- A new study has advanced how heart failure is detected in women - meaning more patients can be diagnosed, and at an earlier stage
- Researcher from the University of Sheffield, in collaboration with the University of East Anglia and University of Leeds, have fine-tuned how magnetic resonance imaging (MRI) is used to detect heart failure in women, making it more accurate
A new study has advanced how heart failure is detected in women – meaning more female patients can be diagnosed, and at an earlier stage.
Researchers from the Universities of Sheffield, East Anglia (UEA) and Leeds have been able to fine-tune how magnetic resonance imaging (MRI) is used to detect heart failure in women’s hearts, making it more accurate.
Professor Andy Swift, from the University of Sheffield’s School of Medicine and Population Health and Co-author of the study, said: “Women’s hearts are biologically different to men’s.
“Our work suggests that in heart failure women's hearts may respond differently in response to increases in pressure.”
In 2022, University of Sheffield and University of East Anglia published research which showed how using MRI scans could be used to detect heart failure. This led to this technique being widely employed by medics.
When a heart starts to fail, it is unable to pump blood out effectively, and so the pressure in the heart rises.
Lead author Dr Pankaj Garg, from the University of East Anglia’s Norwich Medical School and a consultant cardiologist at the Norfolk and Norwich University Hospital, said: “By refining the method for women specifically, we were able to diagnose 16.5 per cent more females with heart failure.
“This could have a huge impact on the NHS, which diagnoses around 200,000 patients with heart failure each year.
“This improved method will increase early detection, meaning more women can get life-saving treatment sooner."
Co-author Dr Gareth Matthews, of the University of East Anglia’s Norwich Medical School, said: “Currently one of the best ways of diagnosing heart failure is to measure pressures inside the heart with a tube called a catheter.
“While this is very accurate, it is an invasive procedure, and therefore carries risks for patients, which limits its use.
“For this reason, doctors tend to use echocardiograms, which are based on ultrasound, to assess heart function, but this is inaccurate in up to 50 per cent of cases. Using MRI, we can get much more accurate images of how the heart is working.”
The team was able to create an equation which allowed them to non-invasively derive the pressure in the heart using an MRI scanner.
However, previous use of this method wasn’t as accurate as the researchers would have liked in diagnosing heart failure in women, especially in early or borderline disease.
Heart failure can be classed differently, depending on the amount of blood squeezed out of the main chamber of the heart with every beat, known as the heart’s ejection fraction.
Women suffer disproportionately from a type of heart failure where the pumping function of the heart is preserved but the ability of the heart to relax and fill with blood is impaired.
Echocardiography really struggles to diagnose this type of heart failure. The improvements in diagnosis from this new work will enable more of this particular cohort to be diagnosed more accurately and hopefully drive better treatments.
Co-author Dr Peter Swoboda, of the University of Leeds’ Faculty of Medicine and Health, said: “The symptoms of heart failure, like breathlessness and fatigue, can have a devastating effect on patients’ quality of life.
“We are increasingly recognising the importance of early diagnosis and early treatment can improve symptoms and life expectancy.
“This research will help diagnose heart failure in women more quickly and get them established on life-saving treatments sooner.”
The Government’s Health and Social Care Secretary, Victoria Atkins, said: "Heart failure is a devastating condition affecting hundreds of thousands of women in the UK, so this research is a hugely positive development that could make it possible for thousands of people to get diagnosed and treated at an earlier stage.
“For the second year of our Women’s Health Strategy for England, I have been clear that we need more research to look at the differences between how conditions affect men and women.
“I am delighted that this government-backed research has met this challenge so that we can get life-saving treatment to women faster."
The research was a collaboration between the University of Sheffield, University of East Anglia, the University of Leeds, the Norfolk and Norwich University Hospital NHS Foundation Trust, the National Heart Research Institute Singapore, Duke-NUS Medical School in Singapore, Queen Mary University of London, the National Institute for Health and Care Research’s Sheffield Biomedical Research Centre, the University of Amsterdam and Kocaeli City Hospital in Turkey.
It was funded by the National Institute for Health and Care Research (NIHR) Sheffield Biomedical Research Centre, the Wellcome Trust, and the National Medical Research Council (NMRC).
The paper Sex-specific cardiac magnetic resonance pulmonary capillary wedge pressure is published in the European Heart Journal Open.
