Classical Music Synchronizes Brain Waves, Improving Depression

Summary: Western classical music can significantly affect brain activity, particularly in people with treatment-resistant depression. By measuring brainwaves and neural imaging, scientists discovered that music synchronizes neural oscillations between brain regions associated with sensory and emotional processing, enhancing mood.

This study suggests that personalized music therapy could be a powerful tool for treating depression, especially when integrated with other sensory stimuli.

Key facts:

Classical music was found to synchronize neural oscillations, improving mood in depression patients.
The study focused on brain regions responsible for processing sensory and emotional information.
Personalized music therapy plans may enhance treatment outcomes for those with treatment-resistant depression.

Source: Cell Press

Whether Bach, Beethoven, or Mozart, it’s widely recognized that classical music can affect a person’s mood.

In a study published August 9 in the Cell Press journal Cell Reports, scientists in China use brainwave measurements and neural imaging techniques to show how Western classical music elicits its positive effects on the brain.

Their goal is to find more effective ways to use music to activate the brain in those who otherwise don’t respond, such as people with treatment-resistant depression.

“Our research integrates the fields of neuroscience, psychiatry, and neurosurgery, providing a foundation for any research targeting the interaction between music and emotion,” says senior author Bomin Sun, director and professor of the Center for Functional Neurosurgery at Shanghai Jiao Tong University.

“Ultimately, we hope to translate our research findings into clinical practice, developing convenient and effective music therapy tools and applications.”

The study focused on 13 patients with treatment-resistant depression who already had electrodes implanted in their brains for the purpose of deep-brain stimulation.

These implants are placed in a circuit connecting two areas in the forebrain—the bed nucleus of the stria terminalis (BNST) and the nucleus accumbens (NAc). Using these implants, the researchers found that music generates its antidepressant effects by synchronizing the neural oscillations between the auditory cortex, which is responsible for processing of sensory information, and the rewards circuit, which is responsible for processing emotional information.

“The BNST-NAc circuit, sometimes referred to as part of the ‘extended amygdala,’ underscores the close relationship between this circuit and the amygdala, a central structure in emotional information processing,” Sun says.

“This study reveals that music induces triple-time locking of neural oscillations in the cortical-BNST-NAc circuit through auditory synchronization.”

The patients in the study were assigned to two groups: low music appreciation or high music appreciation. Those in the high music appreciation group demonstrated more significant neural synchronization and better antidepressant effects, while those in the low music appreciation group showed poorer results.

By grouping the patients, the investigators were able to study the antidepressant mechanisms of music more precisely and propose personalized music therapy plans that would improve treatment outcomes.

For example, when inserting theta frequency noise into music to enhance BNST-NAc oscillatory coupling, those in the low music appreciation group of patients reported higher music enjoyment.

Several pieces of Western classical music were used in the study. This type of music was chosen because most participants did not have familiarity with it, and the researchers wanted to avoid any interference that could arise from subjective familiarity.

“We concluded that the music choices during the formal listening process were individualized and unrelated to the music’s emotional background,” Sun says.

The team’s future research will focus on several areas. For one, they aim to study how the interaction between music and the deep structures of the brain play a role in depressive disorders.

They will also introduce other forms of sensory stimuli, including visual images, to investigate potential combined therapeutic effects of multi-sensory stimulation on depression.

“By collaborating with clinicians, music therapists, computer scientists, and engineers, we plan to develop a series of digital health products based on music therapy, such as smartphone applications and wearable devices,” Sun says.

“These products will integrate personalized music recommendations, real-time emotional monitoring and feedback, and virtual-reality multi-sensory experiences to provide convenient and effective self-help tools for managing emotions and improving symptoms in daily life.”

Funding:

This study was supported by the National Natural Science Foundation of China, Shanghai Jiao Tong University, the scientific and technological innovation action plan of Shanghai, and the Shanghai Municipal Science and Technology Major Project.