Pollution status and distribution characteristics of indoor air bacteria in subway stations and compartments in a city of Central South China / 环境与职业医学

Background Bacteria are the most diverse and widely sourced microorganisms in the indoor air of subway stations, where pathogenic bacteria can spread through the air, leading to increased health risks. Objective To understand the status and distribution characteristics of indoor air bacterial pollution in subway stations and compartments in a city of Central South China, and to provide a scientific basis for formulating intervention measures to address indoor air bacteria pollution in subways. Methods Three subway stations and the compartments of trains parking there in a city in Central South China were selected according to passenger flow for synchronous air sampling and monitoring. Temperature, humidity, wind speed, carbon dioxide (CO2), fine particulate matter (PM2.5), and inhalable particulate matter (PM10) were measured by direct reading method. In accordance with the requirements of Examination methods for public places-Part 3: Airborne microorganisms (GB/T 18204.3-2013), air samples were collected at a flow rate of 28.3 L·min−1, and total bacterial count was estimated. Bacterial microbial species were identified with a mass spectrometer and pathogenic bacteria were distinguished from non-pathogenic bacteria according to the Catalogue of pathogenic microorganisms transmitted to human beings issued by National Health Commission. Kruskal-Wallis H test was used to compare the subway hygiene indicators in different regions and time periods, and Bonferroni test was used for pairwise comparison. Spearman correlation test was used to evaluate the correlation between CO2 concentration and total bacterial count. Results The pass rates were 100.0% for airborne total bacteria count, PM2.5, and PM10 in the subway stations and train compartments, 94.4% for temperature and wind speed, 98.6% for CO2, but 0% for humidity. The overall median (P25, P75) total bacteria count was 177 (138,262) CFU·m−3. Specifically, the total bacteria count was higher in station halls than in platforms, and higher during morning peak hours than during evening peak hours (P<0.05). A total of 874 strains and 82 species were identified by automatic microbial mass spectrometry. The results of identification were all over 9 points, and the predominant bacteria in the air were Micrococcus luteus (52.2%) and Staphylococcus hominis (9.8%). Three pathogens, Acinetobacter baumannii (0.3%), Corynebacterium striatum (0.1%), and Staphylococcus epidermidis bacilli (2.2%) were detected in 23 samples (2.6%), and the associated locations were mainly distributed in train compartments during evening rush hours. Conclusion The total bacteria count in indoor air varies by monitoring sites of subway stations and time periods, and there is a risk of opportunistic bacterial infection. Attention should be paid to cleaning and disinfection during peak passenger flow hours in all areas.

Research progress on relationship between air pollutant exposure during early life and neurodevelopmental disorders in children / 环境与职业医学

In recent years, the effects of air pollutants on the neurodevelopmental disorders in children have received widespread attention. Early life is a critical period of rapid brain development, and exposure to air pollutants during this period may permanently alter brain function. This paper reviewed the epidemiological studies on the association between exposure to air pollutants during early life and children's neurodevelopmental disorders in recent years, with focus on outdoor air pollutants (e.g., PM2.5, PM10, NOx, and CO) and indoor air pollutants (e.g., cooking oil fumes, tobacco and mosquito incense smoke, and formaldehyde from home decoration), and summarized their possible biological mechanisms. Most studies indicate that pollutants in different periods and at different levels of exposure during early life can negatively affect children's neurodevelopment and that there may be a dose-response relationship between certain air pollutants and children's neurodevelopment. Current research on the effects of indoor air pollutants on children's neurodevelopment focus on exposure to tobacco smoke, while other indoor air pollutants such as cooking oil fumes and organic compounds produced by interior decorative materials are less well reported and their underlying biological mechanisms are not yet clear. Further epidemiological studies, animal and cellular experiments are needed to provide evidence for the neurodevelopmental toxicity of air pollutant exposure in the future, aiming to provide a theoretical basis for environmental eugenics and promote healthy development of children.

Culturable microbiological profile of a non-sterile drugs pharmaceutical production environment

Abstract For places where non-sterile drug production occurs, regulatory bodies recommend monitoring of the environmental bioburden. This procedure provides information regarding possible microbiological risks to which the products may be exposed, so that subsequent action measures may be implemented. The aim of the present work was to quantify and characterize the microorganisms present in Grade D (ISO 8) cleanrooms of a Brazilian pharmaceutical industry, identifying any possible seasonal climatic influences on these environments. Sampling was performed by surface and air monitoring, over 12 months during the year 2019, in rooms that were in operation. For both sampling methods, no statistically significant differences in bacteria and fungi counts were found between months or seasonal periods. Microorganisms that presented higher incidence included Staphylococcus epidermidis (15%) and Micrococcus spp. (13%), common to the human microbiota, and the fungi Cladosporium sp. (23%) and Penicillium sp. (21%), typical of the external environment. The results showed that microbial contamination in the Grade D cleanrooms was within the permissible maximum levels and remained similar throughout the year. Microbiological quality control in the clean areas of the pharmaceutical industry investigated was considered effective, with regular maintenance being necessary to keep bioburden levels controlled.

