and open a new window to BC living biofilm applications in medical fields that have not yet been explored.
- The impact of urban and forest fires on the airborne fungal spore aerobiologyPublication . Camacho, Irene; Góis, André; Camacho, Roberto; Nóbrega, Vítor; FernandezThe occurrence of airborne fungal spores is driven by several biogeographic and climatic factors. In addition, the occurrence of fires near fungal ecosystems seems to play an important role on the aerobiology of fungal spores. Wildfires are prevalent throughout the world and particularly so in several South European countries with Mediterranean climate. The present survey aimed at analysing the impact of urban and forest fires on the airborne fungal spore content of Madeira Island. Data suggest that after a fire occurrence, the concentration of fungal spores tends to increase in the air, peaking on the 10th day after a fire event. It is likely that fire-induced convections promote release of fungal spores from their natural habitat and that the soil heating conditions could trigger the germination of fungi colonizing post-fire plant residues and soil. It is also possible that the registered low precipitation and wind intensity could help increase the concentration of fungal spores in the atmosphere during 1–2 weeks. These findings need further research, not only at a regional but also at a larger scale, in order to clarify the specific impact of fires on such biological particles and the possible consequences on public health.