Your search keyword '"Alana Hansen"' showing total 129 results

1. Current and future burden of Ross River virus infection attributable to increasing temperature in Australia: a population-based studyResearch in context

Author

Yohannes Tefera Damtew, Blesson Mathew Varghese, Olga Anikeeva, Michael Tong, Alana Hansen, Keith Dear, Ying Zhang, Geoffrey Morgan, Tim Driscoll, Tony Capon, Michelle Gourley, Vanessa Prescott, and Peng Bi

Subjects

Ross River virus, Burden of disease, Climate change, Attributable burden, Adaptation, Public aspects of medicine, RA1-1270

Abstract

Summary: Background: Ross River virus (RRV), Australia's most notifiable vector-borne disease transmitted through mosquito bites, has seen increased transmission due to rising temperatures. Quantifying the burden of RRV infection attributable to increasing temperatures (both current and future) is pivotal to inform prevention strategies in the context of climate change. Methods: As RRV-related deaths are rare in Australia, we utilised years lived with disability (YLDs) associated with RRV infection data from the Australian Institute of Health and Welfare (AIHW) Burden of Disease database between 2003 and 2018. We obtained relative risks per 1 °C temperature increase in RRV infection from a previous meta-analysis. Exposure distributions for each Köppen-Geiger climate zone were calculated separately and compared with the theoretical-minimum-risk exposure distribution to calculate RRV burden attributable to increasing temperatures during the baseline period (2003–2018), and projected future burdens for the 2030s and 2050s under two greenhouse gas emission scenarios (Representative Concentration Pathways, RCP 4.5 and RCP 8.5), two adaptation scenarios, and different population growth series. Findings: During the baseline period (2003–2018), increasing mean temperatures contributed to 35.8 (±0.5) YLDs (19.1%) of the observed RRV burden in Australia. The mean temperature attributable RRV burden varied across climate zones and jurisdictions. Under both RCP scenarios, the projected RRV burden is estimated to increase in the future despite adaptation scenarios. By the 2050s, without adaptation, the RRV burden could reach 45.8 YLDs under RCP4.5 and 51.1 YLDs under RCP8.5. Implementing a 10% adaptation strategy could reduce RRV burden to 41.8 and 46.4 YLDs, respectively. Interpretation: These findings provide scientific evidence for informing policy decisions and guiding resource allocation for mitigating the future RRV burden. The current findings underscore the need to develop location-specific adaptation strategies for climate-sensitive disease control and prevention. Funding: Australian Research Council Discovery Program.

Published

2024

2. Projection of high temperature-related burden of kidney disease in Australia under different climate change, population and adaptation scenarios: population-based studyResearch in context

Author

Jingwen Liu, Blesson M. Varghese, Alana Hansen, Keith Dear, Geoffrey Morgan, Timothy Driscoll, Ying Zhang, Michelle Gourley, Anthony Capon, and Peng Bi

Subjects

High temperature, Climate change, Kidney disease, Attributable risk, Burden of disease, Public aspects of medicine, RA1-1270

Abstract

Summary: Background: The dual impacts of a warming climate and population ageing lead to an increasing kidney disease prevalence, highlighting the importance of quantifying the burden of kidney disease (BoKD) attributable to high temperature, yet studies on this subject are limited. The study aims to quantify the BoKD attributable to high temperatures in Australia across all states and territories, and project future BoKD under climatic, population and adaptation scenarios. Methods: Data on disability-adjusted-life-years (DALYs) due to kidney disease, including years of life lost (YLL), and years lived with disability (YLD), were collected during 2003–2018 (baseline) across all states and territories in Australia. The temperature-response association was estimated using a meta-regression model. Future temperature projections were calculated using eight downscaled climate models to estimate changes in attributable BoKD centred around 2030s and 2050s, under two greenhouse gas emissions scenarios (RCP4.5 and RCP8.5), while considering changes in population size and age structure, and human adaptation to climate change. Findings: Over the baseline (2003–2018), high-temperature contributed to 2.7% (Standard Deviation: 0.4%) of the observed BoKD in Australia. The future population attributable fraction and the attributable BoKD, projected using RCP4.5 and RCP8.5, showed a gradually increasing trend when assuming no human adaptation. Future projections were most strongly influenced by the population change, with the high temperature-related BoKD increasing by 18.4–67.4% compared to the baseline under constant population and by 100.2–291.2% when accounting for changes in population size and age structure. However, when human adaptation was adopted (from no to partial to full), the high temperature-related BoKD became smaller. Interpretation: It is expected that increasing high temperature exposure will substantially contribute to higher BoKD across Australia, underscoring the urgent need for public health interventions to mitigate the negative health impacts of a warming climate on BoKD. Funding: Australian Research Council Discovery Program.

Published

2023

3. Effects of high temperatures and heatwaves on dengue fever: a systematic review and meta-analysisResearch in context

Author

Yohannes Tefera Damtew, Michael Tong, Blesson Mathew Varghese, Olga Anikeeva, Alana Hansen, Keith Dear, Ying Zhang, Geoffrey Morgan, Tim Driscoll, Tony Capon, and Peng Bi

Subjects

High temperature, Heatwave, Dengue fever, Climate change, Emerging infectious disease, Arboviral infections, Medicine, Medicine (General), R5-920

Abstract

Summary: Background: Studies have shown that dengue virus transmission increases in association with ambient temperature. We performed a systematic review and meta-analysis to assess the effect of both high temperatures and heatwave events on dengue transmission in different climate zones globally. Methods: A systematic literature search was conducted in PubMed, Scopus, Embase, and Web of Science from January 1990 to September 20, 2022. We included peer reviewed original observational studies using ecological time series, case crossover, or case series study designs reporting the association of high temperatures and heatwave with dengue and comparing risks over different exposures or time periods. Studies classified as case reports, clinical trials, non-human studies, conference abstracts, editorials, reviews, books, posters, commentaries; and studies that examined only seasonal effects were excluded. Effect estimates were extracted from published literature. A random effects meta-analysis was performed to pool the relative risks (RRs) of dengue infection per 1 °C increase in temperature, and further subgroup analyses were also conducted. The quality and strength of evidence were evaluated following the Navigation Guide systematic review methodology framework. The review protocol has been registered in the International Prospective Register of Systematic Reviews (PROSPERO). Findings: The study selection process yielded 6367 studies. A total of 106 studies covering more than four million dengue cases fulfilled the inclusion criteria; of these, 54 studies were eligible for meta-analysis. The overall pooled estimate showed a 13% increase in risk of dengue infection (RR = 1.13; 95% confidence interval (CI): 1.11–1.16, I2 = 98.0%) for each 1 °C increase in high temperatures. Subgroup analyses by climate zones suggested greater effects of temperature in tropical monsoon climate zone (RR = 1.29, 95% CI: 1.11–1.51) and humid subtropical climate zone (RR = 1.20, 95% CI: 1.15–1.25). Heatwave events showed association with an increased risk of dengue infection (RR = 1.08; 95% CI: 0.95–1.23, I2 = 88.9%), despite a wide confidence interval. The overall strength of evidence was found to be “sufficient” for high temperatures but “limited” for heatwaves. Our results showed that high temperatures increased the risk of dengue infection, albeit with varying risks across climate zones and different levels of national income. Interpretation: High temperatures increased the relative risk of dengue infection. Future studies on the association between temperature and dengue infection should consider local and regional climate, socio-demographic and environmental characteristics to explore vulnerability at local and regional levels for tailored prevention. Funding: Australian Research Council Discovery Program.

Published

2023

4. Evaluating cost benefits from a heat health warning system in Adelaide, South Australia

Author

Susan Williams, Monika Nitschke, Berhanu Yazew Wondmagegn, Michael Tong, Jianjun Xiang, Alana Hansen, John Nairn, Jonathan Karnon, and Peng Bi

Subjects

heat, health, warning, cost, Public aspects of medicine, RA1-1270

Abstract

Abstract Objective: To examine the cost benefits of a heat health warning system (HHWS) in South Australia. Methods: Information from key agencies was used to estimate the costs associated with the South Australian HHWS, including for three targeted public health interventions. Health cost savings were estimated based on previously reported HHWS‐attributable reductions in hospital and emergency department (ED) admissions and ambulance callouts. Results: The estimated cost for a one‐week activation of the HHWS was AU$593,000. Activation costs compare favourably with the potential costs averted through HHWS‐attributable reductions in hospital admissions and ambulance callouts with an estimated benefit‐cost ratio of 2.0–3.3. Conclusions: On the basis of estimated cost benefit, the South Australian HHWS is a no‐regret public health response to heatwaves. Implications for public health: As global temperatures rise there are likely to be significant health impacts from more frequent and intense heatwaves. This study indicates that HHWSs incorporating targeted supports for vulnerable groups are likely to be cost‐effective public health interventions.

Published

2022

5. Hospital healthcare costs attributable to heat and future estimations in the context of climate change in Perth, Western Australia

Author

Michael Xiaoliang TONG, Berhanu Yazew WONDMAGEGN, Susan WILLIAMS, Alana HANSEN, Keith DEAR, Dino PISANIELLO, Jianjun XIANG, Jianguo XIAO, Le JIAN, Ben SCALLEY, Monika NITSCHKE, John NAIRN, Hilary BAMBRICK, Jonathan KARNON, and Peng BI

Subjects

Heat-attributable disease, Hospital healthcare cost, Climate change, Perth, Australia, Meteorology. Climatology, QC851-999, Social sciences (General), H1-99

Abstract

Climate change with increasing temperature is making a significant impact on human health, including more heat-related diseases, and increasing the burden on the healthcare system. Although many studies have explored the association between increasing temperatures and negative health outcomes, research on the associated costs of heat-related diseases remains relatively sparse. Furthermore, estimations of future costs associated with heat-attributable hospital healthcare have not been well explored. This study used a distributed lag nonlinear model to estimate heat-attributable hospital healthcare costs in Perth, Western Australia. Using 2006–2012 as the baseline, future costings for 2026–2032 and 2046–2052 were estimated under RCP2.6, RCP4.5, and RCP8.5. Higher temperatures were found to be associated with increased hospital healthcare costs. The total hospital costs attributable to heat over the baseline period 2006–2012 was estimated to be 79.5 million AUD, with costs for mental health hospitalizations being the largest contributor of the heat-related conditions examined. Costs are estimated to increase substantially to 125.8–129.1 million AUD in 2026–2032, and 174.1–190.3 million AUD by midcentury under climate change scenarios. Our findings of a notable burden of heat-attributable healthcare costs now and in the future emphasize the importance of climate change adaptation measures to reduce the adverse health effects of increasing temperatures and heat exposure on the people of Perth.

