Comparison of source localization of interictal epileptic spike potentials in patients estimated by the dipole tracing method with the focus directly recorded by the depth electrodes

The purpose of the study was to investigate the accuracy of location of equivalent current dipoles estimated by the dipole tracing method (DT) utilizing a realistic 3-shell (scalp-skull-brain) head model (SSB-DT). Three patients with intractable complex partial seizures, diagnosed as having typical temporal seizures were investigated. We recorded the interictal spike potentials with surface electrodes (International 10/20 system) and with intracerebral depth electrodes simultaneously. We compared the location of dipoles of the spikes estimated by the SSB-DT with the focus of the spikes determined by the recording from the depth electrodes. We found that the location of the dipoles estimated by SSB-DT corresponded to the location of the depth electrodes, which could record the epileptic spikes. This finding proved that SSB-DT is reliable and valid for estimating neural activity in deep locations such as the limbic system.

[1]  I. Homma,et al.  Movement related cortical source for elbow flexion in patients with brachial plexus injury after intercostal-musculocutaneous nerve crossing , 1999, Neuroscience Letters.

[2]  Ikuo Homma,et al.  The source generator of respiratory-related anxiety potential in the human brain , 2000, Neuroscience Letters.

[3]  R. Flink,et al.  Interictal and ictal activity recorded with subdural electrodes during preoperative evaluation for surgical treatment of epilepsy , 1989 .

[4]  R D Sidman,et al.  A reliable method for localizing deep intracranial sources of the EEG , 1985, Neurology.

[5]  R. Flink,et al.  Source localization of interictal epileptiform spike potentials estimated with a dipole tracing method using surface and subdural EEG recordings. , 2000, Supplements to Clinical neurophysiology.

[6]  Yoshiwo Okamoto,et al.  Limitation of the Inverse Problem in Body Surface Potential Mapping , 1983, IEEE Transactions on Biomedical Engineering.

[7]  U Moström,et al.  Location of electric current sources in the human brain estimated by the dipole tracing method of the scalp-skull-brain (SSB) head model. , 1994, Electroencephalography and clinical neurophysiology.

[8]  B. N. Cuffin,et al.  A Comparison of Moving Dipole Inverse Solutions Using EEG's and MEG's , 1985, IEEE Transactions on Biomedical Engineering.

[9]  C. Wilson,et al.  Stereotactic investigation of limbic epilepsy using a multimodal image analysis system. Technical note. , 1990, Journal of neurosurgery.

[10]  Kazutomo Yunokuchi,et al.  Tests of EEG localization accuracy using implanted sources in the human brain , 1991, Annals of neurology.

[11]  Toshimitsu Musha,et al.  Electric Dipole Tracing in the Brain by Means of the Boundary Element Method and Its Accuracy , 1987, IEEE Transactions on Biomedical Engineering.

[12]  D. Cohen,et al.  MEG versus EEG localization test using implanted sources in the human brain , 1990, Annals of neurology.