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人体受试者诱发神经活动期间的阻抗变化:对应用电位断层扫描(APT)成像神经元放电的应用意义。

Impedance changes during evoked nervous activity in human subjects: implications for the application of applied potential tomography (APT) to imaging neuronal discharge.

作者信息

Holder D S

机构信息

Department of Neurology, St James's University Hospital, Leeds, UK.

出版信息

Clin Phys Physiol Meas. 1989 Aug;10(3):267-74. doi: 10.1088/0143-0815/10/3/007.

DOI:10.1088/0143-0815/10/3/007
PMID:2627768
Abstract

Impedance changes were measured with scalp electrodes in human subjects during physiologically evoked responses to assess whether such changes could form the basis for imaging of neuronal discharge by applied potential tomography (APT). Conventional methods were employed to measure cortical sensory and visual evoked responses, and the sensory action potential of the ulnar nerve at the elbow. In each case impedance was measured across the appropriate tissue of origin using a high sensitivity four-electrode method. No consistent changes larger than 0.002 or 0.02% (depending on electrode configuration and period of measurement) of the resting impedance were obtained. Changes within these limits appeared to be due to variations in pulse related impedance changes. This suggests that currently available APT devices could not be used to obtain images of neuronal discharge, and research into APT imaging in the adult head might more profitably be directed at imaging the relatively large impedance changes during stroke or spreading depression.

摘要

在人类受试者对生理诱发反应期间,用头皮电极测量阻抗变化,以评估这种变化是否能成为应用电位断层扫描(APT)对神经元放电进行成像的基础。采用传统方法测量皮层感觉和视觉诱发反应,以及肘部尺神经的感觉动作电位。在每种情况下,使用高灵敏度四电极方法在适当的起源组织上测量阻抗。未获得比静息阻抗大0.002或0.02%(取决于电极配置和测量周期)的一致变化。这些限度内的变化似乎是由于与脉冲相关的阻抗变化的差异所致。这表明目前可用的APT设备不能用于获取神经元放电的图像,并且对成人头部的APT成像研究可能更有益地针对中风或扩散性抑制期间相对较大的阻抗变化进行成像。

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A novel method for recording neuronal depolarization with recording at 125-825 Hz: implications for imaging fast neural activity in the brain with electrical impedance tomography.一种用 125-825 Hz 记录神经元去极化的新方法:对用电阻抗断层成像术记录大脑中快速神经活动的影响。
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