Published

2021

6. Is there an association between hot weather and poor mental health outcomes? A systematic review and meta-analysis

Author

Jingwen Liu, Blesson M. Varghese, Alana Hansen, Jianjun Xiang, Ying Zhang, Keith Dear, Michelle Gourley, Timothy Driscoll, Geoffrey Morgan, Anthony Capon, and Peng Bi

Subjects

High temperature, Heatwaves, Mental health, Systematic literature review, Meta-analysis, Environmental sciences, GE1-350

Abstract

Background: Mental health is an important public health issue globally. A potential link between heat exposure and mental health outcomes has been recognised in the scientific literature; however, the associations between heat exposure (both high ambient temperatures and heatwaves) and mental health-related mortality and morbidity vary between studies and locations. Objective: To fill gaps in knowledge, this systematic review aims to summarize the epidemiological evidence and investigate the quantitative effects of high ambient temperatures and heatwaves on mental health-related mortality and morbidity outcomes, while exploring sources of heterogeneity. Methods: A systematic search of peer-reviewed epidemiological studies on heat exposure and mental health outcomes published between January 1990 and November 2020 was conducted using five databases (PubMed, Embase, Scopus, Web of Science and PsycINFO). We included studies that examined the association between high ambient temperatures and/or heatwaves and mental health-related mortality and morbidity (e.g. hospital admissions and emergency department visits) in the general population. A range of mental health conditions were defined using ICD-10 classifications. We performed random effects meta-analysis to summarize the relative risks (RRs) in mental health outcomes per 1 °C increase in temperature, and under different heatwaves definitions. We further evaluated whether variables such as age, sex, socioeconomic status, and climate zone may explain the observed heterogeneity. Results: The keyword search yielded 4560 citations from which we identified 53 high temperatures/heatwaves studies that comprised over 1.7 million mental health-related mortality and 1.9 million morbidity cases in total. Our findings suggest associations between heat exposures and a range of mental health-related outcomes. Regarding high temperatures, our meta-analysis of study findings showed that for each 1 °C increase in temperature, the mental health-related mortality and morbidity increased with a RR of 1.022 (95%CI: 1.015–1.029) and 1.009 (95%CI: 1.007–1.015), respectively. The greatest mortality risk was attributed to substance-related mental disorders (RR, 1.046; 95%CI: 0.991–1.101), followed by organic mental disorders (RR, 1.033; 95%CI: 1.020–1.046). A 1 °C temperature rise was also associated with a significant increase in morbidity such as mood disorders, organic mental disorders, schizophrenia, neurotic and anxiety disorders. Findings suggest evidence of vulnerability for populations living in tropical and subtropical climate zones, and for people aged more than 65 years. There were significant moderate and high heterogeneities between effect estimates in overall mortality and morbidity categories, respectively. Lower heterogeneity was noted in some subgroups. The magnitude of the effect estimates for heatwaves varied depending on definitions used. The highest effect estimates for mental health-related morbidity was observed when heatwaves were defined as “mean temperature ≥90th percentile for ≥3 days” (RR, 1.753; 95%CI: 0.567–5.421), and a significant effect was also observed when the definition was “mean temperature ≥95th percentile for ≥3 days”, with a RR of 1.064 (95%CI: 1.006–1.123). Conclusions: Our findings support the hypothesis of a positive association between elevated ambient temperatures and/or heatwaves and adverse mental health outcomes. This problem will likely increase with a warming climate, especially in the context of climate change. Further high-quality studies are needed to identify modifying factors of heat impacts.

Published

2021

7. Dengue control in the context of climate change: Views from health professionals in different geographic regions of China

Author

Michael X. Tong, Alana Hansen, Scott Hanson-Easey, Jianjun Xiang, Scott Cameron, Qiyong Liu, Xiaobo Liu, Yehuan Sun, Philip Weinstein, Gil-Soo Han, Craig Williams, Afzal Mahmood, and Peng Bi

Subjects

Infectious and parasitic diseases, RC109-216, Public aspects of medicine, RA1-1270

Abstract

Background: Dengue is a significant climate-sensitive disease. Public health professionals play an important role in prevention and control of the disease. This study aimed to explore dengue control and prevention in the context of climate change in China. Methods: A cross-sectional survey was conducted among 630 public health professionals in 2015. Descriptive analysis and logistic regression were performed. Results: More than 80% of participants from southwest and central China believed climate change would affect dengue. However, participants from northeast China were less likely to believe so (65%). Sixty-nine percent of participants in Yunnan perceived that dengue had emerged/re-emerged in recent years, compared with 40.6% in Henan and 23.8% in Liaoning. Less than 60% of participants thought current prevention and control programs had been effective. Participants believed mosquitoes in high abundance, imported cases and climate change were main risk factors for dengue in China. Conclusion: There were varying views of dengue in China. Professionals in areas susceptible to dengue were more likely to be concerned about climate change and dengue. Current prevention and control strategies need to be improved. Providing more information for staff in lower levels of Centers for Disease Control and Prevention may help in containing a possible increase of dengue. Keywords: Climate change, Dengue control, Infectious disease, Public health professional, China

Published

2019

8. The Thermal Environment of Housing and Its Implications for the Health of Older People in South Australia: A Mixed-Methods Study

Author

Alana Hansen, Terence Williamson, Dino Pisaniello, Helen Bennetts, Joost van Hoof, Larissa Arakawa Martins, Renuka Visvanathan, Jian Zuo, and Veronica Soebarto

Subjects

health and wellbeing, older people, housing, thermal comfort, indoor temperature, Australia, Meteorology. Climatology, QC851-999

Abstract

Older people are often over-represented in morbidity and mortality statistics associated with hot and cold weather, despite remaining mostly indoors. The study “Improving thermal environment of housing for older Australians” focused on assessing the relationships between the indoor environment, building characteristics, thermal comfort and perceived health/wellbeing of older South Australians over a study period that included the warmest summer on record. Our findings showed that indoor temperatures in some of the houses reached above 35 °C. With concerns about energy costs, occupants often use adaptive behaviours to achieve thermal comfort instead of using cooling (or heating), although feeling less satisfied with the thermal environment and perceiving health/wellbeing to worsen at above 28 °C (and below 15 °C). Symptoms experienced during hot weather included tiredness, shortness of breath, sleeplessness and dizziness, with coughs and colds, painful joints, shortness of breath and influenza experienced during cold weather. To express the influence of temperature and humidity on perceived health/wellbeing, a Temperature Humidity Health Index (THHI) was developed for this cohort. A health/wellbeing perception of “very good” is achieved between an 18.4 °C and 24.3 °C indoor operative temperature and a 55% relative humidity. The evidence from this research is used to inform guidelines about maintaining home environments to be conducive to the health/wellbeing of older people.

Published

2022

9. Perceptions of malaria control and prevention in an era of climate change: a cross-sectional survey among CDC staff in China

Author

Michael Xiaoliang Tong, Alana Hansen, Scott Hanson-Easey, Scott Cameron, Jianjun Xiang, Qiyong Liu, Xiaobo Liu, Yehuan Sun, Philip Weinstein, Gil-Soo Han, Craig Williams, and Peng Bi

Subjects

Climate change, Malaria, Infectious diseases, Imported cases, Capacity building, Perception, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Though there was the significant decrease in the incidence of malaria in central and southwest China during the 1980s and 1990s, there has been a re-emergence of malaria since 2000. Methods A cross-sectional survey was conducted amongst the staff of eleven Centers for Disease Control and Prevention (CDC) in China to gauge their perceptions regarding the impacts of climate change on malaria transmission and its control and prevention. Descriptive analysis was performed to study CDC staff’s knowledge, attitudes, perceptions and suggestions for malaria control in the face of climate change. Results A majority (79.8%) of CDC staff were concerned about climate change and 79.7% believed the weather was becoming warmer. Most participants (90.3%) indicated climate change had a negative effect on population health, 92.6 and 86.8% considered that increasing temperatures and precipitation would influence the transmission of vector-borne diseases including malaria. About half (50.9%) of the surveyed staff indicated malaria had re-emerged in recent years, and some outbreaks were occurring in new geographic areas. The main reasons for such re-emergence were perceived to be: mosquitoes in high-density, numerous imported cases, climate change, poor environmental conditions, internal migrant populations, and lack of health awareness. Conclusions This study found most CDC staff endorsed the statement that climate change had a negative impact on infectious disease transmission. Malaria had re-emerged in some areas of China, and most of the staff believed that this can be managed. However, high densities of mosquitoes and the continuous increase in imported cases of malaria in local areas, together with environmental changes are bringing about critical challenges to malaria control in China. This study contributes to an understanding of climate change related perceptions of malaria control and prevention amongst CDC staff. It may help to formulate in-house training guidelines, community health promotion programmes and policies to improve the capacity of malaria control and prevention in the face of climate change in China.

Published

2017

10. Emergency department visits and associated healthcare costs attributable to increasing temperature in the context of climate change in Perth, Western Australia, 2012–2019

Author

Michael Xiaoliang Tong, Berhanu Yazew Wondmagegn, Jianjun Xiang, Susan Williams, Alana Hansen, Keith Dear, Dino Pisaniello, Jianguo Xiao, Le Jian, Ben Scalley, Monika Nitschke, John Nairn, Hilary Bambrick, Jonathan Karnon, and Peng Bi

Subjects

temperature, climate change, heat attributable disease, healthcare cost, emergency department visits, Perth, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350, Science, Physics, QC1-999

Abstract

Increasing temperature and its impact on population health is an emerging significant public health issue in the context of climate change in Australia. While previous studies have primarily focused on risk assessment, very few studies have evaluated heat-attributable emergency department (ED) visits and associated healthcare costs, or projected future health and economic burdens. This study used a distributed lag non-linear model to estimate heat attributable ED visits and associated healthcare costs from 13 hospitals in Perth, Western Australia, and to project the future healthcare costs in 2030s and 2050s under three climate change scenarios—Representative Concentration Pathways (RCPs)2.6, RCP4.5 and RCP8.5. There were 3697 ED visits attributable to heat (temperatures above 20.5 °C) over the study period 2012–2019, accounting for 4.6% of the total ED visits. This resulted in AU$ 2.9 million in heat-attributable healthcare costs. The number of ED visits projected to occur in the 2030s and 2050s ranges from 5707 to 9421 under different climate change scenarios, which would equate to AU$ 4.6–7.6 million in heat associated healthcare costs. The heat attributable fraction for ED visits and associated healthcare costs would increase from 4.6% and 4.1% in 2010s to 5.0%–6.3% and 4.4%–5.6% in 2030s and 2050s, respectively. Future heat attributable ED visits and associated costs will increase in Perth due to climate change. Excess heat will generate a substantial population health challenge and economic burdens on the healthcare system if there is insufficient heat adaptation. It is vital to reduce greenhouse gas emissions, develop heat-related health interventions and optimize healthcare resources to mitigate the negative impact on the healthcare system and population health in the face of climate change.

Published

2021

11. Workers’ perceptions of climate change related extreme heat exposure in South Australia: a cross-sectional survey

Author

Jianjun Xiang, Alana Hansen, Dino Pisaniello, and Peng Bi

Subjects

Perceptions, Heat stress, Workplace heat exposure, Climate change, Work-related injuries, Public aspects of medicine, RA1-1270

Abstract

Abstract Background Occupational exposure to extreme heat without sufficient protection may not only increase the risk of heat-related illnesses and injuries but also compromise economic productivity. With predictions of more frequent and intense bouts of hot weather, workplace heat exposure is presenting a growing challenge to workers’ health and safety. This study aims to investigate workers’ perceptions and behavioural responses towards extreme heat exposure in a warming climate. Methods A cross-sectional questionnaire survey was conducted in 2012 in South Australia among selected outdoor industries. Workers’ heat risk perceptions were measured in the following five aspects: concerns about heat exposure, attitudes towards more training, policy and guideline support, the adjustment of work habits, and degree of satisfaction of current preventive measures. Bivariate and multivariate logistic regression analyses were used to identify factors significantly associated with workers’ heat perceptions. Results A total of 749 respondents participated in this survey, with a response rate of 50.9 %. A little more than half (51.2 %) of respondents were moderately or very much concerned about workplace heat exposure. Factors associated with workers’ heat concerns included age, undertaking very physically demanding work, and the use of personal protective equipment, heat illness history, and injury experience during hot weather. Less than half (43.4 %) of the respondents had received heat-related training. Workers aged 25–54 years and those with previous heat-related illness/injury history showed more supportive attitudes towards heat-related training. The provision of cool drinking water was the most common heat prevention measure. A little more than half (51.4 %) of respondents were satisfied with the current heat prevention measures. About two-thirds (63.8 %) of respondents agreed that there should be more heat-related regulations and guidelines for working during very hot weather. More than two-thirds (68.8 %) of the respondents were willing to adjust their current work habits to adapt to the likely increasing extreme heat, especially those with previous heat illness experience. Conclusions The findings suggest a need to strengthen workers’ heat risk awareness and refine current heat prevention strategies in a warming climate. Further heat educational programmes and training should focus on those undertaking physically demanding work outdoors, in particular young workers and those over 55 years with low education levels.

