Browsing by Author "Aguiar, L."
Now showing 1 - 8 of 8
Results Per Page
Sort Options
- Airborne bacteria and fungi in different indoor environments: levels and dose ratesPublication . Paciência, I.; Madureira, J.; Cavaleiro Rufo, J.; Aguiar, L.; Teixeira, João Paulo; Pinto, M.; Moreira, A.; de Oliveira Fernandes, E.The study aimed to: (i) quantify bacteria and fungi concentrations in 4 indoor environments; (ii) identify the recovered fungi; (iii) assess the impact of outdoor bacteria and fungi indoors; and (iv) estimate bacterial and fungal inhalation dose rates in children and elderly. Air samples were collected from 20 primary schools, 68 homes, 9 child day-care centres and 22 elderly care centres, with a microbiological air sampler using TSA and MEA culture media.
- Bacterial and fungal exposure in schools may influence asthma and allergy in childrenPublication . Cavaleiro Rufo, João; Madureira, J.; Paciência, I.; Aguiar, L.; Delgado, L.; Teixeira, J.P.; de Oliveira Fernandes, E.; Moreira, A.Development of allergic diseases may be regulated by microbial exposure. Children spend a lot of their time in schools, under an extensive diversity of biological agents, such as bacteria and fungi. This study aimed to characterize indoor air microbiological exposure in schools as a predictor of allergic sensitization and asthma in children.
- Biological Air Contamination in Elderly Care Centers: Geria ProjectPublication . Aguiar, L.; Mendes, A.; Pereira, C.; Neves, P.; Mendes, D.; Teixeira, João PauloIndoor air quality (IAQ) affects health particularly in susceptible individuals such as the elderly. It has been estimated that the older population spends approximately 19–20 h/d indoors, and the majority of the elderly spend all of their time indoors in elderly care centers (ECC). Older individuals may be particularly at risk of exposure to detrimental effects from pollutants, even at low concentrations, due to common and multiple underlying chronic diseases that increase susceptibility. This study, aimed to assess the impact of indoor biological agents in 22 ECC located in Porto, was conducted during summer and winter from November 2011 to August 2013 at a total of 141 areas within dining rooms, drawing rooms, medical offices, and bedrooms (including the bedridden). Air sampling was carried out with a microbiological air sampler (Merck MAS-100) and using tryptic soy agar for bacteria and malt extract agar for fungi. The results obtained were compared with the recently revised Portuguese standards. In winter, mean fungi concentration exceeded reference values, while bacteria concentrations were within the new standards in both seasons. The main fungi species found indoors were Cladosporium (73%) in summer and Penicillium (67%) in winter. Aspergillus fumigatus, Aspergillus niger, and Aspergillus flavus, known potential pathogenic/toxigenic species, were also identified. Although the overall rate and mean values of bacteria and fungi found in ECC indoor air met Portuguese legislation, some concern is raised by the presence of pathogenic microorganisms. Simple measures, like opening windows and doors to promote air exchange and renewal, may improve effectiveness in enhancing IAQ.
- Exposure to emissions from cleaning products in primary schools: a test chamber studyPublication . Cavaleiro Rufo, João; Madureira, J.; Paciência, I.; Sousa, J.; Oliveira Fernandes, E.; Slezakova, K.; Pereira, M.C.; Aguiar, L.; Teixeira, J.P.; Pinto, M.; Delgado, L.; Moreira, A.The aim of this study was to investigate volatile organic compound (VOC) emissions from floor cleaning products (FCPs) used in primary schools and compare them with emissions from a previously recognised low-emitting product (control sample). Samples of FCPs used in 3 primary schools and a control sample were collected and subsequently examined in a test chamber. Measurements were performed at t = 0, 60, 120, 240 and 480 min after application. The analysis was performed by GC-MS. The results showed that VOC emissions were higher during t = 0 than in the subsequent measurements, with the exception of benzaldehyde and benzene, being significant for toluene and m/p-xylene. VOC emissions from the control FCP were not significantly lower than the schools FCPs. To prevent the exposure of children to VOCs, the school cleaning should be performed at the end of the classes.
- How indoor air quality changed in primary schools: a 4 years follow-up studyPublication . Cavaleiro Rufo, J.; Madureira, J.; Paciência, I.; Aguiar, L.; Teixeira, J.P.; Slezakova, K.; do Carmo Pereira, M.; Pinto, M.; Moreira, A.; de Oliveira Fernandes, E.The aim of this study was to assess if IAQ in primary schools improved in 4 years as a result of adopting the SINPHONIE guideline-based recommendations.
