A Simulation Study on the Effect of Phase-shift of Temporal Interference Stimulation

2022 3rd URSI Atlantic and Asia Pacific Radio Science Meeting (AT-AP-RASC) Pub Date : 2022-05-29 DOI:10.23919/AT-AP-RASC54737.2022.9814361

Yukihiro Enomoto, S. Huang, Wenwei Yu

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Abstract

In recent years, stimulation of deep areas by temporal interference (TI) electric fields has attracted much attention. Previous studies have shown the feasibility of stimulating targeted deep areas mouse brain and nerve bundles for stimulation. However, the possibility to change stimulus focus without changing the electrode layout has not been investigated.In this study, we investigated whether the phase-shift of the TI could be a control parameter for the location of stimulus focus, using a 3D model with 2/3 muscle electrical property.The potential distribution was measured for different phase-shifting cases. The activating function was calculated and compared to confirm the presence or absence of local focuses.As a result, it was observed that sites with significant activating function change with a phase shift. Though all the sites appeared near electrodes, i.e., there were no such sites in the deeper part of the model away from the electrodes. This research is a fundamental step towards effective selective deep nerves from the skin surface.

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时间干涉刺激相移效应的仿真研究

近年来，利用时间干扰(TI)电场刺激深部脑区引起了广泛的关注。先前的研究已经证明了对小鼠大脑深部区域和神经束进行刺激的可行性。然而，在不改变电极布局的情况下改变刺激焦点的可能性尚未得到研究。在这项研究中，我们研究了TI的相移是否可以作为刺激焦点位置的控制参数，使用具有2/3肌肉电特性的3D模型。测量了不同相移情况下的电位分布。计算并比较激活函数以确定局部焦点的存在或不存在。结果，观察到具有重要激活功能的位点随相移而变化。虽然所有的位点都出现在电极附近，即在远离电极的模型深层没有这样的位点。这项研究是从皮肤表面有效选择深层神经的基本步骤。

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2022 3rd URSI Atlantic and Asia Pacific Radio Science Meeting (AT-AP-RASC)

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