Published

2016

12. Carbon emissions and public health: an inverse association?

Author

Peng Bi and Alana Hansen

Subjects

Environmental sciences, GE1-350

Published

2018

13. Climate change adaptation: no one size fits all

Author

Alana Hansen and Peng Bi

Subjects

Environmental sciences, GE1-350

Published

2017

14. Transmission of Haemorrhagic Fever with Renal Syndrome in China and the Role of Climate Factors: A Review

Author

Alana Hansen, Scott Cameron, Qiyong Liu, Yehuan Sun, Philip Weinstein, Craig Williams, Gil-Soo Han, and Peng Bi

Subjects

Haemorrhagic fever with renal syndrome, China, climate change, surveillance, Infectious and parasitic diseases, RC109-216

Abstract

Haemorrhagic fever with renal syndrome (HFRS) is a rodent-borne disease that poses a serious public health threat in China. HFRS is caused by hantaviruses, mainly Seoul virus in urban areas and Hantaan virus in agricultural areas. Although preventive measures including vaccination programs and rodent control measures have resulted in a decline in cases in recent years, there has been an increase in incidence in some areas and new endemic areas have emerged. This review summarises the recent literature relating to the effects of climatic factors on the incidence of HFRS in China and discusses future research directions. Temperature, precipitation and humidity affect crop yields, rodent breeding patterns and disease transmission, and these can be influenced by a changing climate. Detailed surveillance of infections caused by Hantaan and Seoul viruses and further research on the viral agents will aid in interpretation of spatiotemporal patterns and a better understanding of the environmental and ecological drivers of HFRS amid China's rapidly urbanising landscape and changing climate.

Published

2015

15. Vulnerability to extreme heat and climate change: is ethnicity a factor?

Author

Alana Hansen, Linda Bi, Arthur Saniotis, and Monika Nitschke

Subjects

Australia, barriers, climate change, ethnicity, heat-susceptibility, migrants, Public aspects of medicine, RA1-1270

Abstract

Background: With a warming climate, it is important to identify sub-populations at risk of harm during extreme heat. Several international studies have reported that individuals from ethnic minorities are at increased risk of heat-related illness, for reasons that are not often discussed. Objective: The aim of this article is to investigate the underpinning reasons as to why ethnicity may be associated with susceptibility to extreme heat, and how this may be relevant to Australia's population. Design: Drawing upon literary sources, the authors provide commentary on this important, yet poorly understood area of heat research. Results: Social and economic disparities, living conditions, language barriers, and occupational exposure are among the many factors contributing to heat-susceptibility among minority ethnic groups in the United States. However, there is a knowledge gap about socio-cultural influences on vulnerability in other countries. Conclusion: More research needs to be undertaken to determine the effects of heat on tourists, migrants, and refugees who are confronted with a different climatic environment. Thorough epidemiological investigations of the association between ethnicity and heat-related health outcomes are required, and this could be assisted with better reporting of nationality data in health statistics. Climate change adaptation strategies in Australia and elsewhere need to be ethnically inclusive and cognisant of an upward trend in the proportion of the population who are migrants and refugees.

Published

2013

16. The effect of meteorological variables on the transmission of hand, foot and mouth disease in four major cities of shanxi province, China: a time series data analysis (2009-2013).

Author

Junni Wei, Alana Hansen, Qiyong Liu, Yehuan Sun, Phil Weinstein, and Peng Bi

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

Increased incidence of hand, foot and mouth disease (HFMD) has been recognized as a critical challenge to communicable disease control and public health response. This study aimed to quantify the association between climate variation and notified cases of HFMD in selected cities of Shanxi Province, and to provide evidence for disease control and prevention. Meteorological variables and HFMD cases data in 4 major cities (Datong, Taiyuan, Changzhi and Yuncheng) of Shanxi province, China, were obtained from the China Meteorology Administration and China CDC respectively over the period 1 January 2009 to 31 December 2013. Correlations analyses and Seasonal Autoregressive Integrated Moving Average (SARIMA) models were used to identify and quantify the relationship between the meteorological variables and HFMD. HFMD incidence varied seasonally with the majority of cases in the 4 cities occurring from May to July. Temperatures could play important roles in the incidence of HFMD in these regions. The SARIMA models indicate that a 1° C rise in average, maximum and minimum temperatures may lead to a similar relative increase in the number of cases in the 4 cities. The lag times for the effects of temperatures were identified in Taiyuan, Changzhi and Yuncheng. The numbers of cases were positively associated with average and minimum temperatures at a lag of 1 week in Taiyuan, Changzhi and Yuncheng, and with maximum temperature at a lag of 2 weeks in Yuncheng. Positive association between the temperature and HFMD has been identified from the 4 cities in Shanxi Province, although the role of weather variables on the transmission of HFMD varied in the 4 cities. Relevant prevention measures and public health action are required to reduce future risks of climate change with consideration of local climatic conditions.

Published

2015

17. Perceptions of Workplace Heat Exposure and Controls among Occupational Hygienists and Relevant Specialists in Australia.

Author

Jianjun Xiang, Alana Hansen, Dino Pisaniello, and Peng Bi

Subjects

Medicine, Science

Abstract

With warmer weather projections, workplace heat exposure is presenting a growing challenge to workers' health and safety. Occupational hygienists are the specialist group conducting measurements and providing advice on heat stress management to industry. In order to provide insights into hygienists perceptions on workplace heat exposure, current and future preparedness for extreme heat, and barriers to possible heat adaptation strategies, a self-administered questionnaire survey was conducted during a national conference of the Australian Institute of Occupational Hygienists. Nearly 90% of the 180 respondents were at least moderately concerned about extreme heat and 19% were dissatisfied with current heat stress prevention measures. Barriers recognized by the participants were lack of awareness (68%), insufficient training (56%), unsatisfactory management commitment (52%), and low compliance with prevention policies (40%). The findings suggest a need to refine occupational heat management and prevention strategies.

Published

2015

18. The impact of climate change on infectious disease transmission: perceptions of CDC health professionals in Shanxi Province, China.

Author

Junni Wei, Alana Hansen, Ying Zhang, Hong Li, Qiyong Liu, Yehuan Sun, Shulian Xue, Shufang Zhao, and Peng Bi

Subjects

Medicine, Science

Abstract

There have been increasing concerns about the challenge of emerging and re-emerging infectious diseases due to climate change, especially in developing countries including China. Health professionals play a significant role in the battle to control and prevent infectious diseases. This study therefore aims to investigate the perceptions and attitudes of health professionals at the Centers for Disease Control and Prevention (CDC) in different levels in China, and to consider adaptation measures to deal with the challenge of climate change. In 2013, a cross-sectional questionnaire survey was undertaken among 314 staff in CDCs in Shanxi Province, China, whose routine work involves disease control and prevention. Data were analyzed using descriptive methods and logistic regression. A majority of the CDC staff were aware of the health risks from climate change, especially its impacts on infectious disease transmission in their jurisdictions, and believed climate change might bring about both temporal and spatial change in transmission patterns. It was thought that adaptation measures should be established including: strengthening/improving currently existing disease surveillance systems and vector monitoring; building CDC capacity in terms of infrastructure and in-house health professional training; development and refinement of relevant legislation, policies and guidelines; better coordination among various government departments; the involvement of the community in infectious disease interventions; and collaborative research with other institutions. This study provides a snapshot of the understanding of CDC staff regarding climate change risks relevant to infectious diseases and adaptation in China. Results may help inform future efforts to develop adaptation measures to minimize infectious disease risks due to climate change.

Published

2014

19. Hospital healthcare costs attributable to heat and future estimations in the context of climate change in Perth, Western Australia

Author

Alana Hansen, Jianjun Xiang, Monika Nitschke, Jonathan Karnon, Dino Pisaniello, John Nairn, Hilary Bambrick, Michael Xiaoliang Tong, Susan Williams, Keith Dear, Ben Scalley, Berhanu Yazew Wondmagegn, Peng Bi, Jianguo Xiao, and Le Jian

Subjects

H1-99, Distributed lag, Atmospheric Science, Global and Planetary Change, Hospital healthcare cost, business.industry, Australia, Climate change, Context (language use), Management, Monitoring, Policy and Law, Perth, Mental health, Social sciences (General), Geography, Adverse health effect, Meteorology. Climatology, Environmental health, Health care, Climate change adaptation, QC851-999, business, Baseline (configuration management), Heat-attributable disease

Abstract

Climate change with increasing temperature is making a significant impact on human health, including more heat-related diseases, and increasing the burden on the healthcare system. Although many studies have explored the association between increasing temperatures and negative health outcomes, research on the associated costs of heat-related diseases remains relatively sparse. Furthermore, estimations of future costs associated with heat-attributable hospital healthcare have not been well explored. This study used a distributed lag nonlinear model to estimate heat-attributable hospital healthcare costs in Perth, Western Australia. Using 2006–2012 as the baseline, future costings for 2026–2032 and 2046–2052 were estimated under RCP2.6, RCP4.5, and RCP8.5. Higher temperatures were found to be associated with increased hospital healthcare costs. The total hospital costs attributable to heat over the baseline period 2006–2012 was estimated to be 79.5 million AUD, with costs for mental health hospitalizations being the largest contributor of the heat-related conditions examined. Costs are estimated to increase substantially to 125.8–129.1 million AUD in 2026–2032, and 174.1–190.3 million AUD by midcentury under climate change scenarios. Our findings of a notable burden of heat-attributable healthcare costs now and in the future emphasize the importance of climate change adaptation measures to reduce the adverse health effects of increasing temperatures and heat exposure on the people of Perth.

Published

2021

20. Hospitalization Costs of Respiratory Diseases Attributable to Temperature in Australia and Projections for Future Costs in the 2030s and 2050s under Climate Change

Author

Michael Tong, Berhanu Wondmagegn, Jianjun Xiang, Alana Hansen, Keith Dear, Dino Pisaniello, Blesson Varghese, Jianguo Xiao, Le Jian, Benjamin Scalley, Monika Nitschke, John Nairn, Hilary Bambrick, Jonathan Karnon, and Peng Bi

Subjects

Cold Temperature, Hospitalization, hospitalization cost, respiratory diseases, temperature, climate change, Hot Temperature, Climate Change, Health, Toxicology and Mutagenesis, Respiratory Tract Diseases, Australia, Temperature, Public Health, Environmental and Occupational Health, Humans, Mortality, Respiration Disorders

Abstract

This study aimed to estimate respiratory disease hospitalization costs attributable to ambient temperatures and to estimate the future hospitalization costs in Australia. The associations between daily hospitalization costs for respiratory diseases and temperatures in Sydney and Perth over the study period of 2010–2016 were analyzed using distributed non-linear lag models. Future hospitalization costs were estimated based on three predicted climate change scenarios-RCP2.6, RCP4.5 and RCP8.5. The estimated respiratory disease hospitalization costs attributable to ambient temperatures increased from 493.2 million Australian dollars (AUD) in the 2010s to more than AUD 700 million in 2050s in Sydney and from AUD 98.0 million to about AUD 150 million in Perth. The current cold attributable fraction in Sydney (23.7%) and Perth (11.2%) is estimated to decline by the middle of this century to (18.1–20.1%) and (5.1–6.6%), respectively, while the heat-attributable fraction for respiratory disease is expected to gradually increase from 2.6% up to 5.5% in Perth. Limitations of this study should be noted, such as lacking information on individual-level exposures, local air pollution levels, and other behavioral risks, which is common in such ecological studies. Nonetheless, this study found both cold and hot temperatures increased the overall hospitalization costs for respiratory diseases, although the attributable fractions varied. The largest contributor was cold temperatures. While respiratory disease hospitalization costs will increase in the future, climate change may result in a decrease in the cold attributable fraction and an increase in the heat attributable fraction, depending on the location.