To Study the Effect of Interventions to Reduce the Indoor Air Pollution in Asthmatic Children of Rural India

Background: Around 2.6 billion people cook their food using biomass fuel (BMF), kerosene oil, and coal fuel, by which each year, 4 million people die prematurely from household air pollution or by this inefficient cooking practices. So, this study was planned to measure the effect of interventions of cooking fuel (BMF to LPG) to reduce the indoor air pollution in asthmatic children of rural India. Methods: Prospective observational study was done by door-to-door survey, among school-age children. Households of asthmatic children were encouraged to change their cooking fuel to more secure and were followed up for a period of 9 months. The intervention was in the form of a change of cooking fuel (from BMF to LPG) and proper education. The levels of indoor pollutants (PM10, PM2.5, and PM1) were measured before and after 3 months of follow-up. Result: A total of 56 asthmatic children from 42 households were followed-up for the following 9 months at every 3 months visit. The mean age was 9.27 ± 3.94 years with an equivalent sex ratio. There was at least one smoker in 73.81% of households of asthmatic children. Nearly, 45% of children were living in 101–500 square yard area and 67.86% with the inhabitation of ? 3/room. The level of all particulate matter decreased significantly at 3 months (p < 0.05). At 3, 6, 9 months of follow-up, respiratory symptoms and morbidity significantly diminished. Conclusion: The change in cooking fuel to more secure was found to be one of the factors decreasing indoor pollutants and respiratory symptoms/morbidity among asthmatic children in rural areas.

Indoor Air Quality Assessment in the Office of the Transformer Manufacturing Factory in Selangor, Malaysia

@#Introduction: As humans spend 90% of their time inside, indoor air quality (IAQ) is critical for occupant health. The primary concern associated with low IAQ is its impact on employees’ health, comfort, and productivity. In accordance with the Industry Code of Practice on Indoor Air Quality 2010 (ICOP IAQ 2010), a ten-parameter assessment was conducted in the office of the transformer manufacturing factory in Selangor, Malaysia. Methods: The measured parameters are temperature, air movement, relative humidity, carbon dioxide (CO2 ), carbon monoxide (CO), formaldehyde (CH2 O), particulate matter (PM10), total volatile organic compounds (TVOCs), total fungal count (TFC), and total bacterial count (TBC). This study employed both qualitative and quantitative approaches by distributing questionnaires (N = 42), and measuring the indoor air quality parameters with integrated equipment at selected stations and comparing them to the ICOP IAQ 2010 standard. Results: A majority of the measures, with the exception of air movement, CO2 , and TBC, complied with the ICOP IAQ 2010 standards. The one-way ANOVA test showed that there were significant differences (p < 0.05) for the parameters of temperature, PM10, and TVOCs. The ChiSquare test revealed that sleepiness was a symptom of the sick building syndrome, affecting both male and female employees the most frequently and significantly. Conclusion: Air movement, CO2 , and TBC values that did not meet ICOP IAQ 2010 requirements revealed poor IAQ at the study site, which could have a negative influence on the employees’ health. To cut down on air pollution, the improvement on the ventilation system should be done to reduce the risks to the employees’ health.

Wind-driven roof turbines' effectiveness in enhancing household ventilation: a potential tool to reduce tuberculosis infection

Background: South Africa's overburdened healthcare systems have led to criticism of its unsustainable tuberculosis management interventions. In 2011, the National Department of Health implemented an outpatient, decentralised care model, but this increased costs and jeopardised the long-term viability of prevention measures. Home confinement is now recognised as a viable intervention option, when combined with safety precautions such as ventilation and medical support. However, little is known about the risk of infection in this context. Objectives: To assess the effectiveness of wind-driven roof turbines in enhancing ventilation and their potential to lower the risk of Mycobacterium tuberculosis infection in a residential setting. Methods: Eight houses were selected and divided equally into intervention (wind turbines installed) and control groups, using a pairwise comparison method. The CO2 decay method was used as a proxy to determine ventilation in the houses. The wind-driven roof turbines' potential to lower the risk of Mycobacterium tuberculosis infection was stochastically evaluated using the Wells-Riley mathematical model. Results: During two seasons, installation of a roof turbine resulted in twofold ventilation rates compared to the control houses. Consequently, the WellsRiley model predicted a twofold reduction in the probability of infection in the intervention compared to the control households. Conclusion: Low-cost, low-maintenance wind-driven roof turbines are effective in increasing ventilation in houses, and should be considered as an additional layer of protection against Mycobacterium tuberculosis and other infections in residential settings.

