Curtin University Research Reveals Surge in Perth Hospital Cases Linked to Bushfire Smoke

New research published today shows a strong link between smoke from bushfires and an increase in Perth hospital admissions for heart and lung problems, highlighting the health dangers posed by fine particulate matter (PM2.5).

The study analysed more than half a million hospital admissions from 2015 to 2017, using a detailed smoke exposure model to track PM2.5 levels in Perth and found that older adults, children and people from disadvantaged areas were at higher risk of hospitalisation due to bushfire smoke.

Key Findings:

• High PM2.5 levels led to a 3 per cent increase in overall hospital admissions and a 7 per cent increase in heart-related visits the following day.
• Same-day exposure to high PM2.5 levels increased asthma hospital admissions by 16 per cent, with children experiencing a 93 per cent rise in asthma admissions the next day.
• Hospital admissions for heart arrhythmia increased by 12 per cent on same-day exposure with high smoke levels.

The lead scientific investigator and study author, Associate Professor Adeleh Shirangi from Curtin’s School of Population Health, said particulate matter smaller than 2.5 microns, known as PM2.5, is a major health concern.

“These tiny particles can be inhaled into the lungs and even enter the bloodstream,” Associate Professor Shirangi said.

“Our study showed that people living in lower socioeconomic areas were more significantly affected by elevated PM2.5 levels, with higher rates of hospital admissions for both respiratory and cardiovascular conditions.”

The study found a 154 per cent increase in angina admissions and a 12 per cent increase in heart failure admissions among disadvantaged groups following high bushfire smoke exposure.

Associate Professor Shirangi said the findings underscore the need for effective public health strategies to protect high-risk groups.

“Australians are frequently exposed to pollutants from bushfires, and smoke is the leading cause of increased fine particulate matter levels in Perth,” Associate Professor Shirangi said.

“As climate change leads to more frequent and intense wildfires, understanding and mitigating the health impacts becomes increasingly critical.

“Using air filters and masks can help reduce exposure to harmful smoke, and monitoring air quality alerts during the bushfire season could help hospitals better prepare for patient surges.”