Dimpalben Patel1, Le Jian2, Jianguo Xiao3, Janis Jansz4, Grace Yun5, Andrew Robertson6. 1. School of Public Health, Curtin University, Perth, Western Australia, Australia. Electronic address: Dimpalben.Patel@curtin.edu.au. 2. Epidemiology Branch, Public and Aboriginal Health Division, Department of Health, East Perth, Western Australia, Australia; School of Public Health, Curtin University, Perth, Western Australia, Australia. Electronic address: le.jian@health.wa.gov.au. 3. Epidemiology Branch, Public and Aboriginal Health Division, Department of Health, East Perth, Western Australia, Australia. Electronic address: Jianguo.Xiao@health.wa.gov.au. 4. School of Public Health, Curtin University, Perth, Western Australia, Australia. Electronic address: j.jansz@curtin.edu.au. 5. Epidemiology Branch, Public and Aboriginal Health Division, Department of Health, East Perth, Western Australia, Australia. Electronic address: Grace.Yun@health.wa.gov.au. 6. Epidemiology Branch, Public and Aboriginal Health Division, Department of Health, East Perth, Western Australia, Australia. Electronic address: Andrew.Robertson@health.wa.gov.au.
Abstract
BACKGROUND: As global warming and the frequency and intensity of heatwaves increases, health service utilization, including emergency department attendances (EDA) have correspondingly increased across the world. The impact of air quality on health adds to the complexity of the effects. Potential joint effects between heatwaves and air quality on EDA have been rarely reported in the literature, prompting this study. OBJECTIVES: To investigate the potential joint effect of heatwaves and air quality on the EDA for vulnerable populations in the Perth metropolitan area, Western Australia. METHODS: A time series design was used. Daily data on EDA, heatwaves (excess heat factor>0) and air pollutants (CO, SO2, NO2, O3, PM10 and PM2.5) were collected for Perth, Western Australia from 2006 to 2015. Poisson regression modelling was used to assess the associations between heatwaves, air quality, and EDA. Risk assessments on age, gender, Aboriginality, socio-economic status (SES), and joint effect between heatwaves and air quality on EDA were conducted. RESULTS: The EDA rate was higher in heatwave days (77.86/100,000/day) compared with non-heatwave days (73.90/100,000/day) with rate ratio of 1.053 (95% confidence interval 1.048, 1.058). The EDA rate was higher in males, people older than 60 years or younger than 15 years, Aboriginal people, and people with low SES. Exposure to CO, SO2, O3 and PM2.5 increased risk on EDA and exposure to PM2.5 showed joint effect with heatwave and increased risk of EDA by 6.6% after adjustment of all other risk factors. CONCLUSIONS: EDA is an important indicator to evaluate heatwave related morbidity for emergency medical service as EDA rate increased during heatwaves with relative high concentrations of air pollutants. As all air pollutants measured in the study were lower than the Australian National Standards, the joint effect of heatwaves and air quality needs to be further examined when it exceeds the standards.
BACKGROUND: As global warming and the frequency and intensity of heatwaves increases, health service utilization, including emergency department attendances (EDA) have correspondingly increased across the world. The impact of air quality on health adds to the complexity of the effects. Potential joint effects between heatwaves and air quality on EDA have been rarely reported in the literature, prompting this study. OBJECTIVES: To investigate the potential joint effect of heatwaves and air quality on the EDA for vulnerable populations in the Perth metropolitan area, Western Australia. METHODS: A time series design was used. Daily data on EDA, heatwaves (excess heat factor>0) and air pollutants (CO, SO2, NO2, O3, PM10 and PM2.5) were collected for Perth, Western Australia from 2006 to 2015. Poisson regression modelling was used to assess the associations between heatwaves, air quality, and EDA. Risk assessments on age, gender, Aboriginality, socio-economic status (SES), and joint effect between heatwaves and air quality on EDA were conducted. RESULTS: The EDA rate was higher in heatwave days (77.86/100,000/day) compared with non-heatwave days (73.90/100,000/day) with rate ratio of 1.053 (95% confidence interval 1.048, 1.058). The EDA rate was higher in males, people older than 60 years or younger than 15 years, Aboriginal people, and people with low SES. Exposure to CO, SO2, O3 and PM2.5 increased risk on EDA and exposure to PM2.5 showed joint effect with heatwave and increased risk of EDA by 6.6% after adjustment of all other risk factors. CONCLUSIONS:EDA is an important indicator to evaluate heatwave related morbidity for emergency medical service as EDA rate increased during heatwaves with relative high concentrations of air pollutants. As all air pollutants measured in the study were lower than the Australian National Standards, the joint effect of heatwaves and air quality needs to be further examined when it exceeds the standards.
Authors: Rongbin Xu; Qi Zhao; Micheline S Z S Coelho; Paulo H N Saldiva; Michael J Abramson; Shanshan Li; Yuming Guo Journal: PLoS Med Date: 2020-10-08 Impact factor: 11.069
Authors: Minxuan Zheng; Jiahua Zhang; Lamei Shi; Da Zhang; Til Prasad Pangali Sharma; Foyez Ahmed Prodhan Journal: Int J Environ Res Public Health Date: 2020-09-10 Impact factor: 3.390