Impacto do uso de produtos de tabaco aquecido (HTP) na qualidade do ar em ambientes fechados / Impact of the use of heated tobacco products (HTP) on indoor air quality

Resumo Introdução: Os produtos de tabaco aquecido (HTP) têm ganhado popularidade nos últimos anos. No entanto, tem-se questionado sobre os danos que provocam na saúde, em especial aos impactos decorrentes da exposição a suas emissões. O objetivo deste estudo é avaliar o impacto do uso de HTPs em ambientes internos/fechados na qualidade do ar e/ou na saúde das pessoas expostas passivamente, por meio de uma revisão sistemática de estudos originais. Métodos: Realizou-se busca bibliográfica nas bases de dados Medical Literature Analysis and Retrieval Sistem (MEDLINE), Excerpta Medica Database (EMBASE), Literatura Latino-Americana e do Caribe em Ciências da Saúde (LILACS) e SCOPUS. As etapas de seleção, extração dos dados e avaliação do risco de viés dos estudos foi realizada em dupla, de forma independente, e as divergências foram resolvidas por consenso. Resultados: Foram selecionados 21 estudos, incluídos nesta revisão. Os resultados indicam que os produtos de tabaco aquecido são fonte de poluição ambiental decorrente da emissão de material particulado. Conclusão: Os produtos de tabaco aquecido produzem emissões que podem expor as pessoas às substâncias tóxicas emitidas no ambiente fechado, assim como outros produtos de tabaco.

Abstract Introduction: Heated tobacco products (HTP) have gained popularity in recent years. However, questions have been raised about the damage they cause to health, especially the impacts resulting from exposure to their emissions. This study aims to evaluate the impact of the use of HTPs indoors on air quality and/or the health of passively exposed people, through a systematic review of original studies. Methods: A bibliographic search was carried out in the Medical Literature Analysis and Retrieval System (MEDLINE), Excerpta Medica Database (EMBASE), Latin American and Caribbean Health Sciences (LILACS) and SCOPUS databases. Results: 21 studies were selected and included in this review. The results indicate that heated tobacco products are a source of environmental pollution due to the emission of particulate matter. The stages of selection, data extraction and risk of bias assessment of the studies were performed in pairs, independently, and disagreements were resolved by consensus. Conclusion: Heated tobacco products produce emissions that can expose people to toxic substances emitted indoors, just like other tobacco products.

#covidisairborne: produção e circulação de evidências sobre a transmissão da covid-19 / #covidsairborne: production and circulation of evidence on covid-19 transmission

Esta tese investiga a produção e circulação de evidências científicas sobre a transmissão do SARS-CoV-2, com ênfase no debate científico em torno da transmissão viral por aerossóis e a implicação de diferentes entendimentos nas práticas de prevenção adotadas ao redor do mundo. De cunho etnográfico, a pesquisa foi conduzida a partir da hashtag #covidisairborne, de importante repercussão entre cientistas e ativistas na rede social Twitter, e analisou diversos materiais digitais como artigos científicos, entrevistas, newsletters e tuítes publicados sobre o tema na rede conforme circulavam no campo, além de acompanhar o trabalho de um laboratório de pesquisa em aerossóis. A chegada da covid teria intensificado a disputa em torno das formas de transmissão viral, transformando-a em questão pública com repercussão nas práticas de proteção disseminadas durante a pandemia. Diante das evidências científicas relacionadas à transmissão, os fatos científicos se apresentam de forma contextual e implicada em distintos discursos e intenções para a condução da crise sanitária. A pandemia de covid teria acelerado o reconhecimento da qualidade do ar interno como um problema de saúde pública que chama a atenção para o ar que respiramos, e as estratégias para a mitigação dos riscos associados ao "novo normal" precisam ser informadas por princípios de justiça social e direito à saúde. (AU)

