RESUMEN
Cement factories significantly contribute to atmospheric pollution by generating fine particulate matter (PM2.5), which can potentially increase the mortality risk. The lack of information on the health impacts of PM2.5 pollution from cement operations in Brazil prompted this investigation. We used corrected PM2.5 measurements from low-cost sensors from March 2021 to October 2022 in Rio Branco do Sul, city in the southern region of the country and home to Latin America's largest cement plant, to assess exposure data. Disability-adjusted life years (DALY) method was applied to estimate the years of life lost (YLL) and cost estimate due to deaths from non-accidental causes, cardiovascular and respiratory diseases. The total YLL attributable to PM2.5 concentration was estimated by calculating the attributable fraction (AF) through relative risk. We also collected PM2.5 using a Harvard impactor to evaluate health risks from toxic metals components. During the study period, the analysis of chemical characterization of PM2.5 showed enrichment factors for most elements and the possible influence of the calcination process facilities on the PM2.5 levels. The mean concentration of PM2.5 exceeded the annual WHO air quality guideline (AQG) level, accounted for 3.5%, 4.7%, and 4.3% of total YLL from all causes, cardiovascular, and respiratory diseases, which corresponded to 0.23 (95% CI: 0.17-0.26), 0.06 (95% CI: 0.05-0.07) and 0.03 (95% CI: 0.01-0.06) years loss in life expectancy, respectively. An indirect health cost attributable to PM2.5 resulted in US$ 1.4 million, equivalent to about 3.5% of the total local annual health costs in Rio Branco do Sul, underscoring the significant financial burden of PM2.5 exposures. The greatest economic loss was found in the male age group of 40-69 years and among those with cardiovascular disease, rather than those with respiratory disease. Despite this, the carcinogenic and non-carcinogenic risks from inhalation of hazardous elements were within safe ranges. This work demonstrated PurpleAir's potential for air quality and public health applications. Our findings indicate health and economic benefits from reducing PM2.5 levels by adopting WHO air pollution standards. The results can guide policies toward delivering more effective health care.
RESUMEN
Brazil has experienced one of the highest COVID-19 fatality rates globally. While numerous studies have explored the potential connection between air pollution, specifically fine particulate matter (PM2.5), and the exacerbation of SARS-CoV-2 infection, the majority of this research has been conducted in foreign regions-Europe, the United States, and China-correlating generalized pollution levels with health-related scopes. In this study, our objective is to investigate the localized connection between exposure to air pollution exposure and its health implications within a specific Brazilian municipality, focusing on COVID-19 susceptibility. Our investigation involves assessing pollution levels through spatial interpolation of in situ PM2.5 measurements. A network of affordable sensors collected data across 9 regions in Curitiba, as well as its metropolitan counterpart, Araucaria. Our findings distinctly reveal a significant positive correlation (with r-values reaching up to 0.36, p-value < 0.01) between regions characterized by higher levels of pollution, particularly during the winter months (with r-values peaking at 0.40, p-value < 0.05), with both COVID-19 mortality and incidence rates. This correlation gains added significance due to the intricate interplay between urban atmospheric pollution and regional human development indices. Notably, heightened pollution aligns with industrial hubs and intensified vehicular activity. The spatial analysis performed in this study assumes a pivotal role by identifying priority regions that require targeted action post-COVID. By comprehending the localized dynamics between air pollution and its health repercussions, tailored strategies can be implemented to alleviate these effects and ensure the well-being of the public.
Asunto(s)
Contaminantes Atmosféricos , Contaminación del Aire , COVID-19 , Humanos , Estados Unidos , COVID-19/epidemiología , Contaminantes Atmosféricos/toxicidad , Contaminantes Atmosféricos/análisis , Pandemias , Brasil/epidemiología , SARS-CoV-2 , Material Particulado/toxicidad , Material Particulado/análisis , Contaminación del Aire/análisisRESUMEN
Rhinitis arises from either allergic or non-allergic inflammation of the nasal mucosa, characterized by the infiltration of inflammatory cells into the tissue and nasal secretions, along with structural alterations in the nasal mucosa. The pathways through which air pollution affects rhinitis may diverge from those affecting asthma. This article aims to review the effects of diverse air pollutants on the nose, the correlation of climate change and pollution, and how they aggravate the symptoms of patients with rhinitis.
