We're global leaders in heat and health research. Extreme heat and hot weather, which is aggravated by climate change, has devastating impacts for human health and wellbeing, and the challenges experienced during extreme heat events vary across the human lifespan.
It is not only crucial to understand how heat stress impacts human health at different stages of life (e.g., during pregnancy or as we age), but the solutions we generate must also be evidenced-based and sustainable cooling solutions to avoid further contributing to the problem of global warming.
Our researchers are dedicated to protecting the most vulnerable populations during extreme heat, for example, individuals with cardiovascular disease or individuals on certain prescription medications. We’re assessing evidence-based cooling strategies and developing innovative methods to help individuals understand their heat-health risks and stay safe during extreme heat events.
Led by HHRC Director Professor Ollie Jay, and supported by a 5-year NHMRC Project Grant, HHRC researchers assessed low-cost and accessible cooling strategies for the most vulnerable populations during extreme heat. In collaboration with the Montreal Heart Institute, our researchers identified optimal strategies for mitigating heat-related illnesses in older adults with and without cardiovascular disease. Our findings on simple strategies to reduce cardiac strain in older adults in extreme heat were published in The New England Journal of Medicine.
HHRI Researchers in collaboration with the Sydney Environment Institute and key stakeholders in government, health and the wider community have developed . The HeatWatch application, funded by NSW Reconstruction Authority allows users to estimate a personalised heat health risk. It provides evidenced-based cooling strategies that are easily implementable with the application design and features shaped by direct consultations with community members via focus groups. The HeatWatch application is a user-friendly and practical tool for heatwave health risk management.
HHRI Researchers are leading a groundbreaking clinical trial on the impact of amitriptyline (a common antidepressant) on the ability to physiologically regulate body temperature during extreme heat. This work is led by HHRI PhD Candidate Lily Hospers and HHRI members Professor Andrew McLachlan (Sydney School of Pharmacy), Professor David Le Couteur (Concord Clinical School), and Dr Yorgi Mavros (Sydney School of Health Sciences). This research may lead to more evidenced-based prescriptive practices and advice for practitioners and public health agencies when it comes to prescription medications and their use during extreme heat events.
Funding:Â NHMRC Investigator Grant.
Our researchers focus on understanding and improving heat-health management for humanitarian settings and vulnerable populations.
Dr Yorgi Mavros is leading an NHMRC-funded project to investigate how to improve overnight sleep quality inside insecticide treated mosquito nets in hot night-time environments. This study will define the parameters of a simple cooling device that can be retrofitted at scale into mosquito nets with the goal of increasing compliance with overnight net-use.
Dr Tim English is leading a multi-disciplinary research team to implement pop-up cooling hubs in Sydney for people experiencing, or at risk of, homelessness during extreme heat events to prevent heat-illness in this population. This research team, which includes members from the HHEATeam (Homelessness and Heat Emergency Activation Team) with St Vincent’s Hospital (Homeless Health Service and Disaster Management Team), and City of Sydney in collaboration with Queensland University of Technology and the University of Technology Sydney, are working towards ensuring that all populations can navigate safely through heatwaves.
¹ó³Ü²Ô»å¾±²Ô²µ:Ìý2022 NHMRC Ideas Scheme
¶Ù°ùÌýTim English is leading a multi-disciplinary research team to implement pop-up cooling hubs in Sydney for people experiencing, or at risk of, homelessness during extreme heat events to prevent heat-illness in this population. The hubs use evidence-based cooling strategies, developed within the Heat and Health Research Centre (HHRC), such as electric fans, misting fans, water dousing and hydration. The hubs are powered by renewable energy to provide relief without contributing to climate change.Â
By prioritising the needs of those experiencing or at risk of homelessness, these hubs not only provide immediate relief from heat but also foster a sense of community and access to critical information and services.