This work investigates the production and circulation of scientific evidence on the transmission of SARS-CoV-2, with an emphasis on the scientific debate surrounding aerosol viral transmission and the implications of different understandings in prevention practices adopted around the world. Ethnographically driven, the research was conducted from the hashtag #covidisairborne, which had significant repercussion among scientists and activists on the social media platform Twitter, and analyzed various digital materials such as scientific articles, interviews, newsletters, and tweets published on the network as they circulated in the field, as well as following the work of an aerosol research laboratory. The advent of covid is said to have intensified the dispute over the modes of viral transmission, turning it into a public issue with repercussions on the disease prevention practices disseminated during the pandemic. In the face of scientific evidence related to transmission, scientific facts present themselves in a contextual manner and are implicated in different discourses and intentions for managing the health crisis. The covid pandemic is said to have accelerated the recognition of indoor air quality as a public health issue that draws attention to the air we breathe, and strategies for mitigating risks associated with the "new normal" need to be informed by principles of social justice and the right to health. (AU)

Evaluación de la exposición a Hidrocarburos Aromáticos Policíclicos, salud renal y respiratoria en población indígena de Tocoy, San Antonio, S. L. P, México / Evaluation of exposure to polycyclic aromatic hydrocarbons, renal and respiratory health in the indigenous population of Tocoy, San Antonio, S. L. P, México

Resumen La contaminación del aire interior es un problema de salud pública, ya que afecta a unos 2.600 millones de personas en todo el mundo que siguen cocinando con combustibles sólidos como la madera, los residuos de las cosechas, etc. Esta exposición aumenta el factor de riesgo de desarrollo de enfermedades crónicas. La población indígena es muy susceptible a estar expuesta a mezclas de contaminantes del humo de leña como los Hidrocarburos Aromáticos Policíclicos (HAPs) debido a los métodos tradicionales de cocción. El objetivo de este trabajo fue evaluar la exposición a HAPs por medio de 10 metabolitos hidroxilados en orina de la población indígena de la Huasteca Potosina, mediante cromatografía de gases acoplada a espectrometría de masas; por otro lado, la salud renal y pulmonar fueron evaluadas con una prueba general de orina y la toxina urémica Indoxil sulfato, esta fue evaluada por medio cromatografía líquida de alto rendimiento, y la función pulmonar con una espirometría. Los resultados indican la presencia de metabolitos hidroxilados en el 89,47% de las muestras de orina, los más frecuentes fueron el 1-OH-PIRENO, el 1,2-OH-NAFTALENO. El Indoxil sulfato se presentó en el 100% de las muestras y la media era de 193,4 ± 91,85 gg/L En cuanto a la salud pulmonar, los resultados indican que algunos sujetos presentan patrones respiratorios regulares e irregulares. Estos resultados indican que la población se encuentra expuesta de manera crónica a una mezcla de contaminantes en el aire que podría producir el desarrollo de daño en los pulmones y los riñones y aumentar el riesgo al desarrollo de enfermedades crónicas.

Abstract Interior air pollution is a public health concern, it affects about 2.6 billion people around the world who still cook using solid fuels such as wood, crop wastes, among others. This exposition increases the risk of the development of non-communicable diseases (NCDs). The indigenous population is very susceptible to being exposed to mixtures of pollutants from the wood smoke such as Polycyclic Aromatic Hydrocarbons (PAHs) due to traditional methods of cooking, heating and waste burning. Therefore, the objective of this work was to evaluate the exposure to PAHs through the application of 10 hydroxylated metabolites (OH-PAHs) in the urine of the indigenous population from the Huasteca Potosina, this by gas chromatography coupled to mass spectrometry and to assess renal health of the population at the time of the study, with a general test of urine and through the uremic toxin Indoxyl Sulfate (IS), this by high-performance liquid chromatography, and the and pulmonary health with spirometry. The results indicate the presence OH-PAHs in 89.47% of the urine samples, the most frequent metabolites were 1-OH-PYRENE, 2-OH-NAPTHALENE. IS was present in 100% of the samples in mean concentrations of 193.4 ± 91.85 gg/L. For pulmonary health, the results indicate some subjects have regular and irregular respiratory patterns. These results indicate that the population is highly exposed to a mixture of pollutants in the air that might damage the lungs and kidneys and increase the risk of NCDs development.

