(Helsinki, Finland, Saturday, 21 June 2025) New research, presented today at the European Academy of Neurology (EAN) Congress 2025, has uncovered a powerful link between nighttime heart rhythm and future health conditions, even in people with no obvious sleep problems.1
The study, which was conducted at the Department of Neurology, Inselspital, the University Hospital of Bern, analysed 4,170 individuals over an observation period of 13,217 person-years, found that heart rate variability (HRV) during sleep can serve as a powerful early warning sign of future health conditions, including stroke, depression, and cognitive dysfunction.
HRV reflects the fluctuation of time intervals between heartbeats.2 HRV adjusts constantly in response to physical and emotional demands of the body. During the day, HRV is physiologically high corresponding to high levels of activity. At night, and especially during deep sleep, HRV typically reduces, reflecting a shift into a rest and repair mode, where the body focuses on recovery and recharging for the next day.
The research found that certain HRV patterns were linked to future health conditions. Participants who later developed stroke often showed unusually high and erratic HRV. In contrast, low HRV was common in those who further developed depression. High HRV with altered frequency patterns were also observed in individuals who later developed metabolic diseases. Similarly, cardiovascular and endocrine diseases were also associated with high HRV.
“HRV matters for brain and overall health because it reflects how well the body regulates itself – primarily through the activity of the autonomic nervous system”, explained the lead author of the study, Irina Filchenko, MD, PhD. “This system controls vital unconscious processes such as breathing, digestion and muscle tone, helping the body maintain balance and adapt to internal and external demands.”
“While many people are familiar with tracking sleep stages or total sleep time, nocturnal HRV provides a unique window into how the body functions during sleep. This is especially important because sleep is a critical time for many physiological processes underlying long-term health, such as cellular repair, memory consolidation, and the clearance of metabolic waste from the brain.”
Importantly, researchers believe that HRV could act as an early physiological marker, demonstrating subtle changes in body functioning before traditional symptoms or diagnoses appear. This could open the door to prevention and early intervention for diseases like Alzheimer's or stroke, where timely action can improve patient outcomes.
Dr Filchenko noted, “Some participants had ‘normal’ sleep according to traditional criteria, with little sleep fragmentation and the expected balance of sleep stages. However, HRV told a different story, picking up risks that the common sleep metrics missed. This suggests we need to rethink how we define and measure optimal sleep.”
The findings of the study also raise the possibility of using wearable technology to monitor HRV patterns over time. While current consumer devices vary in accuracy and interpretability, experts believe future improvements could allow people to track changes in HRV as part of regular health monitoring.
The research adds to growing evidence that sleep is a critical pillar of long-term health, and that subtle patterns could offer a window of opportunity to prevent serious disease. “The broader message is that sleep is not just a passive state of rest — it is an active, dynamic process that plays a vital role in maintaining long-term health, especially brain health. Our findings reinforce the idea that primary prevention matters, and that health problems start long before the clinical symptoms appear”, concluded Dr Filchenko.
ENDS
Notes to Editors:
Press Enquiries:
A reference to the EAN Congress 2025 must be included when communicating the information within this press release.
For further information or to speak to an expert, please contact the press team at press@ean.org.
About the Expert:
Irina Filchenko, MD, PhD, is a physician-scientist with a background in neurology and sleep medicine. She obtained her medical degree from Pavlov University (St. Petersburg) and completed a PhD in Neuroscience at the University of Bern under the supervision of Prof. Claudio L. A. Bassetti and PD Markus H. Schmidt, MD, PhD. Dr Filchenko is completing her neurology residency at the Inselspital, the University Hospital of Bern. Her research focuses on the relationship between sleep, brain health, neurological disorders and their prevention, course, and recovery.
About the EAN:
EAN is a non-profit, independent organisation representing more than 45,000 members, as well as 48 European national societies. As a medical society we promote excellence in the practice of general neurology throughout Europe, leading to improved patient care.
We also aim to keep Europe at the forefront of neurological research and maintain its position as one of the world’s leading scientific hotspots in neurology.
Learn more: ean.org
References:
- Filchenko, I. Sleep and longevity: insights from sleep macroarchitecture and nocturnal heart rate variability. Presented at the European Academy of Neurology (EAN) Congress 2025; 21 June 2025; Helsinki, Finland.
- Shaffer, F., & Ginsberg, J. P. (2017). An Overview of Heart Rate Variability Metrics and Norms. Frontiers in public health, 5, 258. https://doi.org/10.3389/fpubh.2017.00258