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Human Heart's 'Battery' Has Multiple Backups: A New Hope To Maintain Consistent Heart Rhythm

 Ratneshwar Thakur |  2017-08-04 08:46:36.0  0  Comments

Human Heart(High resolution immunostaining image of the human sinoatrial node. Image credit: Dr. Vadim V. Fedorov)

Researchers at The Ohio State University Wexner Medical Center have discovered the human sinoatrial node is hardwired with a backup system. In the groundbreaking study they have found that three diverse regions of pacemakers acting as batteries and up to five conduction pathways that act as wires to connect the signal to the atria

A heartbeat begins when the sinoatrial node fires off an electrical impulse that disperses across the atria, the blood-collecting chambers. The sinoatrial node (SAN) is the primary pacemaker of the human heart and responsible for initiating and regulating cardiac rhythm.Since the discovery of the SAN by Keith and Flack in 1907, multiple studies have investigated the SAN structure and its role in the formation and regulation of sinus rhythm in human and different animal hearts. However, until now, scientists didn't know for sure how the human SAN protected the heart's rhythm or how the system failed.

Due to the methodological limitations of studying the heart in patients, the current perception of the SAN is a very simplistic.

"Our study revealed the functional and structural complexity of the human SAN. The human SAN is hardwired with a backup system -- three diverse regions of pacemakers acting as batteries and up to five conduction pathways that act as wires to connect the signal to the atria. This built-in redundancy maintains consistent heart rhythm in most people for decades, even under trying conditions," said Dr. Vadim Fedorov, an associate professor in Ohio State's Department of Physiology and Cell Biology.

The study is published in the Journal "Science Translational Medicine."

It has been challenging to study human SAN pacemaker complex as it is a heterogeneous 3D structure that lies within the atrial wall, and clinical electrode recordings are limited to only surface atrial activation. Furthermore, the human SAN differs greatly from well-studied experimental animal models.

To overcome these challenges, Dr. Fedorov and his team integrated the high-resolution optical mapping with 3D structural reconstruction and molecular mapping, to reveal the functional, structural, and molecular characteristics underlying robustness of the human SAN pacemaker and conduction complex.

Defects in the pacemaker can lead to heart rhythm disorders that are commonly treated by doctors through implantation of electronic pacemaker devices.

Dr. Fedorov's team believes that their research may contribute significantly to the development of novel treatments for human SAN dysfunction and cardiac arrhythmias.

"Specifically, our study is providing the foundation for seeking out ways to improve or restore SAN function by targeted treatments in patients with impaired SAN and thus avoiding an electronic pacemaker implant. Our hope is that someday, electronic pacemaker implants could be obsolete,"said Dr. Vadim Fedorov.


Ratneshwar Thakur ( 22 )

Ratneshwar Thakur is a Molecular Biologist, and Freelance Science Writer & Editor. He writes about Biomedical Research, Emerging Technologies, Scientific Trends, and Ethics in Science. He is serving as Research Technical officer at National Institute of Plant Genome Research, New Delhi. He has done specialization in Medical Biotechnology from The M.S. University of Baroda and has vast experience of scientific trends in academia like Subharti Medical College - Subharti University (Meerut), and Research Institutions like National Institute of Immunology (New Delhi), Institute of Molecular Medicine (New Delhi), and Biotech Industries like Concord Biotech (Ahmedabad) and many more. He has been writing for National and International publishing houses like “The Hindu”, “The Hawk” and others. His aim is to translate the complex scientific information, theories and practices in a clear, concise and accurate language that can be understood by the general public. In this direction, he undertook a training course in "Science Journalism’’. He is actively involved in the promotion of education and popularization of science.

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