Determination of concentrations of indoor air pollutants emitted from briquette combustion / Монголын Анагаах Ухаан

Introduction@#This field assessment was performed to ensure the effective implementation of Order No. A/142 of the Deputy Prime Minister of Mongolia dated 30^th December 2021 and Order No. A/01 of the Head of the National Committee for Reducing Environmental Pollution dated 3^rd January 2022 and to monitor the level of indoor air pollutants emitted from traditional stoves and standard stoves. @*Purpose@#To determine the level of indoor air pollutants emitted from briquette combustion and to develop recommendations by comparing various types of stoves and dwellings. @*Materials and Methods@#Through analytical cross-sectional designs, three households from Songinokhairkhan district and one household from Chingeltei district were selected to participate in this assessment as they use briquettes for heating, vary in their dwelling types (ger (traditional Mongolian tent), house) and their stove types (traditional, standard), stay home during the day and chose to participate in the assessment. 24-hour continuous measurements were conducted for each dwelling and before taking measurements, we calibrated and adjusted the air suction velocity of the measuring instrument at the Central Metrology Laboratory. The monitor was placed at a distance of 0.5m from the stove and a height of 0.5-1.0m from the floor. The results were then compared with the Mongolian National Standard “General air quality and technical requirements MNS4585:2016” and WHO Guidelines for Indoor Air Quality 2021. Statistical analysis was performed using SPSS 24.0 software, mean, ANOVA test, and if the p-value is less than 0.05, our results are statistically significant.@*Results@#The concentration level of SO₂ in houses with “Dul” stoves was within the level specified in the Mongolian standard MNS4585: 2016 and WHO Guidelines for Indoor Air Quality 2021, while 24-hour SO₂ concentration in gers and houses with traditional stoves was 1.3-2.92 times higher than the standards. The 24-hour average concentration of nitrogen dioxide in houses with traditional stoves was 1.73 times higher than the Mongolian air quality standard MNS4585: 2016. There were statistically significant differences in the emission levels of SO₂ and NO₂ depending on dwelling and stove types (df=4, f=4.04, p=0.008 and df=4, f=17.17, p=0.001, respectively.). The 8-hour average (10,000 μg/m3) CO concentration was statistically significant for various types of dwellings and stoves (df=4, f=45.17, p=0.001), whereas there was a statistically significant difference in CO concentrations in gers with traditional stoves and gers with standard stoves in terms of morning, afternoon, and evening hours (df=3, f=33.17, p=0.001). @*Conclusion@#Indoor air pollutants in the households except for houses with “Dul” stoves have been determined to exceed the air quality standards set by the Mongolian air quality standards and WHO Guidelines for Indoor Air Quality 2021.

Assessment of secondary school indoor air quality / Монголын Анагаах Ухаан

Introduction@#During this pandemic, overcrowding in classroom caused by a lack of educational facilities and poor indoor air quality are the main causes of respiratory diseases among children and adolescents. Therefore, it is essential to measure and assess the indoor air quality where children spend extended periods of time such as school. @*Materials and methods@#This study covered four schools with old buildings and four schools with new buildings in Bayanzurkh, Sukhbaatar, Khan-Uul, Chingeltei district of Ulaanbaatar. We collected PM10 and PM2.5, carbon dioxide, air temperature, humidity, and microbiological count from chosen classrooms and compared to the MNS4585:2016 standard. SPSS-24 was used to do statistical analysis on the information gathered during the evaluation.@*Results and Discussion@#The 24-hour average PM2.5 concentration was 64.3 (95% CI: 64.1-64.5) mcg/m3, which was 4.3 times higher than the WHO guideline value and 1.3 times higher than the MNS4585:2016 standard. The 24-hour average PM10 concentration was 85.3 (95 % CI: 85.1-85.6) mcg/m3, which is 1.9 times higher than WHO guideline value. In older school buildings, the 24-hour average PM2.5 concentration was 5.6 times higher than the WHO guideline value and 1.7 times higher than the MNS4585:2016; the average PM10 concentration was 2.8 times higher than the WHO guideline value and 1.3 times higher than the MNS4585:2016. The air temperature and carbon dioxide concentration in classroom was met the MNS4585: 2016. The average relative humidity of all schools is 24.2±6.5%, which is 14-16% lower than the MNS4585: 2016. @*Conclusion@#The indoor air quality of the school in new and old buildings was similar poor, therefore a variety of steps are needed to improve it.