RESUMEN
For regulatory purposes, air pollution has been reduced to management of air quality control regions (AQCR), by inventorying pollution sources and identifying the receptors significantly affected. However, beyond being source-dependent, particulate matter can be physically and chemically altered by factors and elements of climate during transport, as they act as local environmental constraints, indirectly modulating the adverse effects of particles on the environment and human health. This case study, at an industrial site in a Brazilian coastal city - Joinville, combines different methodologies to integrate atmospheric dynamics in a strategic risk assessment approach whereby the influence of different wind regimes on environmental and health risks of exposure to PM2.5-bound elements, are analysed. Although Joinville AQCR has been prone to stagnation/recirculation events, distinctly different horizontal wind circulation patterns indicate two airsheds within the region. The two sampling sites mirrored these two conditions and as a result we report different PM2.5 mass concentrations, chemical profiles, geo-accumulation, and ecological and human health risks. In addition, feedback mechanisms between the airsheds seem to aggravate the air quality and its effects even under good ventilation conditions. Recognizably, the risks associated with Co, Pb, Cu, Ni, Mn, and Zn loadings were extremely high for the environment as well as being the main contributors to elevated non-carcinogenic risks. Meanwhile, higher carcinogenic risks occurred during stagnation/recirculation conditions, with Cr as the major threat. These results highlight the importance of integrating local airshed characteristics into the risk assessment of PM2.5-bound elements since they can aggravate air pollution leading to different risks at a granular scale. This new approach to risk assessment can be employed in any city's longer-term development plan since it provides public authorities with a strategic perspective on incorporating environmental constraints into urban growth planning and development zoning regulations.
RESUMEN
Asthma epidemics have been shown to be related to where soybeans are loaded and handled, but data are scarce in the literature. This pilot study evaluated the levels of Gly m 1 in dust samples collected in Maringá, Brazil, a city with high soy production and processing. A dust impactor was used to collect seven isolated samples during 2015 and 2016. Samples were analyzed by an ELISA (enzyme-linked immunosorbent assay) detection method. Gly m 1 was found in all samples, ranging from 0.82-24.38 ng/m3 (median 2.41), regardless of the month or year evaluated. The levels of Gly m 1 were considered low, but the concentrations required to cause sensitization and symptoms are uncertain.
Asunto(s)
Alérgenos/efectos adversos , Glycine max/inmunología , Proteínas de Soja , Contaminación del Aire , Brasil , Ensayo de Inmunoadsorción Enzimática , Humanos , Proyectos PilotoRESUMEN
This is a pioneering work in South America to model the exposure of cyclists to black carbon (BC) while riding in an urban area with high spatiotemporal variability of BC concentrations. We report on mobile BC concentrations sampled on 10 biking sessions in the city of Curitiba (Brazil), during rush hours of weekdays, covering four routes and totaling 178â¯km. Moreover, simultaneous BC measurements were conducted within a street canyon (street and rooftop levels) and at a site located 13â¯km from the city center. We used two statistical approaches to model the BC concentrations: multiple linear regression (MLR) and a machine-learning technique called random forests (RF). A pool of 25 candidate variables was created, including pollution measurements, traffic characteristics, street geometry and meteorology. The aggregated mean BC concentration within 30-m buffers along the four routes was 7.09⯵gâ¯m-3, with large spatial variability (5th and 95th percentiles of 1.75 and 16.83⯵gâ¯m-3, respectively). On average, the concentrations at the street canyon façade (5â¯m height) were lower than the mobile data but higher than the urban background levels. The MLR model explained a low percentage of variance (24%), but was within the values found in the literature for on-road BC mobile data. RF explained a larger variance (54%) with the additional advantage of having lower requirements for the target and predictor variables. The most impactful predictor for both models was the traffic rate of heavy-duty vehicles. Thus, to reduce the BC exposure of cyclists and residents living close to busy streets, we emphasize the importance of renewing and/or retrofitting the diesel-powered fleet, particularly public buses with old vehicle technologies. Urban planners could also use this valuable information to project bicycle lanes with greater separation from the circulation of heavy-duty diesel vehicles.
Asunto(s)
Ciclismo , Exposición a Riesgos Ambientales/análisis , Hollín/análisis , Brasil , Ciudades , Monitoreo del Ambiente , Modelos Lineales , Modelos Teóricos , Análisis Espacio-TemporalRESUMEN
Introdução: O conhecimento da aerobiologia local é fundamental para o alergista. Os aeroalérgenos são capazes de sensibilizar e levar ao desenvolvimento de doenças respiratórias alérgicas, portanto devem ser monitorados rotineiramente, tendo em vista possíveis mudanças locais conforme alterações climáticas, poluição e atividades agroindustriais. Objetivo: Verificar a presença e concentração do alérgeno principal da poeira da casca da soja (Gly m 1) na atmosfera da cidade de Maringá-PR e possíveis associações aos fatores climáticos. A escolha da soja deve-se a alta prevalência desta cultura no Brasil e nesta região do país. Até o presente momento, há apenas um estudo piloto feito por este mesmo grupo avaliando a presença deste alérgeno no Brasil. Métodos: Foram realizadas coletas de material atmosférico, durante o período de março de 2017 a março de 2018, durante 24 ou 48 horas distribuídas no decorrer do período, totalizando 70 amostras, das quais 10 foram excluídas por problemas técnicos de coleta. As amostras foram avaliadas pelo método ELISA (Enzyme linked immunosorbent assay ) para Gly m 1, sendo que todas as amostras apresentaram níveis detectáveis do alérgeno. Resultados: A mediana de concentração de Gly m 1 foi de 4,89 ng/m3. Os valores encontrados variaram de 0,66 ng/ m3 a 1826,1 ng/m3. Das 60 amostras analisadas, 23% delas apresentaram valores superiores a 90 ng/m3, sendo os meses de junho/2017 e março/2018 com concentrações mais elevadas. Houve correlação positiva das concentrações de Gly m 1 com as temperaturas máxima, média e mínima, umidade relativa, vento e insolação. Conclusão: Os dados evidenciam exposições constantes da população ao alérgeno do Gly m 1, por vezes em níveis elevados possivelmente capazes de gerar sensibilização e sintomas.
