Fitness levels shine a light on atrial fibrillation risks
A person’s fitness levels could provide greater insight into the progression of atrial fibrillation, according to a new study by University of Adelaide researchers.
Around 100 patients with atrial fibrillation underwent cycle fitness tests followed by invasive and non-invasive testing to assess cardiac structure and function.
“Our findings suggest that people with atrial fibrillation who are less fit demonstrate significant functional and electrical changes in the heart linked to disease,” said lead author and Post-Doctoral Fellow at the Centre for Heart Rhythm Disorders Dr Jonathan Ariyaratnam.
“This indicates that cardiorespiratory fitness is another important independent risk factor for the development and progression of atrial fibrillation.”
The study, published in , found participants with reduced fitness had increased left atrial (LA) stiffness and reduced LA strain as well as slower conduction velocities when compared to those with a higher CRF.
“Tse associations of reduced CRF occur independently of age, sex, and several other AF risk factors, including hypertension, diabetes, and obstructive sleep apnoea,” said Dr Ariyaratnam.
“T study therefore highlights cardiorespiratory fitness as a risk factor for left atrial dysfunction that underpins the development and progression of atrial fibrillation.
“Importantly, cardiorespiratory fitness is a modifiable risk factor which means that there is the potential to improve left atrial function through improvements in cardiorespiratory fitness.
“We recommend gradually increasing exercise levels with a target of achieving around 210 minutes each week of moderate intensity exercise (e.g. brisk walking, light cycling, doubles tennis).”
Atrial fibrillation affects around half a million Australians and is a major cause of stroke in Australia and can lead to heart failure. Symptoms can include palpitations, shortness of breath, dizziness and chest pain.
“Growing evidence suggests that the atrial substrate underlying AF may be reversible through treatment of the underlying risk factors associated with its development,” said Dr Ariyaratnam.
“The next stage of the research is to investigate whether improving cardiorespiratory fitness through exercise interventions can reduce left atrial symptoms, improve left atrial mechanical function and reduce left atrial electrical remodelling, thereby reducing the risk of developing AF and improving the lives of patients with already diagnosed AF.”
Media contacts:
Dr Jonathan Ariyaratnam, Post-Doctoral Fellow, Centre for Heart Rhythm Disorders, The University of Adelaide. Mobile: +61 (0)402 966 066. Email: jonathan.ariyaratnam@adelaide.edu.au
Dr Adrian Elliott, Heart Foundation Future Leader Fellow, Centre for Heart Rhythm Disorders, The University of Adelaide. Mobile: +61 (0)475 307 267. Email: adrian.elliott@adelaide.edu.au
Professor Prash Sanders, Director, Centre for Heart Rhythm Disorders, The University of Adelaide. :prash.sanders@adelaide.edu.au
Rhiannon Koch, Media Officer, The University of Adelaide. Phone: +61 (0)8313 4075. Mobile: +61 (0)481 619 997. Email: rhiannon.koch@adelaide.edu.au