Published

2022

21. Using ecological variables to predict Ross River virus disease incidence in South Australia

Author

Scott J. Cameron, Peng Bi, Stephen R. Fricker, Jingwen Liu, Alana Hansen, Craig R. Williams, Liu, Jingwen, Hansen, Alana, Cameron, Scott, Williams, Craig, Fricker, Stephen, and Bi, Peng

Subjects

medicine.medical_specialty, Culex annulirostris, mosquito, Context (language use), Mosquito Vectors, Disease, Ross River virus, South Australia, Epidemiology, medicine, Animals, Humans, Autoregressive integrated moving average, Disease Notification, biology, Ecology, Incidence, Incidence (epidemiology), Public health, Public Health, Environmental and Occupational Health, General Medicine, biology.organism_classification, Culicidae, climate change, Infectious Diseases, Geography, epidemiology, Parasitology

Abstract

Background Ross River virus (RRV) disease is Australia's most widespread vector-borne disease causing significant public health concern. The aim of this study was to identify the ecological covariates of RRV risk and to develop epidemic forecasting models in a disease hotspot region of South Australia. Methods Seasonal autoregressive integrated moving average models were used to predict the incidence of RRV disease in the Riverland region of South Australia, an area known to have a high incidence of the disease. The model was developed using data from January 2000 to December 2012 then validated using disease notification data on reported cases for the following year. Results Monthly numbers of the mosquito Culex annulirostris (β=0.033, p Conclusions A predictive model has been shown to be useful in forecasting the occurrence of RRV disease, with increased vector populations and rainfall being important factors associated with transmission. This approach may be useful in a public health context by providing early warning of vector-borne diseases in other settings.

Published

2021

22. Workers’ health and safety in the heat: current practice in Australian workplaces

Author

Scott Hanson-Easey, Alana Hansen, Susan Williams, Blesson M. Varghese, Peng Bi, and Dino Pisaniello

Subjects

Health (social science), Health Policy, 05 social sciences, Public Health, Environmental and Occupational Health, 030210 environmental & occupational health, Occupational safety and health, 3. Good health, 03 medical and health sciences, 0302 clinical medicine, 13. Climate action, Environmental health, 0501 psychology and cognitive sciences, Business, Safety Research, 050107 human factors

Abstract

Working in high temperatures without adequate precautions can have serious health and safety consequences, but effective policies and practices can minimize the hazards. The risks are multifactoria...

Published

2020

23. Assessing human resilience

Author

Terence Williamson, Veronica Soebarto, Helen Bennetts, Larissa Arakawa Martins, Dino Pisaniello, Alana Hansen, Renuka Visvanathan, Andrew Carre, and Joost van Hoof

Published

2022

24. Associations between temperature and Ross river virus infection: A systematic review and meta-analysis of epidemiological evidence

Author

Yohannes Tefera Damtew, Michael Tong, Blesson Mathew Varghese, Alana Hansen, Jingwen Liu, Keith Dear, Ying Zhang, Geoffrey Morgan, Tim Driscoll, Tony Capon, and Peng Bi

Subjects

Infectious Diseases, Alphavirus Infections, Insect Science, Veterinary (miscellaneous), Climate, Ross River virus, Temperature, Humans, Parasitology, Environment

Abstract

Ross River virus (RRV) infection is one of the emerging and prevalent arboviral diseases in Australia and the Pacific Islands. Although many studies have been conducted to establish the relationship between temperature and RRV infection, there has been no comprehensive review of the association so far. In this study, we performed a systematic review and meta-analysis to assess the effect of temperature on RRV transmission. We searched PubMed, Scopus, Embase, and Web of Science with additional lateral searches from references. The quality and strength of evidence from the included studies were evaluated following the Navigation Guide framework. We have qualitatively synthesized the evidence and conducted a meta-analysis to pool the relative risks (RRs) of RRV infection per 1 °C increase in temperature. Subgroup analyses were performed by climate zones, temperature metrics, and lag periods. A total of 17 studies met the inclusion criteria, of which six were included in the meta-analysis The meta-analysis revealed that the overall RR for the association between temperature and the risk of RRV infection was 1.09 (95% confidence interval (CI): 1.02, 1.17). Subgroup analyses by climate zones showed an increase in RRV infection per 1 °C increase in temperature in humid subtropical and cold semi-arid climate zones. The overall quality of evidence was "moderate" and we rated the strength of evidence to be "limited", warranting additional evidence to reduce uncertainty. The results showed that the risk of RRV infection is positively associated with temperature. However, the risk varies across different climate zones, temperature metrics and lag periods. These findings indicate that future studies on the association between temperature and RRV infection should consider local and regional climate, socio-demographic, and environmental factors to explore vulnerability at local and regional levels.

Published

2022

25. The Thermal Environment of Housing and Its Implications for the Health of Older People in South Australia

Author

Alana Hansen, Terence Williamson, Dino Pisaniello, Helen Bennetts, Joost van Hoof, Larissa Arakawa Martins, Renuka Visvanathan, Jian Zuo, and Veronica Soebarto

Subjects

indoor temperature, Atmospheric Science, health and wellbeing, older people, housing, thermal comfort, Australia, Zuid Australie, Environmental Science (miscellaneous), warmte, elderly, temparature, well-being, welzijn, Meteorology. Climatology, South Australia, ouderen, huisvesting, QC851-999, dementie, dementia, technologie

Abstract

Older people are often over-represented in morbidity and mortality statistics associated with hot and cold weather, despite remaining mostly indoors. The study “Improving thermal environment of housing for older Australians” focused on assessing the relationships between the indoor environment, building characteristics, thermal comfort and perceived health/wellbeing of older South Australians over a study period that included the warmest summer on record. Our findings showed that indoor temperatures in some of the houses reached above 35 °C. With concerns about energy costs, occupants often use adaptive behaviours to achieve thermal comfort instead of using cooling (or heating), although feeling less satisfied with the thermal environment and perceiving health/wellbeing to worsen at above 28 °C (and below 15 °C). Symptoms experienced during hot weather included tiredness, shortness of breath, sleeplessness and dizziness, with coughs and colds, painful joints, shortness of breath and influenza experienced during cold weather. To express the influence of temperature and humidity on perceived health/wellbeing, a Temperature Humidity Health Index (THHI) was developed for this cohort. A health/wellbeing perception of “very good” is achieved between an 18.4 °C and 24.3 °C indoor operative temperature and a 55% relative humidity. The evidence from this research is used to inform guidelines about maintaining home environments to be conducive to the health/wellbeing of older people. Original publication at MDPI: https://doi.org/10.3390/atmos13010096 © 2022 by the authors. Licensee MDPI.

Published

2022

26. Hospitalization Costs of Respiratory Diseases Attributable to Temperature in the Context of Climate Change in Australia

Author

Michael Tong, Berhanu Wondmagegn, Jianjun Xiang, Susan Williams, Alana Hansen, Keith Dear, Dino Pisaniello, Blesson Varghese, Jianguo Xiao, Le Jian, Ben Scalley, Monika Nitschke, John Nairn, Hilary Bambrick, Jonathan Karnon, and Peng Bi

Abstract

Background: The association between temperatures and respiratory diseases has been extensively reported. However, the associated healthcare costs and attributable fractions due to temperature have scarcely been explored. The aims of this study were to estimate respiratory disease hospitalization costs attributable to non-optimum ambient temperature, to quantify the attributable fraction from cold and hot temperatures, and to estimate the future hospitalization costs in two Australian cities. Methods: The associations between daily hospitalization costs for respiratory diseases and temperatures in Sydney and Perth over the study period of 2010-2016 were analyzed using distributed lag non-linear models. Future hospitalization costs for respiratory diseases were estimated based on three predicted climate change scenarios - RCP2.6, RCP4.5 and RCP8.5. Results: The estimated respiratory disease hospitalization costs attributable to non-optimum ambient temperatures increased from 493.2 million Australian dollars (AUD) in 2010s to more than 700 million AUD in 2050s in Sydney, and from 98.0 million AUD to about 150 million AUD during the same period in Perth, in large part due to population growth. In the context of climate change, the current cold attributable fraction in Sydney (23.7%) and Perth (11.2%) is estimated to decline by the middle of this century to (18.1-20.1%) and (5.1-6.6%) respectively, while the heat-attributable fraction for respiratory disease is expected to gradually increase from 2.6% up to 5.5% in Perth. Conclusions: This study found both cold and hot temperatures increased the overall hospitalization costs for respiratory diseases in two major Australian cities, although the attributable fractions varied. The largest contributor was cold temperatures. While respiratory disease hospitalization costs will increase in the future, climate change will result in a decrease in the cold attributable fraction and an increase in the heat attributable fraction, depending on the location.

Published

2021

27. Heat exposure and cardiovascular health outcomes: a systematic review and meta-analysis

Author

Jingwen Liu, Blesson M Varghese, Alana Hansen, Ying Zhang, Timothy Driscoll, Geoffrey Morgan, Keith Dear, Michelle Gourley, Anthony Capon, and Peng Bi

Subjects

Health (social science), Hot Temperature, Cardiovascular Diseases, Risk Factors, Health Policy, Climate Change, Public Health, Environmental and Occupational Health, Australia, Medicine (miscellaneous), Humans, Female, Aged

Abstract

Heat exposure is an important but underappreciated risk factor contributing to cardiovascular disease. Warming temperatures might therefore pose substantial challenges to population health, especially in a rapidly aging population. To address a potential increase in the burden of cardiovascular disease, a better understanding of the effects of ambient heat on different types of cardiovascular disease and factors contributing to vulnerability is required, especially in the context of climate change. This study reviews the current epidemiological evidence linking heat exposures (both high temperatures and heatwaves) with cardiovascular disease outcomes, including mortality and morbidity.In this systematic review and meta-analysis, we searched PubMed, Embase, and Scopus for literature published between Jan 1, 1990, and March 10, 2022, and evaluated the quality of the evidence following the Navigation Guide Criteria. We included original research on independent study populations in which the exposure metric was high temperatures or heatwaves, and observational studies using ecological time series, case crossover, or case series study designs comparing risks over different exposures or time periods. Reviews, commentaries, grey literature, and studies that examined only seasonal effects without explicitly considering temperature were excluded. The risk estimates were derived from included articles and if insufficient data were available we contacted the authors to provide clarification. We did a random-effects meta-analysis to pool the relative risk (RR) of the association between high temperatures and heatwaves and cardiovascular disease outcomes. The study protocol was registered with PROSPERO (CRD42021232601).In total, 7360 results were returned from our search of which we included 282 articles in the systematic review, and of which 266 were eligible for the meta-analysis. There was substantial heterogeneity for both mortality (high temperatures: IThis review strengthens the evidence on the increase in cardiovascular disease risk due to ambient heat exposures in different climate zones. The widespread prevalence of exposure to hot temperatures, in conjunction with an increase in the proportion of older people in the population, might result in a rise in poor cardiovascular disease health outcomes associated with a warming climate. Evidence-based prevention measures are needed to attenuate peaks in cardiovascular events during hot spells, thereby lowering the worldwide total heat-related burden of cardiovascular disease-related morbidity and death.Australian Research Council Discovery Program.