Meet the team:
| °¿±è±ð²Ô¾±²Ô²µÌý»å²¹²â/»å²¹³Ù±ð | Location | Opening time | Closing time |
|---|---|---|---|
| Wednesday 22nd October | Belmore Park, Haymarket |
8.30 am | 5.00 pm |
| °¿±è±ð²Ô¾±²Ô²µÌýday/date | Location | Opening time | Closing time |
|---|---|---|---|
| Sunday 16th of March | Belmore Park, Haymarket |
8.30 am | 5.00 pm |
| Thursday, 25th of January | Eddie Ward Park, Surry Hills | 8.30 am | 5.00 pm |
| Friday, 26th of January | Eddie Ward Park, Surry Hills | 8.30 am | 5.00 pm |
| Monday, 5th of February | Belmore Park, Haymarket | 8.30 am | 5.00 pm |
| Thursday, 29th of February | Eddie Ward Park, Surry Hills | 8.30 am | 5.00 pm |
| 27th of November | Belmore Park, Haymarket |
8.30 am | 5.00 pm |
We take a human-centered approach to understanding how the built environment can impact human health in a warming world. Our researchers focus on sustainable cooling solutions and modifications to the built environment, investigating white/green roofing and shading initiatives, and improving heat-health risks in low-income housing.
Published in the , HHRC researchers and collaborators around the world describe how we can change public health guidance without sacrificing thermal comfort during heatwaves. This work on fan-first cooling demonstrates how to curb summer air conditioning-use by increasing indoor air movement using fans to elevate the upper temperature limit for thermal discomfort. When doing so, this research demonstrated that households can reduce electricity consumption and the associated cost of cooling indoor spaces by up to ~70%, ultimately lowering the stress on frail energy infrastructure during hot weather events.
Our work on how to reduce air conditioning-use during Summer was presented on the ABC which you can , and was an anchor episode for the .
Our researchers are exploring the heat-health impacts from pregnancy to infancy. We’re focused on the effects of extreme heat during pregnancy, heat safety in schools and playgrounds, and effective thermal management for infants. This research aims to better protect vulnerable populations, ensuring heat-health safety from pregnancy through early childhood
Led by ±Ê°ù´Ç´Ú±ð²õ²õ´Ç°ùÌýAdrienne Gordon (Central Clinical School), and supported by Wellcome. HHRC Members are leading a multi-country prospective pregnancy cohort field study in India and Bangladesh, and a laboratory-based study in the Thermal Ergonomics Laboratory Climate Chamber to investigate extreme heat and maternal and child health. This research aims to develop a pregnancy-specific thermo-physiological model that determines heat-health risk for women throughout pregnancy. Our work on maternal and child health during extreme heat was featured in .
Read more aboutÂ
A study led by HHRI researchers ¶Ù°ùÌýJames SmallcombeÌý²¹²Ô»åÌýFauzan Bin Maideen reported that covering a pram with a dry flannel or a muslin cloth can heat up the inside of a pram by almost 4 degrees Celsius. Our research showed that if you combine a damp muslin cloth draped over the pram and add a clip-on fan, you can reduce the temperature within the pram by 4.7 degrees Celsius relative to the outside ambient temperature. This study was published in Ergonomics which you can read , and was also featured in the . The findings from this study have been translated into a heat-health policy infographic by the Global Heat and Health Information Network which can be found  and a short video which can be watched .
We're dedicated to helping individuals in sports, physical activity, and the workforce thrive in a warming world. We focus on developing heat management policies for sports and occupational settings, ensuring effective systems are in place to keep people safe during extreme hea
Since 2019, HHRC Researchers have managed heat stress risk for players at the Australian Open through the development and implementation of a cutting-edge Extreme Heat Policy for tennis.
Across various locations of the Australian Open precinct in Melbourne, HHRC researchers measure the environmental conditions by deploying our patented Environmental Measurement Units (EMUs). These units in association with our Heat Stress Management System, allow for continuous management of the athlete's heat stress risk in real-time. Our Heat Stress Management System has been officially endorsed by the International Olympic Committee to be used for all major outdoor sports at all future Summer Olympic Games starting in Paris in 2024.
Associate ±Ê°ù´Ç´Ú±ð²õ²õ´Ç°ùÌýTroy Cross is leading an NHMRC Ideas Grant on the Australian environmental challenge of extreme heat with fine particulate matter (PM2.5) pollution. To protect against the health impacts of similar future events, evidence-based guidance on PM2.5 levels that should be avoided is urgently needed. This project will systematically identify the PM2.5 levels that different levels of physical activity should be stopped and how these thresholds are altered by temperature, age, and if a person has asthma.
¹ó³Ü²Ô»å¾±²Ô²µ:ÌýNHMRC 2023 Ideas Grant Scheme
Mailing address
Susan Wakil Health Building
University of Sydney
Camperdown, NSW 2006
