3 MIN READ

New research reveals early warning sign for heart disease

The build-up of calcium in a major artery outside of the heart could predict future heart attack or stroke, a new Edith Cowan University led study has demonstrated.

Back to research articles

New research reveals early warning sign for heart disease

The build-up of calcium in a major artery outside of the heart could predict future heart attack or stroke, a new Edith Cowan University led study has demonstrated.

Published in the Journal of the American Heart Association, the research could help doctors identify people at risk of cardiovascular disease years before symptoms arise.

Analysing 52 previous studies, the international team of researchers found that people who have abdominal aortic calcification (AAC) have a two to four times higher risk of a future cardiovascular event.

The study also found the more extensive the calcium in the blood vessel wall, the greater the risk of future cardiovascular events and people with AAC and chronic kidney disease were at even greater risk than those from the general population with AAC.

Calcium can build up in the blood vessel wall and harden the arteries, blocking blood supply or causing plaque rupture, which is a leading cause of heart attacks and strokes.

The factors contributing to artery calcification include poor diet, a sedentary lifestyle, smoking and genetics.

“Heart disease is often a silent killer as many people don’t know they are at risk or that they have the early warning signs, such as abdominal or coronary artery calcification”

Lead researcher, Associate Professor Josh Lewis

Predicting a ‘silent killer’

Lead researcher Associate Professor Josh Lewis from ECU’s School of Medical and Health Sciences, and Heart Foundation Future Leader Fellow, said the findings offer important clues for cardiovascular health.

“Heart disease is often a silent killer as many people don’t know they are at risk or that they have the early warning signs, such as abdominal or coronary artery calcification,” he said.

“The abdominal aorta is one of the first sites where the build-up of calcium in the arteries can occur – even before the heart.

If we pick this up early, we can intervene and implement lifestyle and medication changes to help stop the condition progressing.”

Saving lives

Associate Professor Lewis hopes this discovery will lead to more people understanding their own risk of having a heart attack or stroke.

“Abdominal aortic calcification is often picked up incidentally in many routine tests, such as lateral spine scans from bone density machines or x-rays, and now we have a much better idea of the prognosis in these people when it is seen,” he said.

“This can signal an early warning for doctors that they need to investigate and assess their patient’s risk of heart attack or stroke.

A promising future

Associate Professor Josh Lewis is supported in his position at ECU by the National Heart Foundation of Australia Future Leader Fellowship.

The Heart Foundation’s manager of clinical evidence, Amanda Buttery welcomed the study.

“The researchers found that evidence of abdominal aortic calcification in patients with no known cardiovascular disease may indicate that a more comprehensive cardiovascular risk assessment is required, including blood pressure and cholesterol testing or a Heart Health Check,” Ms Buttery said.

“The findings are promising, and the Heart Foundation would like to see more research in this area.”

‘Prognostic value of abdominal aortic calcification: A systematic review and meta-analysis of observational studies’ was published in the Journal of the American Heart Association.

“Ultimately, if we can identify this condition sooner, people can make lifestyle changes and start preventative treatments earlier, which could potentially save many lives in the future.”

The international study involved researchers from INSERM, the Hinda and Marcus Institute for Ageing Research, University of Sydney, University of Western Australia and University of Minnesota.

The study builds on Associate Professor Lewis’s recent research on using bone density scans and artificial intelligence to identify and quantify abdominal aortic calcification.

Credit: ECU Newsroom

Help us spread the word

Donate to our research