Simultaneous MEG and EEG source analysis

被引：29

作者：

Huizenga, HM ^{[1
]}

van Zuijen, TL ^{[1
]}

Heslenfeld, DJ ^{[1
]}

Molenaar, PCM ^{[1
]}

机构：

[1] Univ Amsterdam, Dept Psychol, NL-1018 WB Amsterdam, Netherlands

来源：

PHYSICS IN MEDICINE AND BIOLOGY | 2001年 / 46卷 / 07期

关键词：

D O I：

10.1088/0031-9155/46/7/301

中图分类号：

R318 [生物医学工程];

学科分类号：

0831 ;

摘要：

A method is described to derive source and conductivity estimates in a simultaneous MEG and EEG source analysis. In addition the covariance matrix of the estimates is derived. Simulation studies with a concentric spheres model and a more realistic boundary element model indicate that this method has several advantages, even if only a few EEG sensors are added to a MEG configuration. First, a simultaneous analysis profits from the 'preferred' location directions of MEG and EEG. Second, deep sources can be estimated quite accurately, which is an advantage compared to MEG. Third. superficial profit from accurate MEG location and from accurate EEG moment. Fourth, the radial source component can be estimated, which is an advantage compared to MEG, Fifth, the conductivities can be estimated. It is shown that conductivity estimation gives a substantial increase in precision, even if the conductivities are not identified appropriately. An illustrative analysis of empirical data supports these findings.

引用

页码：1737 / 1751

页数：15

共 32 条

[1] A CONSENSUS STATEMENT ON RELATIVE MERITS OF EEG AND MEG - EUROPEAN CONCERTED ACTION ON BIOMAGNETISM, LYON MEETING, NOVEMBER 26 AND 27, 1991
ANOGIANAKIS, G
BADIER, JM
BARRETT, G
ERNE, S
FENICI, R
FENWICK, P
GRANDORI, F
HARI, R
ILMONIEMI, R
MAUGUIERE, F
LEHMANN, D
PERRIN, F
PETERS, M
ROMANI, GL
ROSSINI, PM
[J]. ELECTROENCEPHALOGRAPHY AND CLINICAL NEUROPHYSIOLOGY, 1992, 82 (05): : 317 - 319
[2] LOCATION OF SOURCES OF EVOKED SCALP POTENTIALS - CORRECTIONS FOR SKULL AND SCALP THICKNESSES
ARY, JP
KLEIN, SA
FENDER, DH
[J]. IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING, 1981, 28 (06) : 447 - 452
[3] A Bayesian approach to introducing anatomo-functional priors in the EEG/MEG inverse problem
Baillet, S
Garnero, L
[J]. IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING, 1997, 44 (05) : 374 - 385
[4] AUTOMATED FITTING OF NONSTANDARD MODELS
BROWNE, MW
DUTOIT, SHC
[J]. MULTIVARIATE BEHAVIORAL RESEARCH, 1992, 27 (02) : 269 - 300
[5] Localization of spatial attention processes with the aid of a probe technique
Bruin, KJ
Kenemans, JL
Verbaten, MN
Van der Heijden, AHC
[J]. EVOKED POTENTIALS-ELECTROENCEPHALOGRAPHY AND CLINICAL NEUROPHYSIOLOGY, 1998, 108 (02): : 110 - 122
[6] DEMONSTRATION OF USEFUL DIFFERENCES BETWEEN MAGNETOENCEPHALOGRAM AND ELECTROENCEPHALOGRAM
COHEN, D
CUFFIN, BN
[J]. ELECTROENCEPHALOGRAPHY AND CLINICAL NEUROPHYSIOLOGY, 1983, 56 (01): : 38 - 51
[7] CUFFIN BN, 1979, ELECTROEN CLIN NEURO, V47, P132, DOI 10.1016/0013-4694(79)90215-3
[8] A RANDOM DIPOLE MODEL FOR SPONTANEOUS BRAIN ACTIVITY
DEMUNCK, JC
VIJN, PCM
DASILVA, FHL
[J]. IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING, 1992, 39 (08) : 791 - 804
[9] Localisation of epileptic foci with electric, magnetic and combined electromagnetic models
Diekmann, V
Becker, W
Jürgens, R
Grözinger, B
Kleiser, B
Richter, HP
Wollinsky, KH
[J]. ELECTROENCEPHALOGRAPHY AND CLINICAL NEUROPHYSIOLOGY, 1998, 106 (04): : 297 - 313
[10] Ferree TC, 2000, IEEE T BIO-MED ENG, V47, P1584, DOI 10.1109/10.887939

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