Conductivity ratios of the scalp-skull-brain head model in estimating equivalent dipole sources in human brain

Conductivity ratios of the scalp-skull-brain head model in estimating equivalent dipole sources in human brain

The dipole tracing (DT) method estimates the position and vector dipole moment of an equivalent current dipole by minimizing the mean squared error of the dipole potentials at the surface electrode positions. In the scalp-skull-brain/DT (SSB/DT) method, which we have developed, the head model consis...

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Veröffentlicht in:Neuroscience research 1995-03, Vol.22 (1), p.51-55
Hauptverfasser: Homma, Saburo, Musha, Toshimitsu, Nakajima, Yoshio, Okamoto, Yoshiwo, Blom, Sigge, Flink, Roland, Hagbarth, Karl-Erik
Format: Artikel
Sprache:eng
Schlagworte:
Brain - anatomy & histology
Brain - physiology
Current dipole
Dipole tracing
Electric Conductivity
Electric Stimulation
Epilepsy - pathology
Human brain
Humans
Models, Anatomic
Scalp - anatomy & histology
Scalp - physiology
Scalp-skull-brain head model
Skull - anatomy & histology
Skull - physiology
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Zusammenfassung:The dipole tracing (DT) method estimates the position and vector dipole moment of an equivalent current dipole by minimizing the mean squared error of the dipole potentials at the surface electrode positions. In the scalp-skull-brain/DT (SSB/DT) method, which we have developed, the head model consists of three compartments of uniform conductors corresponding to the scalp, skull and brain. The accuracy of the calculations are mainly dependent on the ratios of the conductivities of the three compartments. The best result was obtained with the conductivity ratios of 1:1 80:1 for the scalp, skull and brain compartments, respectively.
ISSN:0168-0102
1872-8111
DOI:10.1016/0168-0102(95)00880-3