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Near-surface ozone is a profoundly reactive and highly oxidizing gas and one of the critical respiratory toxicants. Numerous epidemiological investigations have indicated that asthmatic individuals are the vulnerable group of ozone exposure, and there is a strong correlation between ozone exposure and asthma morbidity and mortality rates. The potential mechanisms include oxidative stress, inflammatory response, autonomic nerve impairment, and immune dysfunction. The present study summarized and discussed the effect of ozone exposure on asthma and its underlying biological mechanisms in order to galvanize public cognizance concerning the perils of ozone pollution and serve as a reference for future research on ozone exposure and asthma.
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Accumulating studies suggest that, as the subway is one of the important means of transport in cities, airborne microorganisms in its system have potential effects on human health, but previous studies have mainly focused on some foreign cities. We reviewed the spatio-temporal distribution characteristics of airborne microorganisms in subway stations in different cities, including diurnal, weekly, and seasonal variations, and the distribution of microorganisms in different regions of the world. The factors affecting airborne microorganisms, such as human activities, temperature and humidity, ventilation, and particulate matter, were presented. The potential health effects were described. Although there was no significant risk of infection from using subway, many pathogens do exist in the air. The influence of microorganisms in subway air on health has become a public health problem that cannot be ignored.
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As one of the major environmental and health problems in China, ambient air pollution has attracted substantial public concerns. This paper reviews the current evidence on air pollution and population health in China, including acute health effect studies, chronic health effect studies, disease burden, and interventions studies. Future research directions are also discussed.
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Objective@#To explore the effect of fine particulate matters (PM2.5) exposure on emergency visits and outpatient visits of 5 hospitals in Beijing, Shanghai and Guangzhou from 2013 to 2015.@*Methods@#Using convenient sampling method, 5 general hospitals in Beijing, Shanghai and Guangzhou were selected which included Beijing hospital, China-Japan friendship hospital, Xinhua hospital affiliated to Shanghai jiaotong University School of Medicine, the liwan hospital of the third affiliated hospital and the first affiliated hospital of Guangzhou Medical University. The emergency and outpatient data, air pollution monitoring data and meteorological data were collected from January 1, 2013 to December 31, 2015. A generalized additive model was used to analyze the effect of PM2.5 exposure on daily hospital emergency and outpatient visits, and Meta analysis was used to obtain the combined effect value.@*Results@#The number of emergency and outpatient visits of 5 hospitals was 1 378 501 and 18 139 779 in total, respectively. The mean±SD of PM2.5 exposures in Beijing hospital, China-Japan friendship hospital, Xinhua hospital affiliated to Shanghai jiaotong University School of Medicine, the liwan hospital of the third affiliated hospital and the first affiliated hospital of Guangzhou Medical University were (81.8±68.7), (83.2±69.7), (54.4±34.1), (43.5±24.8) μg/m3, respectively. Results of single pollutant model analysis showed that 0-1 day lag concentrations of PM2.5 had the largest effect on emergency visits and outpatient visits. For a 10 μg/m3 increase of PM2.5 concentration, excess risk (ER) (95%CI) of emergency and outpatient visits was 0.56% (0.14%, 0.99%) and0.63% (0.07%, 1.19%), respectively. After adjusting for O3, NO2, SO2, and CO, for a 10 μg/m3 increase of PM2.5 concentrations, the ER (95%CI) of emergency visits was 0.50% (0.10%, 0.90%), 0.34% (-0.02%, 0.69%), 0.36% (0.02%, 0.69%) and 0.56% (0.10%, 1.03%), respectively and the ER (95% CI) of outpatient visits was 0.65% (0.08%, 1.21%), 0.29% (-0.17%, 0.75%), 0.48% (-0.06%, 1.03%) and 0.48%(-0.02%, 0.99%), respectively.@*Conclusion@#Our results suggested that PM2.5 exposure can increase emergency and outpatient visits of 5 hospitals in Beijing, Shanghai and Guangzhou.
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In the past decades, people's work and life styles have dramatically changed during the rapid economic development and urbanization in China. A national survey reported that Chinese adults spend an average of 81% of daily time in indoor environment. Exposure to indoor air pollution plays key roles for human health but is likely to be neglected due on the relatively lower concentration levels and lower awareness among common people. Till now, published studies focus more on the pollution levels or the toxicological effects of indoor air pollutants but there is a lack of disease burden assessment attributable to indoor air pollution. In this review, several international studies were introduced on the disease burden estimation attributable to indoor air pollution, as well as the estimation methods. The current situation of national study was also reviewed. The strengths and limitations of the representative international studies were discussed. This review is helpful in providing data to guide the research on disease burden assessment attributable to indoor air pollution in China, and further helps to prioritize the indoor air pollution control based on disease burden ranking among pollutants and motivate public policies to protect the public health.
