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Synchronization of Brain Hemispheres Changes What We Hear | Nutrition Fit


Summary: Gamma-wave mediated synchronization between different brain regions is a critical mechanism for neural integration.

Source: University of Zurich

How come we don’t hear everything twice: After all, our ears sit on opposite sides of our head and most sounds do not reach both our ears at exactly the same time. “While this helps us determine which direction sounds are coming from, it also means that our brain has to combine the information from both ears. Otherwise, we would hear an echo,” explains Basil Preisig of the Department of Psychology at the University of Zurich.

In addition, input from the right ear reaches the left brain hemisphere first, while input from the left ear reaches the right brain hemisphere first. The two hemispheres perform different tasks during speech processing: The left side is responsible for distinguishing phonemes and syllables, whereas the right side recognizes the speech prosody and rhythm. Although each hemisphere receives the information at a different time and processes different features of speech, the brain integrates what it hears into a unified speech sound.

Brain waves establish connection

The exact mechanism behind this integration process was not known until now. In earlier studies, however, Preisig had found indications that measurable oscillations elicited by the brain – known as gamma waves – played a role. Now he has managed to demonstrate that the process of integrating what we hear is directly linked to synchronization by gamma waves. Neurolinguists from UZH worked on the project alongside researchers from the Netherlands and France.

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Processing ambiguous information

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The study, which took place at the Donders Center for Cognitive Neuroimaging in Nijmegen, the Netherlands, involved 28 healthy subjects who had to repeatedly solve a listening task: An ambiguous syllable (a speech sound between ga and da) was played in their right ear while a click containing a fragment of the syllables da or ga was played unnoticed in the left ear. Depending on what was played in their left ear, the participants heard either ga or da and then had to report what sound they had heard. During the process, the researchers were tracking activity in both hemispheres of the brain using functional magnetic resonance imaging (fMRI).

Electric stimulation impairs synchronization

During the experiments, the researchers disrupted the natural activity pattern of gamma waves by stimulating both hemispheres of the brain with electrodes attached to the head. This manipulation affected participants’ ability to correctly identify the syllable they heard. The fMRI analysis showed that there were also changes in the activity of the neural connections between the right and the left brain hemispheres:

This shows the outline of a man with a fuzzy, colorful cloud above his head
The fMRI analysis showed that there were also changes in the activity of the neural connections between the right and the left brain hemispheres: The strength of the connection changed depending on whether the rhythm of the gamma waves was influenced by electric stimulation in the two brain hemispheres synchronously or asynchronously. Image is in the public domain

The strength of the connection changed depending on whether the rhythm of the gamma waves was influenced by electric stimulation in the two brain hemispheres synchronously or asynchronously. This disruption also impaired the integration process. Thus, synchronization of the gamma waves seems to serve to balance the different inputs from the two hemispheres of the brain, providing a unified auditory impression.

Possible therapy for tinnitus

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See also

This shows two heads

“Our results suggest that gamma wave-mediated synchronization between different brain areas is a fundamental mechanism for neural integration,” says Preisig. “Moreover, this research shows for the first time, using human hearing as an example, that the connection between the two hemispheres of the brain can be successfully modulated by electric stimulation,” adds Alexis Hervais-Adelman, head of neurolinguistics at the UZH Department of Psychology, who was also involved in the study.

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These findings could thus also find clinical application in the near future. “Previous studies show that disturbances in the connection between the two hemispheres of the brain are associated with auditory phantom perceptions such as tinnitus and auditory verbal hallucinations,” Preisig adds. “Thus, electric brain stimulation may present a promising avenue for the development of therapeutic interventions.”

About this auditory neuroscience research news

Source: University of Zurich
Contact: Basil Preisig – University of Zurich
Image: The image is in the public domain

Original Research: The study will be published in PNAS during the week of February 8, 2021.



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