Introduction: Knowledge of local aerobiology is essential for allergists. Because airborne allergens can sensitize the population and lead to allergic respiratory diseases, they must be routinely monitored for the effects of climate change, pollution, and agroindustry. Objective: To verify the airborne presence and concentration of the main soy hull dust allergen (Gly m 1) in Maringá, PR, Brazil and possible associations with climatic factors. Soybeans were selected due to the high prevalence of this crop in this region. To date, only 1 pilot study (conducted by our group) has evaluated this allergen's presence in Brazil. Methods: Atmospheric material was collected between March 2017 and March 2018 in 24- or 48-hour intervals, totaling 70 samples, of which 10 were excluded due to technical problems. The samples were tested for Gly m 1 using enzyme-linked immunosorbent assay, and all samples showed detectable levels of the allergen. Results: The median concentration of Gly m 1 was 4.89 ng/m3, with values ranging from 0.66 ng/m3 to 1826.1 ng/m3. Of the 60 samples, 23% showed values > 90 ng/m3, with June 2017 and March 2018 having the highest concentrations. There was a positive correlation between Gly m 1 concentration and maximum, mean, and minimum temperatures, relative humidity, wind, and insolation. Conclusion: The data show that the population is constantly exposed to the Gly m 1 allergen, sometimes at high levels, which may lead to sensitization and symptoms.
Asunto(s)
HumanosRESUMEN
The hydrogen sulphide (H2S) levels from wastewater treatment plants (WWTPs) in Curitiba, Brazil have been quantified for the first time. H2S generated by anaerobic decomposition of organic matter in WWTPs is a cause for concern because it is an air pollutant, which can cause eye and respiratory irritation, headaches, and nausea. Considering the requirement for WWTPs in all communities, it is necessary to assess the concentrations and effects of gases such as H2S on populations living and/or working near WWTPs. The primary objective of this study was to evaluate the indoor and outdoor concentration of H2S in the neighbourhood of two WWTPs located in Curitiba, as well as its human health impacts. Between August 2013 and March 2014 eight sampling campaigns were performed using passive samplers and the analyses were carried out by spectrophotometry, presenting mean concentrations ranging from 0.14 to 32µgm-3. Eleven points at WWTP-A reported H2S average concentrations above the WHO recommendation of 10µgm-3, and 15 points above the US EPA guideline of 2µgm-3. At WWTP-B the H2S concentration was above US EPA guideline at all the sampling points. The I/O ratio on the different sampling sites showed accumulation of indoor H2S in some instances and result in exacerbating the exposure of the residents. The highest H2S concentrations were recorded during the summer in houses located closest to the sewage treatment stations, and towards the main wind direction, showing the importance of these factors when planning a WWTP. Lifetime risk assessments of hydrogen sulphide exposure showed a significant non-carcinogenic adverse health risk for local residents and workers, especially those close to anaerobic WWTPs. The data indicated that WWTPs operated under these conditions should be recognized as a significant air pollution source, putting local populations at risk.
Asunto(s)
Contaminantes Atmosféricos/análisis , Exposición a Riesgos Ambientales/análisis , Monitoreo del Ambiente , Sulfuro de Hidrógeno/análisis , Instalaciones de Eliminación de Residuos , Contaminación del Aire , Brasil , Humanos , Aguas Residuales , VientoRESUMEN
Introduction and Objective: Evaluate superficial changes as well as the presence of C. albicans and S. mutans on latex and silicone pacifiers. Material and Methods: after thermal treatment and disinfection, forty latex and silicone pacifiers fragments were contaminated and submitted to boiling water during 5 and 10 minutes and microwave energy during 5 minutes. Results: Scanning Electron Microscopy revealed the greatest superficial alterations on latex samples compared to silicone. In despite of thermal treatment, none sample revealed the occurrence of S. mutans and C. albicans. Conclusion: Silicone pacifiers and the microwave energy showed to be the most appropriate and effective domestic procedure for disinfections of pacifiers.
Introdução e objetivos: Avaliar as alterações superficiais e a presença de C. albicans e S. mutans na superfície de chupetas de látex e silicone. Material e métodos: Após tratamento térmico e desinfecção, 40 fragmentos de chupetas de látex e silicone foram contaminados e submetidos a fervura em água durante 5 e 10 minutos e forno de microondas por 5 minutos. Resultados: A análise por microscopia eletrônica de varredura revelou maiores alterações superficiais nas amostras de látex quando comparadas às de silicone. Independentemente do tratamento térmico, todas as amostras revelaram a ausência de S. mutans e C. albicans. Conclusão: O tratamento térmico com microondas para as chupetas de silicone demonstrou ser o procedimento doméstico mais apropriado e eficiente para a desinfecção de chupetas.