在逼真头部模型中脑电图源定位准确性的实验测试。

Experimental tests of EEG source localization accuracy in realistically shaped head models.

作者信息

Cuffin B N, Schomer D L, Ives J R, Blume H

机构信息

Beth Israel Deaconess Medical Center and Harvard Medical School, 330 Brookline Avenue GZ-522, Boston, MA 00215, USA.

出版信息

Clin Neurophysiol. 2001 Dec;112(12):2288-92. doi: 10.1016/s1388-2457(01)00669-1.

DOI:10.1016/s1388-2457(01)00669-1

PMID:11738201

Abstract

OBJECTIVES

To determine the accuracy with which electrical sources in the human brain can be located using realistically shaped boundary element models of the head and to compare this accuracy with that using spherical head models.

METHODS

In a previous study, electroencephalographs (EEGs) produced by sources at known locations in the brains of human subjects were recorded. The sources were created by injecting current into implanted depth electrodes. The locations of the implanted depth and scalp EEG electrodes and head shape were determined from computerized tomography images. The EEGs were used to calculate source locations in spherical head models and localization accuracy was determined by comparing the calculated and actual locations. In this study, these same EEGs are used to determine localization accuracy in realistically shaped head models.

RESULTS

An average localization error of 10.5 (SD=5.4) mm was obtained in the realistically shaped models for all 176 sources in 13 subjects. This compares with 10.6 (5.5) mm in the spherical models. The average localization error for 105 sources at superior locations in the brain is 9.1 (4.2) mm. The average error for 71 inferior location sources is 12.4 (6.4) mm. The corresponding values for the spherical models are 9.2 (4.4) and 12.8 (6.2) mm.

CONCLUSIONS

The realistically shaped head boundary element models used in this study produced very nearly the same localization accuracy as spherical models.

摘要

目的

使用逼真形状的头部边界元模型来确定人类大脑中电信号源的定位精度，并将此精度与使用球形头部模型的精度进行比较。

方法

在之前的一项研究中，记录了人类受试者大脑中已知位置的信号源产生的脑电图（EEG）。这些信号源是通过向植入的深度电极注入电流产生的。植入的深度电极和头皮EEG电极的位置以及头部形状由计算机断层扫描图像确定。EEG用于计算球形头部模型中的信号源位置，并通过比较计算位置和实际位置来确定定位精度。在本研究中，同样的EEG用于确定逼真形状头部模型中的定位精度。

结果

在13名受试者的所有176个信号源的逼真形状模型中，平均定位误差为10.5（标准差=5.4）毫米。相比之下，球形模型中的平均定位误差为10.6（5.5）毫米。大脑上部位置的105个信号源的平均定位误差为9.1（4.2）毫米。下部位置的71个信号源的平均误差为12.4（6.4）毫米。球形模型的相应值分别为9.2（4.4）和12.8（6.2）毫米。

结论

本研究中使用的逼真形状的头部边界元模型产生的定位精度与球形模型几乎相同。

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在逼真头部模型中脑电图源定位准确性的实验测试。

Experimental tests of EEG source localization accuracy in realistically shaped head models.

作者信息

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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