Published

2021

28. Healthcare Costs of Emergency Department Presentations Related to Heatwave Intensity and Severity

Author

Hilary Bambrick, Susan Williams, Michael C. F. Tong, Monika Nitschke, Jonathan Karnon, John Nairn, Jianjun Xiang, Dino Pisaniello, Keith Dear, Berhanu Yazew Wondmagegn, Ben Scalley, Peng Bi, Alana Hansen, Le Jian, Alex Xiao, and Blesson M. Varghese

Subjects

business.industry, Health care, General Earth and Planetary Sciences, Medicine, Emergency department, Medical emergency, business, medicine.disease, General Environmental Science, Intensity (physics)

Published

2021

29. Effects of hot weather on kidney disease morbidity and mortality: A systematic review and meta-analysis of epidemiological evidence

Author

Peng Bi, Alana Hansen, Blesson M. Varghese, and Jingwen Liu

Subjects

medicine.medical_specialty, Hot weather, business.industry, Environmental health, Meta-analysis, Epidemiology, medicine, General Earth and Planetary Sciences, medicine.disease, business, General Environmental Science, Kidney disease

Published

2021

30. Understanding current and projected emergency department presentations and associated healthcare costs in a changing thermal climate in Adelaide, South Australia

Author

Berhanu Yazew Wondmagegn, Jianjun Xiang, Keith Dear, Susan Williams, Alana Hansen, Dino Pisaniello, Monika Nitschke, John Nairn, Ben Scalley, Alex Xiao, Le Jian, Michael Tong, Hilary Bambrick, Jonathan Karnon, and Peng Bi

Subjects

Hot Temperature, Climate Change, South Australia, Public Health, Environmental and Occupational Health, Humans, Health Care Costs, Emergency Service, Hospital

Abstract

BackgroundExposure to extreme temperatures is associated with increased emergency department (ED) presentations. The resulting burden on health service costs and the potential impact of climate change is largely unknown. This study examines the temperature-EDs/cost relationships in Adelaide, South Australia and how this may be impacted by increasing temperatures.MethodsA time series analysis using a distributed lag nonlinear model was used to explore the exposure–response relationships. The net-attributable, cold-attributable and heat-attributable ED presentations for temperature-related diseases and costs were calculated for the baseline (2014–2017) and future periods (2034–2037 and 2054–2057) under three climate representative concentration pathways (RCPs).ResultsThe baseline heat-attributable ED presentations were estimated to be 3600 (95% empirical CI (eCI) 700 to 6500) with associated cost of $A4.7 million (95% eCI 1.8 to 7.5). Heat-attributable ED presentations and costs were projected to increase during 2030s and 2050s with no change in the cold-attributable burden. Under RCP8.5 and population growth, the increase in heat-attributable burden would be 1.9% (95% eCI 0.8% to 3.0%) for ED presentations and 2.5% (95% eCI 1.3% to 3.7%) for ED costs during 2030s. Under the same conditions, the heat effect is expected to increase by 3.7% (95% eCI 1.7% to 5.6%) for ED presentations and 5.0% (95% eCI 2.6% to 7.1%) for ED costs during 2050s.ConclusionsProjected climate change is likely to increase heat-attributable emergency presentations and the associated costs in Adelaide. Planning health service resources to meet these changes will be necessary as part of broader risk mitigation strategies and public health adaptation actions.

Published

2021

31. Living environment, heating-cooling behaviours and well-being: Survey of older South Australians

Author

Alana Hansen, Helen Bennetts, Joost van Hoof, Renuka Visvanathan, Jian Zuo, Veronica Soebarto, Terence Williamson, and Dino Pisaniello

Subjects

Environmental Engineering, cooling, Interview, Living environment, Heating cooling, Geography, Planning and Development, Population, huishoudenonderzoek, 0211 other engineering and technologies, heating, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, household survey, older people, well-being, ouderen, 021108 energy, education, Socioeconomics, housing, Housing design, 0105 earth and related environmental sciences, Civil and Structural Engineering, education.field_of_study, verwarming, Thermal comfort, health, Building and Construction, Geography, welzijn, koeling, Well-being, gezondheid, huisvesting, Older people

Abstract

At a time when the population is ageing and most people choose to live in their own home for as long as possible, it is important to consider various aspects of supportive and comfortable environments for housing. This study, conducted in South Australia, aims to provide information about the links between the type of housing in which older people live, the weather and occupants’ heating and cooling behaviours as well as their health and well-being. The study used a Computer-Assisted Telephone Interviewing (CATI) system to survey 250 people aged 65 years and over who lived in their own home. The respondents were recruited from three regions representing the three climate zones in South Australia: semi-arid, warm temperate and temperate. The results show that while the majority of respondents reported being in good health, many lived in dwellings with minimal shading and no wall insulation and appeared to rely on the use of heaters and coolers to achieve thermally comfortable conditions. Concerns over the cost of heating and cooling were shared among the majority of respondents and particularly among people with low incomes. Findings from this study highlight the importance of providing information to older people, carers, designers and policy makers about the interrelationships between weather, housing design, heating and cooling behaviours, thermal comfort, energy use and health and well-being, in order to support older people to age in place independently and healthily. https://doi.org/10.1016/j.buildenv.2019.03.023 LinkedIn: https://www.linkedin.com/in/jvhoof1980/

Published

2019

32. Dengue control in the context of climate change: Views from health professionals in different geographic regions of China

Author

Alana Hansen, Scott J. Cameron, Scott Hanson-Easey, Qiyong Liu, Jianjun Xiang, Xiaobo Liu, Philip Weinstein, Michael Xiaoliang Tong, Yehuan Sun, Peng Bi, Afzal Mahmood, Gil-Soo Han, Craig R. Williams, Tong, Michael X, Hansen, Alana, Hanson-Easey, Scott, Xiang, Jianjun, Cameron, Scott, Liu, Qiyong, Liu, Xiaobo, Sun, Yehaun, Weinsten, Philip, Han, Gil-Soo, Williams, Craig, Mahmoo, Afzal, and Bi, Peng

Subjects

Adult, Male, 0301 basic medicine, China, medicine.medical_specialty, Attitude of Health Personnel, infectious disease, Climate Change, 030106 microbiology, Climate change, Context (language use), Disease, lcsh:Infectious and parasitic diseases, Dengue fever, Dengue, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Surveys and Questionnaires, Environmental health, medicine, Humans, lcsh:RC109-216, public health professional, 030212 general & internal medicine, Demography, Descriptive statistics, lcsh:Public aspects of medicine, Public health, Public Health, Environmental and Occupational Health, lcsh:RA1-1270, General Medicine, medicine.disease, climate change, Cross-Sectional Studies, Infectious Diseases, Geography, Female, dengue control, Climate change in China

Abstract

Background: Dengue is a significant climate-sensitive disease. Public health professionals play an important role in prevention and control of the disease. This study aimed to explore dengue control and prevention in the context of climate change in China. Methods: A cross-sectional survey was conducted among 630 public health professionals in 2015. Descriptive analysis and logistic regression were performed. Results: More than 80% of participants from southwest and central China believed climate change would affect dengue. However, participants from northeast China were less likely to believe so (65%). Sixty-nine percent of participants in Yunnan perceived that dengue had emerged/re-emerged in recent years, compared with 40.6% in Henan and 23.8% in Liaoning. Less than 60% of participants thought current prevention and control programs had been effective. Participants believed mosquitoes in high abundance, imported cases and climate change were main risk factors for dengue in China. Conclusion: There were varying views of dengue in China. Professionals in areas susceptible to dengue were more likely to be concerned about climate change and dengue. Current prevention and control strategies need to be improved. Providing more information for staff in lower levels of Centers for Disease Control and Prevention may help in containing a possible increase of dengue. Keywords: Climate change, Dengue control, Infectious disease, Public health professional, China

Published

2019

33. Characterising the impact of heatwaves on work-related injuries and illnesses in three Australian cities using a standard heatwave definition- Excess Heat Factor (EHF)

Author

Scott Hanson-Easey, Alana Hansen, John Nairn, Peng Bi, Jane Heyworth, Adrian G. Barnett, Shelley Rowett, Blesson M. Varghese, Malcolm R Sim, Dino Pisaniello, and Monika Nitschke

Subjects

Adult, Male, Work related injuries, Hot Temperature, Epidemiology, Climate Change, Poison control, 030501 epidemiology, Toxicology, Suicide prevention, Occupational safety and health, 03 medical and health sciences, Environmental health, Injury prevention, Humans, Cities, High severity, Australia, Public Health, Environmental and Occupational Health, Human factors and ergonomics, Occupational Injuries, Pollution, Occupational Diseases, Geography, Excess heat, 0305 other medical science

Abstract

Background and Aims: Heatwaves have potential health and safety implications for many workers, and heatwaves are predicted to increase in frequency and intensity with climate change. There is currently a lack of comparative evidence for the effects of heatwaves on workers' health and safety in different climates (sub-tropical and temperate). This study examined the relationship between heatwave severity (as defined by the Excess Heat Factor) and workers' compensation claims, to define impacts and identify workers at higher risk.Methods: Workers' compensation claims data from Australian cities with temperate (Melbourne and Perth) and subtropical (Brisbane) climates for the years 2006-2016 were analysed in relation to heatwave severity categories (low and moderate/ high severity) using time-stratified case-crossover models.Results: Consistent impacts of heatwaves were observed in each city with either a protective or null effect during heatwaves of low-intensity while claims increased during moderate/high-severity heatwaves compared with non-heatwave days. The highest effect during moderate/high-severity heatwaves was in Brisbane (RR 1.45, 95% CI: 1.42-1.48). Vulnerable worker subgroups identified across the three cities included: males, workers aged under 34 years, apprentice/trainee workers, labour hire workers, those employed in medium and heavy strength occupations, and workers from outdoor and indoor industrial sectors.Conclusion: These findings show that work-related injuries and illnesses increase during moderate/high-severity heatwaves in both sub-tropical and temperate climates. Heatwave forecasts should signal the need for heightened heat awareness and preventive measures to minimise the risks to workers.

Published

2019

34. The effects of ambient temperatures on the risk of work-related injuries and illnesses: Evidence from Adelaide, Australia 2003–2013

Author

Alana Hansen, Adrian G. Barnett, Malcolm R Sim, Scott Hanson-Easey, Peng Bi, Blesson M. Varghese, Dino Pisaniello, and Jane Heyworth

Subjects

Work related injuries, Percentile, Hot Temperature, Occupational injury, Acute effect, 010501 environmental sciences, 01 natural sciences, Biochemistry, Occupational safety and health, 03 medical and health sciences, 0302 clinical medicine, Occupational Exposure, Environmental health, South Australia, medicine, Humans, 030212 general & internal medicine, 0105 earth and related environmental sciences, General Environmental Science, Cross-Over Studies, business.industry, Australia, Temperature, medicine.disease, Occupational Injuries, Cold Temperature, 13. Climate action, Attributable risk, Workplace injury, business, Illness prevention

Abstract

Background The thermal environment can directly affect workers’ occupational health and safety, and act as a contributing factor to injury or illness. However, the literature addressing risks posed by varying temperatures on work-related injuries and illnesses is limited. Objectives To examine the occupational injury and illness risk profiles for hot and cold conditions. Methods Daily numbers of workers’ compensation claims in Adelaide, South Australia from 2003 to 2013 (n = 224,631) were sourced together with daily weather data. The impacts of maximum daily temperature on the risk of work-related injuries and illnesses was assessed using a time-stratified case-crossover study design combined with a distributed lag non-linear model. Results The minimum number of workers’ compensation claims occurred when the maximum daily temperature was 25 °C. Compared with this optimal temperature, extremely hot temperatures (99th percentile) were associated with an increase in overall claims (RR: 1.30, 95%CI: 1.18–1.44) whereas a non-significant increase was observed with extremely cold temperatures (1st percentile, RR: 1.10 (95%CI: 0.99–1.21). Heat exposure had an acute effect on workers’ injuries whereas cold conditions resulted in delayed effects. Moderate temperatures were associated with a greater injury burden than extreme temperatures. Conclusion Days of very high temperatures were associated with the greatest risks of occupational injuries; whereas moderate temperatures, which occur more commonly, have the greatest burden. These findings suggest that the broader range of thermal conditions should be considered in workplace injury and illness prevention strategies.

