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Evaluation of Specific Cortical Responses to Transcranial Temporal Interference Electrical Stimulation Using

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    Temporal interference (TI) stimulation, a novel brain stimulation method, shows distinct effects on brain activity compared to high-frequency tES. TI-tES offers a potentially more comfortable alternative for deep brain modulation.

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    Area of Science:

    • Neuroscience
    • Biomedical Engineering
    • Non-invasive Brain Stimulation

    Background:

    • Transcranial electrical stimulation (tES) offers non-invasive methods for brain modulation.
    • Temporal interference (TI) stimulation is a novel tES technique proposed for targeted deep brain stimulation.
    • Understanding the neurophysiological effects of TI-tES is crucial for its clinical application.

    Purpose of the Study:

    • To investigate the subjective sensations and objective neurophysiological effects of TI-tES.
    • To compare the modulation effects of TI-tES with high-frequency tES (HF-tES) as an active control.
    • To explore the impact of TI-tES on cortical activity and functional networks.

    Main Methods:

    • A single-blind, within-subject design was used with 20 healthy participants.
    • TI-tES was applied to the left hippocampus, with HF-tES as the active control.
    • Subjective sensations were assessed using a self-assessment scale, and cortical activity was measured using functional near-infrared spectroscopy (fNIRS).

    Main Results:

    • Both TI-tES and HF-tES were well-tolerated, with TI-tES causing significantly less scalp pain.
    • HF-tES induced immediate activation in sensorimotor cortices.
    • TI-tES resulted in delayed activation in prefrontal and motor regions, increased hemispheric autonomy, and dominant prefrontal cortex information flow.

    Conclusions:

    • TI-tES demonstrates distinct neurophysiological modulation effects compared to HF-tES.
    • TI-tES may indirectly modulate neural networks and reinforce top-down regulatory processes via the prefrontal cortex.
    • TI-tES presents a promising, potentially more comfortable, alternative for deep brain stimulation.