Indoor Air Quality Level at Medical Clinics, University Hospital in Klang Valley, Malaysia

@#Introduction: Patient health can be influenced by indoor air quality (IAQ) level, where the risks of IAQ pollution are proportionate with the occupant number in the clinic. This research aims to determine the level of IAQ in Medical Clinic 1 and 2 of University Hospital in Klang Valley, Malaysia. Methods: The indoor exposure to physical (temperature, relative humidity and air movement), chemical (formaldehyde, CO2 , CO, TVOC and PM10) and biological (bacterial and fungal count) parameters following Industry Code of Practice (ICOP) IAQ (2010) were assessed in the morning and afternoon using relevant equipment. Data was analysed with One-Sample T Test and Independent T Test using SPSS Version 25. Results: No statistically significant mean difference (p>0.05) of IAQ parameters between both Medical Clinics (morning & afternoon) except for Rh and CO by Independent T Test analysis. In contrast, the One-Sample T Test showed there was statistically significant mean difference (p<0.01) of all parameters as compared to the ICOP (2010) standard in both Medical Clinics (morning and afternoon). There was a positive correlation of CO2 , CO and formaldehyde with bacterial counts (TBC) for both Medical Clinics. Meanwhile, CH2 O concentration was slightly higher in the morning due to the usage of cleaning products which may have released CH2 O gas killing the bacteria, thus lower the rate of bacterial growth in the afternoon. Fungal counts showed no significant impact. Conclusion: All measured parameters were complied with the ICOP (2010) standard except air movement and CO2 in both Medical Clinics.

Advances on association between indoor air pollution and 8-hydroxydeoxyguanosine in human urine / 环境与职业医学

8-hydroxydeoxyguanosine (8-OHdG) in human urine is a marker reflecting oxidative stress and DNA oxidative damage. People spend 80%-90% of their life indoors; therefore, indoor air quality is directly related to human health. In this paper, the urinary 8-OHdG levels were presented in populations grouped by different demographic characteristics, lifestyle, occupational exposure, and health status, and elucidated indoor pollutants affecting human urinary 8-OHdG level, such as pollutants from outdoor sources, smoking, indoor combustion and cooking fumes, the chemicals in interior decoration materials, and building foundation soils. The article aims to provide a theoretical basis for predicting the impact of indoor air pollution on human health (DNA oxidative damage and related diseases) by measuring the concentration of 8-OHdG in human urine.

Influencing factors of pulmonary ventilation function and its relationship with indoor air pollution in rural areas of Gansu Province / 环境与职业医学

Background Indoor air pollution is an important risk factor affecting health of the respiratory system. Studies on indoor air pollution in China are mostly limited to the central and eastern regions, and there are few studies in the rural areas of northwest China. Objective To explore the influencing factors of lung ventilation function and its relationship with indoor air pollution in rural areas of Gansu Province based on a cross-sectional investigation. Methods A total of 399 subjects were selected from four villages in Baiyin and Yuzhong of Gansu Province. Questionnaires were used to collect demographic information, lifestyle, disease history, fuel use, and other information, and physical and functional tests were ordered such as height, weight, and lung function. The Indoor Air Pollution (IAP) exposure index was calculated based on smoking, fuel type, and weekly ventilation. IAP > 5 was defined as a high level of indoor air pollution. Lung function indexes included forced vital capacity (FVC), forced expiratory volume in the first second (FEV1), FEV1/FVC, forced vital capacity as a percentage of predicted value (FVC%), and forced expiratory volume in the first second as a percentage of predicted value (FEV1%), which were used to determine pulmonary ventilation dysfunction. Logistic regression model was used to evaluate the relationship between indoor air pollution and pulmonary ventilation function, and subgroup analysis was further conducted according to home address and BMI , in order to identify the high-risk population of pulmonary ventilation dysfunction. Results The mean age of the subjects was (56.75±7.31) years old; 155 subjects (38.85%) had normal pulmonary ventilation function, and the other 244 subjects (61.14%) had impaired pulmonary ventilation function; about 89.97% of the subjects were exposed to high level of indoor air pollution (IAP > 5). We found that IAP > 5 (OR=2.327, 95%CI: 1.089-4.974) and use of bituminous coal as the main heating fuel in winter (OR=3.467, 95%CI: 1.197-10.037) increased the risk of pulmonary ventilation dysfunction after adjusting for age, BMI, residence, gender, smoking, drinking, and cardiovascular disease. The subgroup analysis results showed that no ventilation in the living room/bedroom (OR=3.460, 95%CI: 1.116-10.268) increased the risk of pulmonary ventilation dysfunction in Baiyin. Heating with coal stoves and Chinese Kang in the bedroom (OR=2.092, 95%CI: 1.030-4.247) and cooking in the bedroom in winter ( OR =2.954, 95% CI : 1.046-8.344) also increased the risk of pulmonary ventilation dysfunction in the residents with BMI≤24 kg·m−2. IAP > 5 (OR=3.739, 95%CI: 1.147-12.182) was associated with a significantly increased risk of pulmonary ventilation dysfunction in the BMI > 24 kg·m−2 subgroup. Conclusion The pulmonary ventilation function of rural residents in Gansu is poor, which is negatively correlated with indoor air pollution. Coal use, overweight, cooking in bedroom, and use of coal stoves and Chinese Kang for heating may increase the risk of pulmonary ventilation dysfunction, while room ventilation is a beneficial factor.