Published

2019

35. Are workers at risk of occupational injuries due to heat exposure? A comprehensive literature review

Author

Blesson M. Varghese, Alana Hansen, Dino Pisaniello, and Peng Bi

Subjects

Psychomotor learning, business.industry, Public Health, Environmental and Occupational Health, Scopus, Human factors and ergonomics, Poison control, CINAHL, 030210 environmental & occupational health, Suicide prevention, Occupational safety and health, 3. Good health, 03 medical and health sciences, 0302 clinical medicine, Environmental health, 8. Economic growth, Injury prevention, Medicine, 030212 general & internal medicine, Safety, Risk, Reliability and Quality, business, Safety Research

Abstract

Rationale There is increasing concern about occupational illness, injury and productivity losses due to hot weather in a changing climate. Most of the current understanding appears to relate to heat-induced illness, and relatively little regarding injuries. Objectives This paper sought to summarise the evidence on the relationship between heat exposure and injuries, to describe aetiological mechanisms and to provide policy suggestions and further research directions. Methods A literature review was conducted using a systematic search for published and grey-literature using Embase, PubMed, Scopus, CINAHL, Science Direct and Web of Science databases as well as relevant websites. Results and conclusions There was a diversity of studies in terms of occupations, industries and methods utilised. The evidence suggests an imprecise but positive relationship between hot weather and occupational injuries, and the most likely mechanism involves fatigue, reduced psychomotor performance, loss of concentration and reduced alertness. The findings reflect an increased awareness of injury risk during hot weather and the economic benefits associated with averting injury, poor health outcomes and lost productivity. Implications More work is required to characterise specific injuries and the workers at risk. Policymakers and employers should be aware that heat exposure can lead to occupational injuries with information and training resources developed to aid prevention.

Published

2018

36. Current and projected healthcare costs for emergency department presentations under the changing climate

Author

Ben Scalley, Michael C. F. Tong, Alana Hansen, Peng Bi, Monika Nitschke, Susan Williams, Keith Dear, Jianjun Xiang, Le Jian, Jonathan Karnon, Berhanu Yazew Wondmagegn, Hilary Bambrick, Dino Pisaniello, John Nairn, and A. Xiao

Subjects

business.industry, Health care, medicine, General Earth and Planetary Sciences, Emergency department, Medical emergency, Current (fluid), business, medicine.disease, General Environmental Science

Published

2020

37. Occupational heat stress and economic burden: A review of global evidence

Author

Malcolm R Sim, Alana Hansen, Matthew Borg, Peng Bi, Keith Dear, Dino Pisaniello, Jianjun Xiang, Olga Anikeeva, and Kerstin K. Zander

Subjects

Adult, Male, China, Scopus, Climate change, Context (language use), 010501 environmental sciences, 01 natural sciences, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, Cost of Illness, Environmental health, Occupational Exposure, Health care, Humans, 030212 general & internal medicine, Productivity, 0105 earth and related environmental sciences, General Environmental Science, Retrospective Studies, business.industry, Global warming, Australia, Heat stress, 13. Climate action, Spain, 8. Economic growth, business, Heat-Shock Response

Abstract

Background The adverse effects of heat on workers’ health and work productivity are well documented. However, the resultant economic consequences and productivity loss are less understood. This review aims to summarize the retrospective and potential future economic burden of workplace heat exposure in the context of climate change. Methods Literature was searched from database inception to October 2020 using Embase, PubMed, and Scopus. Articles were limited to original human studies investigating costs from occupational heat stress in English. Results Twenty studies met criteria for inclusion. Eighteen studies estimated costs secondary to heat-induced labor productivity loss. Predicted global costs from lost worktime, in US$, were 280 billion in 1995, 311 billion in 2010 (≈0.5% of GDP), 2.4–2.5 trillion in 2030 (>1% of GDP) and up to 4.0% of GDP by 2100. Three studies estimated heat-related healthcare expenses from occupational injuries with averaged annual costs (US$) exceeding 1 million in Spain, 1 million in Guangzhou, China and 250,000 in Adelaide, Australia. Low- and middle-income countries and countries with warmer climates had greater losses as a proportion of GDP. Greater costs per worker were observed in outdoor industries, medium-sized businesses, amongst males, and workers aged 25–44 years. Conclusions The estimated global economic burden of occupational heat stress is substantial. Climate change adaptation and mitigation strategies should be implemented to likely minimize future costs. Further research exploring the relationship between occupational heat stress and related expenses from lost productivity, decreased work efficiency and healthcare, and costs stratified by demographic factors, is warranted. Key messages. The estimated retrospective and future economic burden from occupational heat stress is large. Responding to climate change is crucial to minimize this burden. Analyzing heat-attributable occupational costs may guide the development of workplace heat management policies and practices as part of global warming strategies.

Published

2020

38. The geography of Ross River virus infection in South Australia, 2000-2013

Author

Jingwen Liu, Scott J. Cameron, Peng Bi, and Alana Hansen

Subjects

Adult, Male, Ross river virus infection, medicine.medical_specialty, Adolescent, viruses, 030231 tropical medicine, Mosquito Vectors, Population health, Disease, Age and sex, Young Adult, 03 medical and health sciences, Ross River virus, Spatio-Temporal Analysis, 0302 clinical medicine, South Australia, Epidemiology, medicine, Humans, 030212 general & internal medicine, Child, Disease Notification, Aged, Aged, 80 and over, biology, Alphavirus Infections, Infant, Newborn, Infant, General Medicine, Middle Aged, biology.organism_classification, Geography, Child, Preschool, Vector (epidemiology), Female, Residence, Seasons, Demography

Abstract

Introduction Ross River virus (RRV) disease is Australia’s most common arthropod-borne disease which has an important impact on population health and productivity. The aim of this study was to identify the spatial and temporal distribution of RRV notifications during 2000–2013 in South Australia (SA). Methods The epidemiologic patterns of RRV notifications in SA from January 2000 to December 2013 were examined at a statistical local area (SLA) level. Spatial-temporal analyses were conducted using patient-reported place of exposure to characterise the recurrence of RRV infection stratified by age and sex. Results During the study period, a total of 3,687 RRV disease notifications were recorded in the state with state-wide mean annual rates of 16.8 cases per 100,000 persons and a 1:1.32 male:female ratio. The SLAs reporting cases of RRV disease exhibited spatial and temporal variation. Notified cases of RRV disease occurred more frequently in summer and autumn. A geographic expansion was observed of the area within which RRV cases occur. The comparison of age- and sex-standardised incidence rates, calculated by place of residence and patient-reported place of exposure, highlights the importance of using the latter to accurately display geospatial disease trends over time. Areas with the largest proportion of visitor cases and having the highest risk were mostly along the River Murray, which provides many vector mosquito habitats. Conclusion Although public health interventions should be considered in all SLAs where RRV occurs, we suggest that priority should be given to the Riverland areas identified as highest risk.

Published

2020

39. Using a Qualitative Phenomenological Approach to Inform the Etiology and Prevention of Occupational Heat-Related Injuries in Australia

Author

Monika Nitschke, Jane Heyworth, Shelley Rowett, Susan Williams, Scott Hanson-Easey, Dino Pisaniello, Alana Hansen, Blesson M. Varghese, Malcolm R Sim, and Peng Bi

Subjects

Adult, Male, medicine.medical_specialty, Hot Temperature, injury, Health, Toxicology and Mutagenesis, Poison control, lcsh:Medicine, australia, Interpersonal communication, Heat Stress Disorders, Suicide prevention, Occupational safety and health, Article, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Environmental health, Occupational Exposure, Epidemiology, Injury prevention, medicine, Humans, 030212 general & internal medicine, occupational, Occupational Health, Aged, lcsh:R, Public Health, Environmental and Occupational Health, Human factors and ergonomics, Middle Aged, 030210 environmental & occupational health, Occupational Injuries, heat exposure, qualitative, Female, Personal experience, Psychology

Abstract

Epidemiological evidence has shown an association between exposure to high temperatures and occupational injuries, an issue gaining importance with environmental change. The aim of this study was to better understand contributing risk factors and preventive actions based on personal experiences. Interviews were conducted with 21 workers from five Australian states using a critical phenomenological approach to capture the lived experiences of participants, whilst exploring contextual factors that surround these experiences. Two case studies are presented: a cerebrovascular injury and injuries among seasonal horticulture workers. Other accounts of heat-related injuries and heat stress are also presented. Risk factors were classified as individual, interpersonal and organizational. In terms of prevention, participants recommended greater awareness of heat risks and peer-support for co-workers. Adding value to current evidence, we have provided new insights into the etiology of the health consequences of workplace heat exposure with workers identifying a range of influencing factors, prevention measures and adaptation strategies. Underpinning the importance of these are future climate change scenarios, suggesting that extended hot seasons will lead to increasing numbers of workers at risk of heat-stress and associated occupational injuries.

Published

2020

40. Heatwave and work-related injuries and illnesses in Adelaide, Australia: a case-crossover analysis using the Excess Heat Factor (EHF) as a universal heatwave index

Author

Scott Hanson-Easey, Monika Nitschke, John Nairn, Peng Bi, Dino Pisaniello, Alana Hansen, and Blesson M. Varghese

Subjects

Adult, Male, Work related injuries, Index (economics), Adolescent, Ambulances, Occupational injury, Occupational safety and health, Daily maximum temperature, Extreme heat, 03 medical and health sciences, 0302 clinical medicine, CASE CROSSOVER, Occupational Exposure, Environmental health, Humans, Medicine, 030212 general & internal medicine, Cross-Over Studies, business.industry, Australia, Public Health, Environmental and Occupational Health, Extreme Heat, Middle Aged, medicine.disease, Occupational Injuries, 030210 environmental & occupational health, Occupational Diseases, Excess heat, 13. Climate action, 8. Economic growth, Workers' Compensation, Female, business

Abstract

Heatwaves, or extended periods of extreme heat, are predicted to increase in frequency, intensity and duration with climate change, but their impact on occupational injury has not been extensively studied. We examined the relationship between heatwaves of varying severity and work-related injuries and illnesses. We used a newly proposed metric of heatwave severity, the Excess Heat Factor (EHF), which accounts for local climate characteristics and acclimatization and compared it with heatwaves defined by daily maximum temperature. Work-related injuries and illnesses were identified from two administrative data sources: workers’ compensation claims and work-related ambulance call-outs for the years 2003–2013 in Adelaide, Australia. The EHF metrics were obtained from the Australian Bureau of Meteorology. A time-stratified case-crossover regression model was used to examine associations between heatwaves of three levels of severity, workers’ compensation claims, and work-related ambulance call-outs. There was an increase in work-related ambulance call-outs and compensation claims during low and moderately severe heatwaves as defined using the EHF, and a non-significant decline during high-severity heatwaves. Positive associations were observed during moderate heatwaves in compensation claims made by new workers (RR 1.31, 95% CI 1.10–1.55), workers in medium-sized enterprises (RR 1.15, 95% CI 1.01–1.30), indoor industries (RR 1.09, 95% CI 1.01–1.17), males (RR 1.13, 95% CI 1.03–1.23) and laborers (RR 1.21, 95% CI 1.04–1.39). Workers should adopt appropriate precautions during moderately severe heatwaves, when the risks of work-related injuries and illnesses are increased. Workplace policies and guidelines need to consider the health and safety of workers during heatwaves with relevant prevention and adaptation measures.

