Kyoto, Japan -- A team of researchers at Kyoto University have demonstrated that the chaotic component of heartbeat variability is uniquely sensitive to cognitive brain activity. Conventional hear rate variability, HRV, indices show no consistent response, whereas chaos-based measures reveal clear and reproducible changes, providing a new non-invasive indicator of brain-heart interaction.
HRV is widely used as an indicator of autonomic nervous system function. However, its ability to reflect higher-order brain activity has remained unclear. In this study, the researchers applied nonlinear analysis and chaos theory to examine heartbeat dynamics under cognitive load.
The researchers had participants perform cognitive tasks designed to engage higher-order brain functions. They then analyzed heartbeat signals using both conventional HRV indices -- such as time-domain and frequency-domain measures -- and chaos-based metrics derived from nonlinear dynamics.
The results revealed a clear contrast. Conventional HRV measures showed little or no consistent response to cognitive activity, yet chaos-based indices exhibited distinct and reproducible changes associated with task engagement.
"One of the most striking findings of our study is that only chaos responded under cognitive load," says team leader Ken Umeno. "It suggests that chaotic dynamics provide a sensitive window into brain-heart coupling that conventional measures cannot capture."
These findings indicate that chaotic fluctuations in heartbeat variability are not merely noise, but instead encode meaningful physiological information related to central nervous system activity. The study establishes chaos as a quantitative marker of system-level integration between the brain and cardiovascular system.
The research was conducted in collaboration with Toshiba Information Systems Corporation, whose expertise in signal processing and data analysis contributed to the identification of subtle nonlinear patterns in physiological data. This collaboration highlights the importance of interdisciplinary approaches combining engineering and life sciences.
These findings have potential applications in mental health, stress monitoring, neurorehabilitation, and human-machine interaction. Because HRV can be measured non-invasively, chaos-based analysis may enable continuous monitoring of cognitive and physiological states in clinical and real-world environments.
Beyond its immediate implications, the study provides a foundation for international research collaboration. The Kyoto University team is actively seeking partnerships with medical institutions and research organizations worldwide to validate and extend these findings across diverse populations and clinical settings, including intensive care, neurological disorders, and psychiatric conditions.
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The paper "Chaotic fluctuations mark the sign of mental activity in task-based heart rate variability" appeared on 24 March 2026 in Scientific Reports , with doi: 10.1038/s41598-026-43385-z
About Kyoto University
Kyoto University is one of Japan and Asia's premier research institutions, founded in 1897 and responsible for producing numerous Nobel laureates and winners of other prestigious international prizes. A broad curriculum across the arts and sciences at undergraduate and graduate levels complements several research centers, facilities, and offices around Japan and the world. For more information, please see: http://www.kyoto-u.ac.jp/en
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Chaotic fluctuations mark the sign of mental activity in task-based heart rate variability
24-Mar-2026