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Fainting or Passing Out? Unveil the Nexus of Brain-Heart Link

This study was conducted by researchers at the University of California San Diego, along with colleagues at The Scripps Research Institute and other institutions, and published in the journal

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, or other causes, account for a significant portion of hospital emergency room visits. Yet the exact root mechanisms at play when people “pass out” largely have remained a mystery.

One of their unique approaches was to think of the heart as a sensory organ rather than the longstanding viewpoint that the brain sends out signals and the heart simply follows directions. School of Biological Sciences Assistant Professor Vineet Augustine, the paper’s senior author, applies a variety of approaches to better understand these neural connections between the heart and brain.

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“What we are finding is that the heart also sends signals back to the brain, which can change brain function,” said Augustine. Information resulting from the study could be relevant to better understanding and treating various psychiatric and neurological disorders linked with brain-heart connections, the researchers note in their paper.

“Our study is the first comprehensive demonstration of a genetically defined cardiac reflex, which faithfully recapitulates characteristics of human syncope at physiological, behavioral, and neural network levels.”

Augustine, along with Biological Sciences Staff Research Associate Jonathan Lovelace and Graduate Student Jingrui Ma, the first authors of the paper, and their colleagues studied neural mechanisms related to Bezold-Jarisch reflex (BJR), a cardiac reflex first described in 1867.

For decades researchers have hypothesized that the BJR, which features reduced heart rate, blood pressure, and breathing, may be associated with fainting. However, information was lacking to prove the idea since the neural pathways involved in the reflex were not well known.

The researchers focused on the genetics behind a sensory cluster known as the nodose ganglia, which are part of the vagus nerves that carry signals between the brain and visceral organs, including the heart.

Specifically, vagal sensory neurons, or VSNs, project signals to the brainstem and are thought to be associated with BJR and fainting. In their search for a novel neural pathway, they discovered that VSNs expressing the neuropeptide Y receptor Y2 (known as NPY2R) are tightly linked to the well-known BJR responses.

Research Study of Brain-Heart Link Associated with Fainting in Mice

Studying this pathway in mice, the researchers were surprised to find that when they proactively triggered NPY2R VSNs using optogenetics, a method of stimulating and controlling neurons, mice that had been freely moving about immediately fainted. During these episodes, they recorded from thousands of neurons in the brains of the mice, as well as heart activity and changes in facial features including pupil diameter and whisking.

They also employed machine learning in several ways to analyze the data and pinpoint features of interest. Once NPY2R neurons were activated, they found, that mice exhibited rapid pupil dilation and the classic “eye-roll” seen during human fainting, as well as suppressed heart rate, blood pressure, and breathing rate. They also measured reduced blood flow to the brain, an area of collaboration with Professor David Kleinfeld’s laboratory in the UC San Diego Departments of Neurobiology and Physics.

“We were blown away when we saw how their eyes rolled back around the same time as brain activity rapidly dropped,” the researchers reported in a paper summary. “Then, after a few seconds, brain activity and movement returned. This was our eureka moment.”

Further testing showed that when NPY2R VSNs were removed from mice, the BJR and fainting conditions vanished. Previous studies have shown that fainting is caused by a reduction in brain blood flow, which the new study also found to be true, but the new evidence indicated that brain activity itself could be playing an important role. The findings, therefore, implicate the activation of the newly genetically identified VSNs and their neural pathways not only with BJR but more centrally in overall animal physiology, certain brain networks, and even behavior.

Such findings were difficult to tease out previously because neuroscientists study the brain and cardiologists study the heart, but many do so in isolation from the other. “Neuroscientists traditionally think the body just follows the brain, but now it is becoming very clear that the body sends signals to the brain and then the brain changes function,” said Augustine.

As a result of their findings, the researchers would like to continue tracking the precise conditions under which vagal sensory neurons are triggered into action.

“We also hope to more closely examine cerebral blood flow and neural pathways in the brain during the moment of syncope, to better understand this common but mysterious condition,” they note. They also hope to use their research as a model to develop targeted treatments for fainting-associated conditions.

Reference :

  1. Vagal sensory neurons mediate the Bezold-Jarisch reflex and induce syncope – (https://www.nature.com/articles/s41586-023-06680-7)

Source: Eurekalert

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