Pollution characteristics of total volatile organic compounds in indoor air of urban residential buildings in China / 环境与职业医学

Total volatile organic compounds (TVOCs) are the main indoor pollutants. Long-term exposure to excessive TVOCs will cause acute and chronic adverse health effects. In order to understand current indoor TVOCs pollution in urban residential buildings in China, we searched related literature of indoor TVOCs in urban residential buildings published in CNKI, Wanfang, VIP, Web of Science, and PubMed from 2000 to 2021, and analyzed the pollution characteristics and main sources of indoor TVOCs in urban residential buildings in China. The results showed that the average TVOCs concentration range in urban residential buildings in China was 0.18-1.45 mg·m−3, which was widely distributed and exceeded the relevant national standard. The concentrations of TVOCs in bedrooms, study rooms, and kitchens were relatively high among different rooms. Indoor sources such as decoration materials and human activities after moving in were the main sources of TVOCs, and the concentration of TVOCs decreased the most in 4-6 months after the completion of decoration. However, extending the vacancy time after the completion of decoration is not the best method to effectively remove indoor TVOCs, especially for the areas where indoor air pollutants severely exceeding the national limit, it is necessary to control pollution sources to reduce indoor TVOCs concentration. For the study of indoor air TVOCs, future study directions could be the ratio of indoor and outdoor TVOCs concentration and the analysis of indoor human activities and other pollution sources.

A review of progress in research of relationship between air pollution and perinatal depression / 环境与职业医学

In recent years, the increasing incidence of perinatal depression has become an important public health problem. In addition to the traditional social demographic factors, biological factors, obstetric factors, etc., the association between air pollution and perinatal depression (PND) has also attracted more and more attention. In this paper, studies on the association between air pollution and PND were reviewed, especially the associations of PND with ambient air pollutants such as PM2.5, PM10, NO2, and O3 as well as indoor air pollutants such as tobacco smoke, and the characteristics and possible biological mechanisms of the influence of different pollutants on PND were summarized. Based on the available studies, various outdoor air pollutants are associated with PND, and some pollutants may exhibit a dose-response relationship with it. As for indoor air pollution, studies only have focused on the impact of tobacco exposure on PND, and as yet, no study has explored the association between other indoor pollutants (e.g. cooking oil smoke and solid fuel) and PND. Current studies indicate that air pollution may act on PND through oxidative stress and neuroendocrine mechanisms, but the exact biological mechanism remains to be further studied. In the future, further studies should be encouraged on the epidemiological associations of other indoor air pollutants with PND and the interactions between other factors and air pollution on PND, and the underlying biological mechanisms, to provide new insights for the prevention of PND from the perspective of environmental health.

Association between Environmental Factors and the Incidence of Acute Respiratory Infection in Children under Five in East Nusa Tenggara, Indonesia

@#Introduction: ARI (Acute Respiratory Infection) is one of the main causes of death among children under five in many countries worldwide. In Indonesia, 10% of ARI cases occur in East Nusa Tenggara, which is the highest prevalence of ARI in this country, with 90% of them leading to under-five mortality. There are various factors that cause the prevalence of ARI. In East Nusa Tenggara itself, environmental factors are suspected to be the risk factors for this disease. This study aims to analyse the association between environmental factors and the incidence of ARI among children under five years old in East Nusa Tenggara. Methods: A cross-sectional study was conducted by analysing secondary data sets obtained from DHS, with a total of 337 subjects examined in this study. Multivariate logistic regression was applied to investigate the association between ARI and various environmental factors. Results: This study found that the prevalence of ARI among children under five years old in East Nusa Tenggara was 9.04% of all subjects. ARI was significantly associated with the types of residence (OR 2.2, 95%CI 1.1-4.3) and passive smoking status (OR 4.7, 95%CI 1.8-12.4) as its risk factors. In addition, there was strong association between ARI and the types of roof (OR 3.3, 95%CI 1.3-8.9) as its protective factor. Conclusion: Based on the findings of this study, it can be concluded that the incidence of ARI in children under five years old was closely associated with residential area, smoke exposure, and roof materials.

