A TEST OF BRAIN ELECTRICAL SOURCE ANALYSIS (BESA) - A SIMULATION STUDY

被引：62

作者：

MILTNER, W

BRAUN, C

JOHNSON, R

SIMPSON, GV

RUCHKIN, DS

机构：

[1] UNIV MARYLAND,SCH MED,DEPT PHYSIOL,BALTIMORE,MD 21201

[2] UNIV TUBINGEN,DEPT PSYCHOL MED,W-7600 TUBINGEN,GERMANY

[3] CUNY QUEENS COLL,DEPT PSYCHOL,FLUSHING,NY 11367

[4] YESHIVA UNIV ALBERT EINSTEIN COLL MED,DEPT NEUROL,BRONX,NY 10461

[5] YESHIVA UNIV ALBERT EINSTEIN COLL MED,DEPT NEUROSCI,BRONX,NY 10461

来源：

ELECTROENCEPHALOGRAPHY AND CLINICAL NEUROPHYSIOLOGY | 1994年 / 91卷 / 04期

关键词：

SOURCE LOCALIZATION; EVENT-RELATED POTENTIALS; SPATIOTEMPORAL ANALYSIS; SIMULATION;

D O I：

10.1016/0013-4694(94)90193-7

中图分类号：

R318 [生物医学工程];

学科分类号：

0831 ;

摘要：

The present report summarizes the results of a simulation study on the accuracy of Scherg's implementation of spatio-temporal analysis (BESA) for estimating the parameters (wave shape, location, orientation) of the intracranial sources of event-related brain potentials (ERPs) recorded from the scalp. In view of the subjective factors that might influence a solution, 10 subjects, ranging from those with much experience with ERPs and extensive background in the use of BESA to those with little experience with BESA and/or no knowledge of ERPs, independently analyzed a set of simulated somatosensory ERP data. The simulation contained wave forms from 32 electrode sites generated by a combination of 10 dipole sources. The primary question was how faithfully the different subjects would depict the source wave shapes, locations and orientations. Based on the 9 subjects who were familiar with ERPs, the grand-average cross-correlation coefficient between subjects' estimated and actual source wave shapes was 0.89 (standard deviation (S.D.) = 0.17). The grand-average location error, based upon a head diameter of 17 cm, was 1.4 cm (S.D. = 1.0 cm). The grand-average orientation error was 24.4 degrees (S.D. = 20 degrees).

引用

页码：295 / 310

页数：16

共 47 条

[1] METHODOLOGICAL CONSIDERATIONS FOR THE EVALUATION OF SPATIOTEMPORAL SOURCE MODELS
ACHIM, A
RICHER, F
STHILAIRE, JM
[J]. ELECTROENCEPHALOGRAPHY AND CLINICAL NEUROPHYSIOLOGY, 1991, 79 (03): : 227 - 240
[2] ACHIM A, 1988, Brain Topography, V1, P22, DOI 10.1007/BF01129336
[3] A FAST METHOD FOR FORWARD COMPUTATION OF MULTIPLE-SHELL SPHERICAL HEAD MODELS
BERG, P
SCHERG, M
[J]. ELECTROENCEPHALOGRAPHY AND CLINICAL NEUROPHYSIOLOGY, 1994, 90 (01): : 58 - 64
[4] Birbaumer N, 1984, SELF REGULATION BRAI, P9
[5] BRAUN C, 1989, PSYCHOPHYSIOLOGY, V3, P314
[6] Caspers H., 1984, SELF REGULATION BRAI, P26
[7] COHEN D, 1991, Brain Topography, V4, P95, DOI 10.1007/BF01132766
[8] MEG VERSUS EEG LOCALIZATION TEST USING IMPLANTED SOURCES IN THE HUMAN BRAIN
COHEN, D
CUFFIN, BN
YUNOKUCHI, K
MANIEWSKI, R
PURCELL, C
COSGROVE, GR
IVES, J
KENNEDY, JG
SCHOMER, DL
[J]. ANNALS OF NEUROLOGY, 1990, 28 (06) : 811 - 817
[9] EFFECTS OF LOCAL VARIATIONS IN SKULL AND SCALP THICKNESS ON EEGS AND MEGS
CUFFIN, BN
[J]. IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING, 1993, 40 (01) : 42 - 48
[10] EFFECTS OF FISSURES IN THE BRAIN ON ELECTROENCEPHALOGRAMS AND MAGNETOENCEPHALOGRAMS
CUFFIN, BN
[J]. JOURNAL OF APPLIED PHYSICS, 1985, 57 (01) : 146 - 153

← 1 2 3 4 5 →