Published

2018

41. Correlates of Occupational Heat-Induced Illness Costs

Author

Dino Pisaniello, Alana Hansen, Keith Dear, Jianjun Xiang, and Peng Bi

Subjects

Adult, Male, Heat induced, Hot Temperature, Psychological intervention, Heat Stress Disorders, Young Adult, 03 medical and health sciences, Sex Factors, 0302 clinical medicine, Heat illness, Sex factors, Environmental health, South Australia, medicine, Humans, Industry, 030212 general & internal medicine, Aged, Maximum temperature, business.industry, Confounding, Age Factors, Public Health, Environmental and Occupational Health, Health Care Costs, Middle Aged, medicine.disease, 030210 environmental & occupational health, Occupational Diseases, Mining industry, Workers' Compensation, Female, business, Medical costs

Abstract

Objective To investigate the profile of occupational heat-induced illness costs in South Australia and to examine the association with high temperature. Methods Workers' compensation claim data were used to quantify the associations between maximum temperature (Tmax) and occupational heat illness (OHI)-related costs, using time-series analysis after controlling for confounding factors. Results Four hundred thirty-eight OHI claims in 2000 to 2014 resulted in total medical costs of AU$6,002,840 and 5,036 work days lost. Relatively higher OHI burdens were found in men, those aged 25 to 44 years, new workers, medium-size businesses, and those employed in the mining industry. A 1 °C increase in Tmax above about 33 °C was associated with a 41.6% increase in medical costs and a 74.8% increase in days lost due to OHI, respectively. Conclusions The cost profile of OHI may be used to justify interventions for particular industries, occupations, and worker categories.

Published

2018

42. China's capacity of hospitals to deal with infectious diseases in the context of climate change

Author

Alana Hansen, Yehuan Sun, Xiaobo Liu, Scott J. Cameron, Jianjun Xiang, Gil-Soo Han, Michael Xiaoliang Tong, Peng Bi, Philip Weinstein, Qiyong Liu, and Scott Hanson-Easey

Subjects

Adult, Male, China, Capacity Building, Health (social science), Attitude of Health Personnel, Climate Change, Population health, 010501 environmental sciences, Communicable Diseases, 01 natural sciences, Article, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Hospital Administration, History and Philosophy of Science, Environmental health, Health care, Humans, 030212 general & internal medicine, 0105 earth and related environmental sciences, Descriptive statistics, business.industry, Hospital capacity, Capacity building, Questionnaire, Personnel, Hospital, Cross-Sectional Studies, Infectious disease (medical specialty), Health Care Surveys, Infectious diseases, Female, Rural area, business, Clinical professionals, Climate change in China

Abstract

Objectives Infectious diseases are a major cause of morbidity and mortality in China. The capacity of hospitals to deal with the challenge from emerging and re-emerging infectious diseases due to climate change is of great importance to population health. This study aimed to explore the capacity of hospitals in China to deal with such challenges. Methods A cross-sectional questionnaire survey was utilized to gauge information regarding capacity of hospitals to deal with infectious diseases in the context of climate change among 611 clinical professionals whose roles pertained to infectious disease diagnosis, treatment and management in Anhui Province of China. Descriptive analysis and logistic regression analysis were performed on the data. Results More than 90% of participants believed climate change would have an adverse influence on population health and infectious disease control in China. Most indicated that their hospitals were well prepared for emerging infectious diseases at present, and they considered that logistical support in hospitals (e.g. administrative and maintenance services) should be strengthened for future capacity building. The majority of participants suggested that effective prevention and control measures, more interdisciplinary collaborations, more funding in rural areas for health care, and improved access to facilities enabling online reporting of infectious diseases, were extremely important strategies in building capacity to curb the population health impact of emerging and re-emerging infectious diseases due to climate change in China. Conclusions Clinical professionals recognized that climate change will likely increase the transmission of infectious diseases. Although rural health care and hospitals’ logistical support need to be improved, most professionals believed their hospitals to be capable of dealing with emerging diseases. They thought that interdisciplinary and cross-regional collaborations, together with necessary resource support (e.g. improved facilities for rural health care) would be important control strategies., Highlights • Most participants indicated climate change would affect infectious diseases. • Generally, hospitals were well prepared for emerging infectious diseases. • Hospital's logistical support should be strengthened urgently. • Improving the capacity of rural health care and hospitals were extremely important.

Published

2018

43. Risk communication for new and emerging communities: The contingent role of social capital

Author

Peng Bi, Alana Hansen, Danielle Every, and Scott Hanson-Easey

Subjects

Community resilience, Dialogic, 030505 public health, business.industry, Social connectedness, Geology, Public relations, Geotechnical Engineering and Engineering Geology, 03 medical and health sciences, 0302 clinical medicine, Natural hazard, Mainstream, 030212 general & internal medicine, Sociology, 0305 other medical science, business, Natural disaster, Safety Research, Social vulnerability, Social capital

Abstract

This study examines the role of social connectedness, or ‘social capital’, in mediating the dissemination and interpretation of natural hazards risk information for new migrant communities in South Australia, who have English as a second language. Using a focus-group methodology, analysis shows that intra-group networking, or so called ‘bonding’ social capital, is key to accessing and making sense of risk information. Settlement agencies and education providers were considered vital in helping new migrant communities check their understanding of risk messages originally sourced from mainstream media. Conversely, analysis shows that not all new migrant community members have access to positive social networks. The effective provision of natural disaster and natural hazards risk information can enhance community resilience and ameliorate social vulnerability, yet for some new migrant communities, salient and targeted messaging that addresses their discrete cultural and communication needs is not assessable, or available. We contend that an interactive, dialogic approach to developing and disseminating risk messages is required, which will go part way to reducing social disparities in natural hazards and disaster preparedness.

Published

2018

44. Hot weather as a risk factor for kidney disease outcomes: A systematic review and meta-analysis of epidemiological evidence

Author

Alana Hansen, Geoffrey G. Morgan, Ying Zhang, Matthew Borg, Peng Bi, Blesson M. Varghese, Jingwen Liu, Michelle Gourley, Anthony Capon, Keith Dear, and Tim Driscoll

Subjects

medicine.medical_specialty, Hot Temperature, Environmental Engineering, Exacerbation, Infrared Rays, Population, Risk Factors, Environmental health, Epidemiology, Humans, Environmental Chemistry, Medicine, Risk factor, education, Waste Management and Disposal, education.field_of_study, business.industry, medicine.disease, Pollution, Systematic review, Meta-analysis, Relative risk, Kidney Diseases, Morbidity, business, Kidney disease

Abstract

Background The occurrence or exacerbation of kidney disease has been documented as a growing problem associated with hot weather. The implementation of effective prevention measures requires a better understanding of the risk factors that increase susceptibility. To fill gaps in knowledge, this study reviews the current literature on the effects of heat on kidney-disease outcomes (ICD-10 N00-N39), including morbidity and mortality. Methods Databases were systematically searched for relevant literature published between 1990 and 2020 and the quality of evidence evaluated. We performed random effects meta-analysis to calculate the pooled relative risks (RRs) of the association between high temperatures (and heatwaves) and kidney disease outcomes. We further evaluated vulnerability concerning contextual population characteristics. Results Of 2739 studies identified, 91 were reviewed and 82 of these studies met the criteria for inclusion in a meta-analysis. Findings showed that with a 1 °C increase in temperature, the risk of kidney-related morbidity increased by 1% (RR 1.010; 95% CI: 1.009–1.011), with the greatest risk for urolithiasis. Heatwaves were also associated with increased morbidity with a trend observed with heatwave intensity. During low-intensity heatwaves, there was an increase of 5.9% in morbidity, while during high-intensity heatwaves there was a 7.7% increase. There were greater RRs for males, people aged ≤64 years, and those living in temperate climate zones. Similarly, for every 1 °C temperature increase, there was a 3% (RR 1.031; 95% CI: 1.018–1.045) increase in the risk of kidney-related mortality, which also increased during heatwaves. Conclusions High temperatures (and heatwaves) are associated with an elevated risk of kidney disease outcomes, particularly urolithiasis. Preventive measures that may minimize risks in vulnerable individuals during hot spells are discussed.

Published

2021

45. Heat-attributable hospitalisation costs in Sydney: Current estimations and future projections in the context of climate change

Author

Ben Scalley, Susan Williams, Michael C. F. Tong, Alana Hansen, Jonathan Karnon, Jianjun Xiang, John Nairn, Peng Bi, Keith Dear, Le Jian, Jianguo Xiao, Blesson M. Varghese, Dino Pisaniello, Hilary Bambrick, Monika Nitschke, and Berhanu Yazew Wondmagegn

Subjects

Distributed lag, Atmospheric Science, business.industry, Total cost, Geography, Planning and Development, Climate change, Context (language use), Environmental Science (miscellaneous), Urban Studies, Greenhouse gas, Environmental health, Health care, Attributable risk, Environmental science, business, Baseline (configuration management)

Abstract

The association between heat and diseases has been extensively reported. However, its associated healthcare costs and attributable fraction due to heat were scarcely explored. The aim of this study was to estimate hospitalisation costs attributable to heat in Sydney, and to project future costs under climate change scenarios. Using a distributed lag nonlinear model, this study estimated heat-attributable hospitalisation costs in Sydney; and using 2010–2016 data as baseline, future costs for 2030s and 2050s were estimated under three climate change scenarios depending on greenhouse gas emissions - Representative Concentration Pathway (RCP)2.6, RCP4.5, and RCP8.5. Higher temperatures were found to be associated with increased hospitalisation costs. About 8–9% of the total hospitalisation costs were attributable to heat. The total costs attributable to heat over the baseline period 2010–2016 were estimated to be AU$252 million, with mental health hospitalisation making the largest contribution. Hospitalisation costs are estimated to increase substantially to AU$387–399 million in the 2030s, and AU$506–570 million by mid-century under different climate change scenarios. Urgent action is required to reduce heat-attributable illness in our communities, particularly for mental health conditions. Relevant preparations including healthcare workforce capacity building and resource allocation are needed to deal with these challenges in the context of climate change.

Published

2021

46. Association between malaria incidence and meteorological factors: a multi-location study in China, 2005–2012

Author

Philip Weinstein, Alana Hansen, Xiaobo Liu, Michael Xiaoliang Tong, Jianjun Xiang, Yehuan Sun, Scott J. Cameron, Peng Bi, Qiyong Liu, Craig R. Williams, Scott Hanson-Easey, Gil-Soo Han, Xiang, J, Hansen, A, Liu, Q, Tong, MX, Liu, X, Sun, Y, Cameron, S, Hanson-Easey, S, Han, GS, Williams, C, Weinstein, P, and Bi, P

Subjects

China, Veterinary medicine, Meteorological Concepts, Epidemiology, Climate, 030231 tropical medicine, malaria, Climate change, mosquito, Biology, 03 medical and health sciences, 0302 clinical medicine, parasitic diseases, medicine, Humans, Relative humidity, 030212 general & internal medicine, Cities, Generalized estimating equation, Epidemic season, Incidence, Temperature, temperature, medicine.disease, Original Papers, Disease control, Malaria, climate change, Infectious Diseases, Malaria incidence, weather, Multivariate Analysis, Seasons

Abstract

SUMMARYThis study aims to investigate the climate–malaria associations in nine cities selected from malaria high-risk areas in China. Daily reports of malaria cases in Anhui, Henan, and Yunnan Provinces for 2005–2012 were obtained from the Chinese Center for Disease Control and Prevention. Generalized estimating equation models were used to quantify the city-specific climate–malaria associations. Multivariate random-effects meta-regression analyses were used to pool the city-specific effects. An inverted-U-shaped curve relationship was observed between temperatures, average relative humidity, and malaria. A 1 °C increase of maximum temperature (Tmax) resulted in 6·7% (95% CI 4·6–8·8%) to 15·8% (95% CI 14·1–17·4%) increase of malaria, with corresponding lags ranging from 7 to 45 days. For minimum temperature (Tmin), the effect estimates peaked at lag 0 to 40 days, ranging from 5·3% (95% CI 4·4–6·2%) to 17·9% (95% CI 15·6–20·1%). Malaria is more sensitive to Tmin in cool climates and Tmax in warm climates. The duration of lag effect in a cool climate zone is longer than that in a warm climate zone. Lagged effects did not vanish after an epidemic season but waned gradually in the following 2–3 warm seasons. A warming climate may potentially increase the risk of malaria resurgence in China.

