A groundbreaking study from the Karolinska Institutet and Columbia University has revealed that the heart contains its own complex nervous system, referred to as a “mini-brain,” which plays a crucial role in regulating heart rhythm. This discovery, published in Nature Communications, challenges the long-held belief that the heart’s function is solely controlled by the brain’s autonomic nervous system.
For years, the heart was considered to be mainly a relay system for commands sent from the brain. However, the new research shows that embedded within the heart’s walls is a network of neurons that significantly contributes to maintaining and controlling the heartbeat.
Konstantinos Ampatzis, the principal researcher at Karolinska Institutet, emphasized the importance of this discovery, comparing the heart’s intrinsic nervous system to how the brain controls bodily functions like movement and breathing.
The research team used zebrafish, which share key physiological similarities with humans, as their model. They identified various types of neurons within the heart, including a group of specialized neurons with pacemaker properties that influence heart rhythm. This discovery could pave the way for new treatments for heart conditions like arrhythmias.
Ampatzis expressed his astonishment at the complexity of the heart’s nervous system, noting that a deeper understanding of this “heart brain” could lead to innovative therapeutic strategies. The researchers also plan to investigate how this network interacts with the central brain, especially under conditions such as exercise and stress.
Supported by several foundations, this collaborative study highlights the need for further exploration into how disruptions in the heart’s neural network may contribute to cardiac disorders. As researchers continue to unlock the secrets of this intricate system, they aim to discover new approaches to treating heart diseases and improving cardiovascular health.