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New brain stimulation technique shows promise for treating brain disorders


This figure summarizes the outcomes following ultrasound stimulation. Low-intensity brainwave-like pattern ultrasound stimulation sequentially stimulates TRPA1 in astrocytes, leading to BEST1-dependent neurotransmitter secretion. This, in turn, stimulates adjacent neurons, inducing neural plasticity in the neurons. This process briefly describes how changes in cognitive functions associated with pattern-dependent memory and learning, as well as changes in behavioral aspects, become evident. Credit: Institute for Basic Science

The human brain’s adaptability to internal and external changes, known as neural plasticity, forms the foundation for understanding cognitive functions like memory and learning, as well as various neurological disorders.

New research conducted by a team led by Dr. Park Joo Min of the Center for Cognition and Sociality within the Institute for Basic Science (IBS) unveils a novel technique that could transform the treatment landscape for brain disorders. The work has been published in Science Advances.

The team developed a non-invasive brain stimulation method called Patterned Low-Intensity Low-Frequency Ultrasound (LILFUS), which holds tremendous potential for inducing long-lasting changes in brain function.

Traditionally, magnetic and electrical brain stimulation methods have been used to modulate brain function. However, these methods come with inherent limitations that restrict their and penetration depth, making it challenging to precisely stimulate specific brain regions with optimal efficacy.

More invasive methods, such as those that require surgical procedures, exhibit superior control and for specific deep brain stimulation, but they come with risks such as tissue damage, inflammation, and infection. These limitations have fueled the search for alternative approaches that can overcome these constraints and provide more efficient and precise modulation of brain function.

In the latest study unveiled by the IBS, researchers used ultrasound to enable precise stimulation of specific brain areas. Unlike , ultrasound has the advantage of being able to penetrate deep into the brain tissues.

The researchers discovered that ultrasound stimulation can modulate neural plasticity—the brain’s ability to rewire itself—through the activation of key molecular pathways. Specifically, the study pinpointed the ultrasound’s effect on mechanosensitive calcium channels in astrocytes, which controls the cells’ ability to uptake calcium and release neurotransmitters.

Revolutionary brain stimulation technique shows promise for treating brain disorders
In this experiment, ultrasound protocols comprising two distinct stimulation patterns by combining Low-Intensity Low-Frequency (LILF) 30Hz and 5Hz ultrasound were used. The first pattern, known as intermittent TBUS, featured intermittent stimulation with 2 seconds of stimulation followed by 8 seconds of rest. The second pattern, termed continuous TBUS, involved 40 seconds of uninterrupted stimulation. Throughout the stimulation, brainwaves were monitored by analyzing the phase-amplitude coupling between theta and gamma waves, which are two primary types of brainwaves. The accompanying graph illustrates these observed changes. Credit: Institute for Basic Science

LILFUS was designed based on specific ultrasound parameters that mimic the brainwave patterns of theta (5 Hz) and gamma (30 Hz) oscillations observed during learning and memory processes. The new tool allowed the researchers to either activate or deactivate specific brain regions at will—intermittent delivery of the ultrasound was found to induce long-term potentiation effects, while continuous patterns resulted in long-term depression effects.

One of the most promising aspects of this new technology is its ability to facilitate the acquisition of new motor skills. When the researchers delivered ultrasound stimulation to the cerebral motor cortex in mice, they observed significant improvements in motor skill learning and the ability to retrieve food.

Interestingly, researchers were even able to change the forelimb preference of the mice. This suggests potential applications in rehabilitation therapies for stroke survivors and individuals with motor impairments.

The implications of this research extend far beyond motor function. It may be used to treat conditions such as depression, where altered brain excitability and plasticity are prominent features. With further exploration, LILFUS could be adapted for various brain protocols, offering hope for various conditions ranging from sensory impairments to cognitive disorders.

Dr. Park said, “This study has not only developed a new and safe neural regulation technology with long-lasting effects but has also uncovered the molecular mechanism changes involved in brainwave-patterned neural regulation.”

He added, “We plan to continue follow-up studies to apply this technology for the treatment of related to abnormal brain excitation and inhibition and for the enhancement of cognitive functions.”

More information:
Ho-Jeong Kim et al, Long-lasting Forms of Plasticity through Patterned Ultrasound-induced Brainwave Entrainment, Science Advances (2024). DOI: 10.1126/sciadv.adk3198. www.science.org/doi/10.1126/sciadv.adk3198

Citation:
New brain stimulation technique shows promise for treating brain disorders (2024, February 23)
retrieved 23 February 2024
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