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<p><b>OBJECTIVE</b>To quantitatively evaluate the effects of daily mean temperature on respiratory diseases.</p><p><b>METHODS</b>Based on the data of daily hospital admissions for respiratory diseases, meteorological parameters and air pollution in Shanghai between January 2006 and December 2011, we used a generalized additive model (GAM) to explore the effects of daily mean temperature on hospital admissions on respiratory diseases adjusted for the secular trend, seasonal trend, day of week and other confounders.</p><p><b>RESULTS</b>A J-shaped relationship was found between daily mean temperature and respiratory disease and the optimum temperature (OT) corresponding to low risk of respiratory hospital admissions was about 25 °C. For cold effects over lag 0-30 days, the overall excess risk (ER) of hospital admission associated with 1 °C below the OT was 3.00% (95% CI: 2.54%-3.45%), 3.00% (95% CI: 2.55%-3.45%) and 3.02% (95% CI:2.51%-3.49%) for overall, males and females, respectively. For hot effects over lag 0-30 days, the overall excess risk (ER) was 2.15% (95% CI: 0.67%-3.66%), 1.86% (95% CI: 0.39%-3.34%) and 2.57% (95% CI: 0.82%-4.36%) for overall, males and females, respectively. The optimum temperature between daily mean temperature and respiratory disease were 14 °C, 20 °C, 25 °C and 28 °C in different age groups. The effect of low temperature increased with age for the people above 45 years old; however the effect of high temperature was significant for the people under 65 years old.</p><p><b>CONCLUSIONS</b>Both of higher temperature and lower temperature resulted in ER of respiratory hospital admissions increase with lag effects. The effects of lower temperature lagged longer and stronger than higher temperature. Different age group and gender shows different effects.</p>
Subject(s)
Female , Humans , Male , Age Factors , Air Pollution , China , Cold Temperature , Hospitalization , Hot Temperature , Models, Theoretical , Respiratory Tract Diseases , Sex Factors , TemperatureABSTRACT
<p><b>OBJECTIVE</b>To assess the relationship between diurnal temperature range (DTR) and sudden infant death (SID) between 2001 and 2004 in Shanghai, China.</p><p><b>METHODS</b>We conducted a time-stratified case-crossover analysis to estimate the percent increase of SID associated with changes in DTR after adjustment for daily weather conditions (temperature and relative humidity) and outdoor air pollution.</p><p><b>RESULTS</b>DTR was significantly associated with daily SID. An increase of 1 °C in the current-day (L0) and in the 2-day moving average (L01) DTR corresponds to a 1.56% (95% CI: 0.97%, 2.15%) and a 1.89% (95% CI: 1.17%, 2.60%) increase in SID, respectively.</p><p><b>CONCLUSION</b>An increased DTR was associated with an increased risk of SID in Shanghai. More studies are needed to understand the effect of DTR on infant deaths.</p>
Subject(s)
Humans , Infant , Infant, Newborn , Air Pollutants , China , Epidemiology , Death Certificates , Humidity , Nitrogen Dioxide , Ozone , Particulate Matter , Risk Factors , Sudden Infant Death , Epidemiology , Sulfur Dioxide , TemperatureABSTRACT
<p><b>OBJECTIVE</b>The study is to investigate the associations between visibility, major air pollutants and daily counts of hospital admission in Shanghai, China.</p><p><b>METHODS</b>Daily data on hospital admission, visibility, and air pollution during 2005-2008 were obtained from the Shanghai Insurance Bureau (SHIB), Shanghai Meteorological Bureau, and Shanghai Environmental Monitoring Center, respectively. The generalized additive model (GAM) with penalized splines was used to examine the associations between daily visibility and hospital admission.</p><p><b>RESULTS</b>Among various pollutants, PM(2.5) showed strongest correlation with visibility. Decreased visibility was significantly associated with increased risk of hospital admission in Shanghai. An inter-quartile range decrease in the 2-day (L01) moving average of visibility corresponded to 3.66% (95%CI: 1.02%, 6.31%), 4.06% (95%CI: 0.84%, 7.27%), and 4.32% (95%CI: 1.67%, 6.97%) increase of total, cardiovascular, and respiratory hospitalizations, respectively.</p><p><b>CONCLUSION</b>Our analyses provide the first piece of evidence in China, demonstrating that decreased visibility has an effect on hospital admission, and this finding strengthens the rationale for further limiting air pollution levels in Shanghai.</p>
Subject(s)
Humans , Air Pollutants , Chemistry , Cardiovascular Diseases , Epidemiology , Pathology , China , Epidemiology , Hospitalization , Particulate Matter , Chemistry , Respiratory Tract Diseases , Epidemiology , Pathology , Risk Factors , WeatherABSTRACT