An extended analysis of cardiovascular benefits of indoor air filtration intervention among elderly:a randomized crossover trial(Beijing indoor air purifier study,BIAPSY) / 《全球健康杂志（英文）》

Objective:Evidence on potential cardiovascular benefits of personal-level intervention among the elderly exposed to high levels of particulate matter(PM)remains limited.We aimed to assess improvements in surrogate markers of cardiovascular injury in vulnerable populations at risks by using indoor air filtration units.Methods:We conducted a randomized crossover trial for 2 separate 2-week air filtration interventions in 20 households of patients with stable chronic obstructive pulmonary disease and their partners in the winter of 2013,with concurrent measurements of indoor PM.The changes in biomarkers indicative of cardiac injury,atherosclerosis progression and systemic inflammation following intervention were evaluated using linear mixed-effect models.Results:In the analysis,average levels of indoor PM with aerodynamic diameters＜2.5 μm(PM2.5)decreased significantly by 59.2％(from 59.6 to 24.3 μg/m3,P＜0.001)during the active air filtration.The reduction was accompanied by improvements in levels of high-sensitivity cardiac troponin I by-84.6％(95％confidence interval[CI]:-90.7 to-78.6),growth differentiation factor-15 by-48.1％(95％CI:-31.2 to-25.6),osteoprotegerin by-65.4％(95％CI:-56.5 to-18.7),interleukin-4 by-46.6％(95％CI:-62.3 to-31.0)and myeloperoxidase by-60.3％(95％CI:-83.7 to-3.0),respectively.Conclusion:Indoor air filtration intervention may provide potential cardiovascular benefits in vulnerable popu-lations at risks.

Translation and adaptation of the indoor environmental quality questionnaire to Brazilian portuguese

Introduction: Indoor environmental quality (IEQ) impacts well-being, performance, and mental and physical health. A questionnaire for assessing occupants' perception of IEQ was developed in English. This study aimed to translate this instrument into Brazilian Portuguese and adapt it to the Brazilian population.Methods: The translation and adaptation process consisted of forward translation, reconciliation, back translation, back translation review, harmonization, two cognitive debriefings, and finalization.Results: The final translated version included new questions and changed the scale to a visual-analog format. The clarity assessment showed that, after cognitive debriefings, all questions displayed satisfactory scores, with the majority rated higher than 9 on a 0-10 scale.Conclusions: The Brazilian Portuguese version of the IEQ questionnaire is a simple tool that can be employed in biomedical and building research to investigate the association of perceived IEQ with health-related parameters, as well as in architecture, engineering, and management projects. As a next step, a psychometric validation of the instrument will be performed.

Association between household solid fuel use and tuberculosis: cross-sectional data from the Mongolian National Tuberculosis Prevalence Survey

BACKGROUND@#Tuberculosis (TB) and indoor air pollution (IAP) are equally critical public health issues in the developing world. Mongolia is experiencing the double burden of TB and IAP due to solid fuel combustion. However, no study has assessed the relationship between household solid fuel use and TB in Mongolia. The present study aimed to assess the association between household solid fuel use and TB based on data from the Mongolian National Tuberculosis Prevalence Survey (MNTP Survey).@*METHOD@#The MNTP Survey was a nationally representative population-based cross-sectional survey targeting households in Mongolia from 2014 to 2015, with the aim of evaluating the prevalence of TB. The survey adopted a multistage cluster sampling design in accordance with the World Health Organization prevalence survey guidelines. Clusters with at least 500 residents were selected by random sampling. A sample size of 98 clusters with 54,100 participants was estimated to be required for the survey, and 41,450 participants were included in the final analysis of the present study. A structured questionnaire was used to collect information on environmental and individual factors related to TB. Physical examination, chest X-ray, and sputum examinations were also performed to diagnose TB.@*RESULTS@#The use of solid fuels for heating (adjusted odds ratio (aOR): 1.5; 95% confidence interval (CI): 1.1-2.1), male gender (aOR: 2.2; 95% CI: 1.6-3.2), divorced or widowed (aOR: 2.6; 95% CI: 1.7-3.8), daily smoker (aOR: 1.8; 95% CI: 1.3-2.5), contact with an active TB case (aOR: 1.7; 95% CI: 1.2-2.3), being underweight (aOR: 3.7; 95% CI: 2.4-5.7), and previous history of TB (aOR: 4.3; 95% CI: 3.0-6.1) were significantly associated with bacteriologically confirmed TB after adjusting for confounding variables.@*CONCLUSION@#The use of solid fuels for heating was significantly associated with active TB in Mongolian adults. Increased public awareness is needed on the use of household solid fuels, a source of IAP.