- Indoor air quality and thermal comfort in elderly care centersPublication . Mendes, A.; Bonassi, S.; Aguiar, L.; Pereira, C.; Neves, P.; Silva, S.; Mendes, D.; Guimarães, L.; Moroni, R.; Teixeira, João PauloThis study explored environmental variables and buildings characteristics in 22 elderly care centers (ECCs) in Portugal. Indoor environmental parameters were measured twice for a total of 141 sampling sites. Each site was assessed for PM10, PM2.5, total volatile organic compounds (TVOC), formaldehyde, CO, CO2, total bacteria and fungi. Thermal comfort (TC) parameters were measured according to ISO 7730:2005 and a building characterization was performed. The overall PM2.5 mean concentration of the 22 ECC was above international reference levels in summer and winter seasons. TVOC, bacteria, CO and CO2 showed significantly higher indoor levels compared to outdoor, in both seasons. Indoor PM10, TVOC, bacteria and CO2 present significant differences between seasons. TVOC, bacteria and CO2 show significant variation between ECC rooms and 4% of fungi samples were positive for pathogenic Aspergillus species. The winter predicted mean vote (PMV) index showed a ‘slightly cool’ thermal sensation scale which may potentiate respiratory tract infections. The predicted percent of dissatisfied people (PPD) and PMV indices show significant differences by season. The building variables ‘Insulation’, ‘Heating Ventilation’ and ‘Windows frames’ were significantly associated to chemical, biological and TC parameters. ‘Bacteria’, ‘Fungi’, ‘Temperature’, Relative Humidity’, and ‘PPD index’ are the mostly affected by building characteristics. Insulating ceilings, walls, and windows could improve winter season TC, providing health benefits to ECC residents.
- Indoor air quality and thermal comfort-results of a pilot study in elderly care centers in PortugalPublication . Mendes, A.; Pereira, C.; Mendes, D.; Aguiar, L.; Neves, P.; Silva, S.; Batterman, S.; Teixeira, João PauloThe age of the European population is rising and percentage of adults aged 65 years and older is projected to increase from 16% in 2000 to 20% in 2020. It has been estimated that older subjects spend approximately 19 to 20 h/d indoors. Older individuals may be particularly at risk for detrimental effects from pollutants, even at low concentrations, due to reduced immunological defenses and multiple underlying chronic diseases. Six Porto, Portugal, urban area elderly care centers (ECC), housing a total of 425 older persons, were studied to assess indoor air quality (IAQ) and thermal comfort (TC) in two seasons. This study presents the IAQ and TC results in 36 rooms and constitutes part of a wider and ongoing study. The study areas were all naturally ventilated, and indoor concentrations in winter were within Portuguese reference values. However, 42% of the participants were dissatisfied with indoor thermal conditions, rating it "slightly cool." In summer, the index rate of dissatisfied individuals was lower (8%). Significant differences were found between seasons in predicted percent of dissatisfied people (PPD) and predicted mean vote (PMV) indices. Fungal concentrations frequently exceeded reference levels (>500 colony-forming units [CFU]/m(3)). In addition, other pollutants occasionally exceeded reference levels. To our knowledge, this is the first study in Portugal to assess effects of indoor air contaminants on the health status and quality of life in older subjects living in ECC. Although IAQ and TC parameters were mostly within reference values, the results suggest a need to improve the balance between IAQ and TC in ECC, a critical environment housing a susceptible population.
- The Influence of Indoor Environments in Respiratory Health and Quality of Life of Susceptible Populations - The GERIA ProjectPublication . Mendes, A.; Papoila, L.; Carreiro-Martins, P.; Bonassi, S.; Caires, I.,; Palmeiro, T.; Aguiar, L.; Pereira, C.; Neves, P.; Mendes, D.; Botelho, A.; Neuparth, N.; Teixeira, J.P.Presentation about GERIA Project “Geriatric Study in Portugal on Health Effects of Air Quality in Elderly Care Centers. The aim of GERIA project is to carry out a risk assessment involving: identification of multiple factors potentially affecting health and quality of life; quantification of human exposure to pollutants, and evaluation of the individual’s response to these stimuli.