Prospects for transcranial temporal interference stimulation in humans: A computational study

经颅交流电刺激 刺激 神经科学 经颅直流电刺激 电场 局部场电位 干扰(通信) 方向(向量空间) 人脑 物理 计算机科学 生物系统 磁刺激 心理学 生物 数学 电信 频道(广播) 几何学 量子力学
作者
Sumientra Rampersad,Biel Roig-Solvas,Mathew Yarossi,Praveen Kulkarni,Emiliano Santarnecchi,Alan D. Dorval,Dana H. Brooks
出处
期刊:NeuroImage [Elsevier BV]
卷期号:202: 116124-116124 被引量:160
标识
DOI:10.1016/j.neuroimage.2019.116124
摘要

Transcranial alternating current stimulation (tACS) is a noninvasive method used to modulate activity of superficial brain regions. Deeper and more steerable stimulation could potentially be achieved using transcranial temporal interference stimulation (tTIS): two high-frequency alternating fields interact to produce a wave with an envelope frequency in the range thought to modulate neural activity. Promising initial results have been reported for experiments with mice. In this study we aim to better understand the electric fields produced with tTIS and examine its prospects in humans through simulations with murine and human head models. A murine head finite element model was used to simulate previously published experiments of tTIS in mice. With a total current of 0.776 mA, tTIS electric field strengths up to 383 V/m were reached in the modeled mouse brain, affirming experimental results indicating that suprathreshold stimulation is possible in mice. Using a detailed anisotropic human head model, tTIS was simulated with systematically varied electrode configurations and input currents to investigate how these parameters influence the electric fields. An exhaustive search with 88 electrode locations covering the entire head (146M current patterns) was employed to optimize tTIS for target field strength and focality. In all analyses, we investigated maximal effects and effects along the predominant orientation of local neurons. Our results showed that it was possible to steer the peak tTIS field by manipulating the relative strength of the two input fields. Deep brain areas received field strengths similar to conventional tACS, but with less stimulation in superficial areas. Maximum field strengths in the human model were much lower than in the murine model, too low to expect direct stimulation effects. While field strengths from tACS were slightly higher, our results suggest that tTIS is capable of producing more focal fields and allows for better steerability. Finally, we present optimal four-electrode current patterns to maximize tTIS in regions of the pallidum (0.37 V/m), hippocampus (0.24 V/m) and motor cortex (0.57 V/m).
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