Published

2017

47. Impact of heatwave intensity using excess heat factor on emergency department presentations and related healthcare costs in Adelaide, South Australia

Author

Monika Nitschke, Le Jian, Alex Xiao, Alana Hansen, Jianjun Xiang, John Nairn, Blesson M. Varghese, Jonathan Karnon, Keith Dear, Dino Pisaniello, Michael C. F. Tong, Berhanu Yazew Wondmagegn, Hilary Bambrick, Ben Scalley, Susan Williams, and Peng Bi

Subjects

Distributed lag, medicine.medical_specialty, Environmental Engineering, 010504 meteorology & atmospheric sciences, business.industry, Public health, Emergency department, 010501 environmental sciences, 01 natural sciences, Pollution, Confidence interval, Excess heat, Age groups, Environmental health, Health care, Environmental Chemistry, Medicine, Disease category, business, Waste Management and Disposal, 0105 earth and related environmental sciences

Abstract

Background The health impacts of heatwaves are a growing public health concern with the frequency, intensity, and duration of heatwaves increasing with global climate change. However, little is known about the healthcare costs and the attributable morbidity associated with heatwaves Objective This study aims to examine the relationship between heatwaves and costs of emergency department (ED) presentations, and to quantify heat-attributable burden during the warm seasons of 2014–2017, in Adelaide, South Australia. Methods Daily data on ED presentations and associated costs for the period 2014–2017 were obtained from the South Australian Department of Health and Wellbeing. Heatwave intensity was determined using the excess heat factor (EHF) index, obtained from the Australian Bureau of Meteorology. A distributed lag non-linear model (DLNM) was used to quantify the cumulative risk of heatwave-intensity over a lag of 0–7 days on ED presentations and costs. Effects of heatwaves were estimated relative to no heatwave. The number of ED presentations and costs attributable to heatwaves was calculated separately for two EHF severity categories (low-intensity and severe/extreme heatwaves). Subgroup analyses by disease-diagnosis groups and age categories were performed. Results For most disease diagnosis and age categories, low-intensity and severe heatwaves were associated with higher rates of ED presentations and costs. We estimated a total of 1161 (95% empirical confidence interval (eCI): 342, 1944) heatwave-attributable all-cause ED presentations and associated healthcare costs (thousands) of AU$1020.3 (95% eCI: 224.9, 1804.7) during the warm seasons of 2014–2017. The heat-related illness was the disease category contributing most to ED presentations and costs. Age groups 0–14 and ≥ 65 years were most susceptible to heat. Conclusions Heatwaves produced a statistically significant case-load and cost burden to the ED. Developing tailored interventions for the most vulnerable populations may help reduce the health impacts of heatwaves and to minimise the cost burden to the healthcare system.

Published

2021

48. Is there an association between hot weather and poor mental health outcomes? A systematic review and meta-analysis

Author

Ying Zhang, Michelle Gourley, Anthony Capon, Jingwen Liu, Keith Dear, Tim Driscoll, Peng Bi, Jianjun Xiang, Alana Hansen, Blesson M. Varghese, and Geoffrey G. Morgan

Subjects

medicine.medical_specialty, Hot Temperature, 010504 meteorology & atmospheric sciences, Climate Change, Population, Context (language use), 010501 environmental sciences, 01 natural sciences, Heatwaves, Organic mental disorders, Environmental health, Outcome Assessment, Health Care, Epidemiology, medicine, Humans, GE1-350, education, 0105 earth and related environmental sciences, General Environmental Science, education.field_of_study, business.industry, Public health, Systematic literature review, Temperature, High temperature, medicine.disease, Mental health, Environmental sciences, Meta-analysis, Relative risk, Morbidity, business

Abstract

Background Mental health is an important public health issue globally. A potential link between heat exposure and mental health outcomes has been recognised in the scientific literature; however, the associations between heat exposure (both high ambient temperatures and heatwaves) and mental health-related mortality and morbidity vary between studies and locations. Objective To fill gaps in knowledge, this systematic review aims to summarize the epidemiological evidence and investigate the quantitative effects of high ambient temperatures and heatwaves on mental health-related mortality and morbidity outcomes, while exploring sources of heterogeneity. Methods A systematic search of peer-reviewed epidemiological studies on heat exposure and mental health outcomes published between January 1990 and November 2020 was conducted using five databases (PubMed, Embase, Scopus, Web of Science and PsycINFO). We included studies that examined the association between high ambient temperatures and/or heatwaves and mental health-related mortality and morbidity (e.g. hospital admissions and emergency department visits) in the general population. A range of mental health conditions were defined using ICD-10 classifications. We performed random effects meta-analysis to summarize the relative risks (RRs) in mental health outcomes per 1 °C increase in temperature, and under different heatwaves definitions. We further evaluated whether variables such as age, sex, socioeconomic status, and climate zone may explain the observed heterogeneity. Results The keyword search yielded 4560 citations from which we identified 53 high temperatures/heatwaves studies that comprised over 1.7 million mental health-related mortality and 1.9 million morbidity cases in total. Our findings suggest associations between heat exposures and a range of mental health-related outcomes. Regarding high temperatures, our meta-analysis of study findings showed that for each 1 °C increase in temperature, the mental health-related mortality and morbidity increased with a RR of 1.022 (95%CI: 1.015–1.029) and 1.009 (95%CI: 1.007–1.015), respectively. The greatest mortality risk was attributed to substance-related mental disorders (RR, 1.046; 95%CI: 0.991–1.101), followed by organic mental disorders (RR, 1.033; 95%CI: 1.020–1.046). A 1 °C temperature rise was also associated with a significant increase in morbidity such as mood disorders, organic mental disorders, schizophrenia, neurotic and anxiety disorders. Findings suggest evidence of vulnerability for populations living in tropical and subtropical climate zones, and for people aged more than 65 years. There were significant moderate and high heterogeneities between effect estimates in overall mortality and morbidity categories, respectively. Lower heterogeneity was noted in some subgroups. The magnitude of the effect estimates for heatwaves varied depending on definitions used. The highest effect estimates for mental health-related morbidity was observed when heatwaves were defined as “mean temperature ≥90th percentile for ≥3 days” (RR, 1.753; 95%CI: 0.567–5.421), and a significant effect was also observed when the definition was “mean temperature ≥95th percentile for ≥3 days”, with a RR of 1.064 (95%CI: 1.006–1.123). Conclusions Our findings support the hypothesis of a positive association between elevated ambient temperatures and/or heatwaves and adverse mental health outcomes. This problem will likely increase with a warming climate, especially in the context of climate change. Further high-quality studies are needed to identify modifying factors of heat impacts.

Published

2021

49. Emergency department visits and associated healthcare costs attributable to increasing temperature in the context of climate change in Perth, Western Australia, 2012–2019

Author

Jianguo Xiao, Alana Hansen, Michael Xiaoliang Tong, Ben Scalley, Berhanu Yazew Wondmagegn, Jianjun Xiang, Jonathan Karnon, Le Jian, Dino Pisaniello, Susan Williams, Monika Nitschke, Keith Dear, Peng Bi, Hilary Bambrick, and John Nairn

Subjects

medicine.medical_specialty, 010504 meteorology & atmospheric sciences, Renewable Energy, Sustainability and the Environment, business.industry, Public health, Public Health, Environmental and Occupational Health, Psychological intervention, Climate change, Context (language use), Population health, 010501 environmental sciences, 01 natural sciences, Geography, Environmental health, Attributable risk, Health care, medicine, business, Risk assessment, 0105 earth and related environmental sciences, General Environmental Science

Abstract

Increasing temperature and its impact on population health is an emerging significant public health issue in the context of climate change in Australia. While previous studies have primarily focused on risk assessment, very few studies have evaluated heat-attributable emergency department (ED) visits and associated healthcare costs, or projected future health and economic burdens. This study used a distributed lag non-linear model to estimate heat attributable ED visits and associated healthcare costs from 13 hospitals in Perth, Western Australia, and to project the future healthcare costs in 2030s and 2050s under three climate change scenarios—Representative Concentration Pathways (RCPs)2.6, RCP4.5 and RCP8.5. There were 3697 ED visits attributable to heat (temperatures above 20.5 °C) over the study period 2012–2019, accounting for 4.6% of the total ED visits. This resulted in AU$ 2.9 million in heat-attributable healthcare costs. The number of ED visits projected to occur in the 2030s and 2050s ranges from 5707 to 9421 under different climate change scenarios, which would equate to AU$ 4.6–7.6 million in heat associated healthcare costs. The heat attributable fraction for ED visits and associated healthcare costs would increase from 4.6% and 4.1% in 2010s to 5.0%–6.3% and 4.4%–5.6% in 2030s and 2050s, respectively. Future heat attributable ED visits and associated costs will increase in Perth due to climate change. Excess heat will generate a substantial population health challenge and economic burdens on the healthcare system if there is insufficient heat adaptation. It is vital to reduce greenhouse gas emissions, develop heat-related health interventions and optimize healthcare resources to mitigate the negative impact on the healthcare system and population health in the face of climate change.

Published

2021

50. Health professionals' perceptions of hemorrhagic fever with renal syndrome and climate change in China

Author

Scott J. Cameron, Gil-Soo Han, Michael Xiaoliang Tong, Yehuan Sun, Jianjun Xiang, Alana Hansen, Xiaobo Liu, Peng Bi, Scott Hanson-Easey, Philip Weinstein, Craig R. Williams, Qiyong Liu, Tong, Michael Xiaoliang, Hansen, Alana, Hanson-Easey, Scott, Cameron, Scott, Xiang, Jianjun, Liu, Qiyong, Liu, Xiaobo, Sun, Yehuan, Weinstein, Philip, Han, Gil Soo, Williams, Craig, and Bi, Peng

Subjects

medicine.medical_specialty, 030231 tropical medicine, Disease, Population health, perception, infectious diseases, Oceanography, 03 medical and health sciences, 0302 clinical medicine, Environmental protection, health professionals, Environmental health, hemorrhagic fever with renal syndrome, Medicine, 030212 general & internal medicine, Global and Planetary Change, business.industry, Transmission (medicine), Public health, Incidence (epidemiology), virus diseases, climate change, Health promotion, Hantavirus Infection, business, Climate change in China

Abstract

Background Hemorrhagic fever with renal syndrome (HFRS) is a serious public health problem in China. Although the incidence of HFRS sharply reduced towards the end of the twentieth century, there has been a re-emergence of the disease after 2008 in some parts of China. The aim of this study was to gauge the perceptions of health professionals in China concerning HFRS control and climate change. Methods A cross-sectional survey about HFRS and climate change was conducted among staff in the Centers for Disease Control and Prevention (CDC) in Liaoning and Anhui Provinces, where HFRS is still a public health concern. Descriptive analyses were performed to assess survey results. Results In total, 412 questionnaires were distributed, and 381 participants completed the survey. > 80% of participants thought climate change would have an influence on population health and infectious diseases. However, fewer participants (

Published

2017