用于脑部低频电阻抗断层成像的电极设计及电流限制

Design of electrodes and current limits for low frequency electrical impedance tomography of the brain.

作者信息

Gilad O, Horesh L, Holder D S

机构信息

Department of Medical Physics and Bioengineering, Malet Place Engineering Building, University College London, Gower Street, London WC1E 6BT, UK.

出版信息

Med Biol Eng Comput. 2007 Jul;45(7):621-33. doi: 10.1007/s11517-007-0209-7. Epub 2007 Jun 28.

DOI:10.1007/s11517-007-0209-7

PMID:17597329

Abstract

For the novel application of recording of resistivity changes related to neuronal depolarization in the brain with electrical impedance tomography, optimal recording is with applied currents below 100 Hz, which might cause neural stimulation of skin or underlying brain. The purpose of this work was to develop a method for application of low frequency currents to the scalp, which delivered the maximum current without significant stimulation of skin or underlying brain. We propose a recessed electrode design which enabled current injection with an acceptable skin sensation to be increased from 100 muA using EEG electrodes, to 1 mA in 16 normal volunteers. The effect of current delivered to the brain was assessed with an anatomically realistic finite element model of the adult head. The modelled peak cerebral current density was 0.3 A/m(2), which was 5 to 25-fold less than the threshold for stimulation of the brain estimated from literature review.

摘要

对于利用电阻抗断层成像技术记录大脑中与神经元去极化相关的电阻率变化这一新型应用而言，最佳记录是在低于100Hz的施加电流下进行，因为该频率的电流可能会对皮肤或深层大脑产生神经刺激。这项工作的目的是开发一种向头皮施加低频电流的方法，该方法能够在不显著刺激皮肤或深层大脑的情况下输送最大电流。我们提出了一种凹陷电极设计，在16名正常志愿者中，这种设计能使可接受皮肤感觉下的电流注入从使用脑电图电极时的100μA增加到1mA。通过一个成人头部的解剖学逼真有限元模型评估输送到大脑的电流的影响。模拟的大脑峰值电流密度为0.3A/m²，比根据文献综述估计的大脑刺激阈值低5至25倍。

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用于脑部低频电阻抗断层成像的电极设计及电流限制

Design of electrodes and current limits for low frequency electrical impedance tomography of the brain.

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