"Air pollution and population health" is one of the most important environmental and public health issues. Economic development, urbanization, energy consumption, transportation/motorization, and rapid population growth are major driving forces of air pollution in large cities, especially in megacities. Air pollution levels in developed countries have been decreasing dramatically in recent decades. However, in developing countries and in countries in transition, air pollution levels are still at relatively high levels, though the levels have been gradually decreasing or have remained stable during rapid economic development. In recent years, several hundred epidemiological studies have emerged showing adverse health effects associated with short-term and long-term exposure to air pollutants. Time-series studies conducted in Asian cities also showed similar health effects on mortality associated with exposure to particulate matter (PM), sulfur dioxide (SO(2)), nitrogen dioxide (NO(2)) and ozone (O(3)) to those explored in Europe and North America. The World Health Organization (WHO) published the "WHO Air Quality Guidelines (AQGs), Global Update" in 2006. These updated AQGs provide much stricter guidelines for PM, NO(2), SO(2) and O(3). Considering that current air pollution levels are much higher than the WHO-recommended AQGs, interim targets for these four air pollutants are also recommended for member states, especially for developing countries in setting their country-specific air quality standards. In conclusion, ambient air pollution is a health hazard. It is more important in Asian developing countries within the context of pollution level and population density. Improving air quality has substantial, measurable and important public health benefits.
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Objectine:To study the cytotoxicity of extracts of dominant indoor airborne fungal culture. Methods:Chinese hamster lung(CHL) cell culture was carried out in vitro.Cells were exposed to extracts of dominant indoor airborne fungal culture,then MTT method and CHL colonies assay were performed to detect their cytotoxicity.The release of cytosolic enzyme Lactate Dehydrogenase(LDH) and the fluidity of K~+,Ca~(2+) were analysed. Results:With the increase of the dose,the LDH levels in culture medium increased and the Ca~(2+) concentration inside cells increased while the K~+ concentration inside cells decreased accordingly. Conclusion:The extracts of dominant indoor airborne fungal culture could damage cell membrane,and have cytotoxicity.
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Objective To get comprehensive and quantitative evaluation of the impact of ambient air pollution on human health. Methods The approach recommended in this paper is a quantitative estimate on the health impact from exposure to air pollutants based on the internationally accepted quantitative risk assessment framework and the per unit increase in mortality or morbidity due to per unit increase of air pollutants levels. Results A schematic diagram of health-based risk assessment on air pollutants is presented. Calculation for excess deaths and excess disease cases is also provided. Conclusion This approach could be used for comparing the health effects associated with exposure to air pollutants of various Chinese cities in different time periods and is also useful in the priority setting of air pollution intervention and improvement measures and health-based cost benefit analysis.
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Objective To assess the association of air pollution with daily mortality among residents of Zhabei district in Shanghai. Methods Case,crossover analysis and conditional Logistic regression model were used to analyze the association of air pollution with daily mortality of residents in Zhabei district of Shanghai from June 2000 to December 2002. Results Using a symmetric bi,directional control sampling approach, the results obtained from a conditional logistic regression model with four reference periods after controlling for weather conditions showed that the OR of non,accidental mortality associated with each 10 ?g/m3 increment of PM10, SO2 and NO2 over a 48,hr moving average were 1.007(95%CI 1.003-1.011),1.011(95%CI 1.001-1.021),1.010(95%CI 1.000-1.020)respectively. Similar associations were observed between mortality of cardiovascular diseases and PM10, mortality of respiratory diseases and NO2. Also, PM10 was associated with mortality in a sensitivity analysis. Conclusion The acute effect of air pollution on mortality of the general population was established in Zhabei district of Shanghai.
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Objective To analyze the epidemiological data on air particulate matter and adverse health outcomes in China, and to estimate the exposure_response relationships. Methods An electronic search of relevant literature was conducted to determine the exposure_response relationship for each health outcome associated with exposure to air particulate matter, and the approach of Meta_analysis was used when there were several studies describing the same health endpoint. Results For each health outcome from morbidity to mortality changes, the relative risks were estimated when the concentration of air particulate matter increased some certain units. Conclusion The exposure_response relationships described here might be further applied to health risk assessment of air particulate matter in China.