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Electroencephalography and clinical Neurophysiology ,8 3 (1992) 407-409 © 1992 Elsevier Scientific Publishers Ireland, Ltd. 0013-464/99 2 /$05.00 Index of Authors VOLUME 83 (1992) (Authors from abstracts from Society Proceedings are not included) Aichner, F., see Kofler, M. (83) 83 Epstein, C.M., Riether, A.M., Henderson, R.M. and Cotsonis, G.A. Alho, K., see Ritter, W. (83) 306 EEG in liver transplantation: visual and computerized analysis Arezzo, J.C., see Javitt, D.C. (83) 87 (83) 367 Arroyo, S., see Krauss, G.L. (83) 333 Evans, B.M. Periodic activity in cerebral arousal mechanisms — the relation- Bartussek, D., see Naumann, E. (83) 254 ship to sleep and brain damage (83) 130 Baumann, S.B., see Rogers, R.L. (83) 146 Evdokimidis, I., Mergner, T. and Liicking, C.H. Baumgartner, H., see Kofler, M. (83) 83 Dependence of presaccadic cortical potentials on the type of Bazzano, S., see Onofrj, M. (83) 52 saccadic eye movement (83) 179 Becker, J., see Marosi, E. (83) 350 Bell, G.B., Marino, A.A. and Chesson, A.L. Faught, E., Kuzniecky, R.I. and Hurst, D.C. Alterations in brain electrical activity caused by magnetic fields: Ictal EEG wave forms from epidural electrodes predictive of detecting the detection process (83) 389 seizure control after temporal lobectomy (83) 229 Berek, K., see Kofler, M. (83) 83 Fernandez, T., see Marosi, E. (83) 350 Bernal, J., see Marosi, E. (83) 350 Ferracci, F., see Onofrj, M. (83) 52 Besser, R., Hornung, K., Theisohn, M., Rothacher, G. and Kramer, Fisher, R.S., see Krauss, G.L. (83) 333 G. Fulgente, T., see Onofrj, M. (83) 52 EEG changes in patients during the introduction of carba- mazepine (83) 19 Gabor, A.J. and Seyal, M. Besset, A., see Tafti, M. (83) 339 Automated interictal EEG spike detection using artificial neural Billiard, M., see Tafti, M. (83) 339 networks (83) 271 Buser, P., see Chatila, M. (83) 217 Gotman, J. and Wang, L.-Y. State dependent spike detection: validation (83) 12 Caekebeke, J.F.V., see Van Dijk, J.G. (83) 44 Hari, R., see Karhu, J. (83) 192 Challamel, M.J., see Louis, J. (83) 289 Harmony, T., see Marosi, E. (83) 350 Chatel, M., see Thomas, P. (83) 223 Hattori, Y., see Moriwaki, A. (83) 281 Chatila, M., Milleret, C., Buser, P. and Rougeul, A. Hayashi, Y., see Moriwaki, A. (83) 281 A 10 Hz “alpha-like” rhythm in the visual cortex of the waking Hefner, G., see Kurthen, M. (83) 70 cat (83) 217 Henderson, R.M., see Epstein, C.M. (83) 367 Chesson, A.L., see Bell, G.B. (83) 389 Homan, R.W., see Hostetler, W.E. (83) 1 Christen, H.-J., see Waltz, S. (83) 138 Colamartino, P., see Onofrj, M. (83) 52 Hori, Y., see Moriwaki, A. (83) 281 Hornung, K., see Besser, R. (83) 19 Colding-Jorgensen, E., Lauritzen, M., Johnsen, N.J., Mikkelsen, K.B. Hostetler, W.E., Doller, H.J. and Homan, R.W. and Szrmark, K. Assessment of a computer program to detect epileptiform spikes On the evidence of auditory evoked magnetic fields as an objec- (83) 1 tive measure of tinnitus (83) 322 Huber, C., see Naumann, E. (83) 254 Corsi-Cabrera, M., Juarez, J., Ponce-de-Leén, M., Ramos, J. and Hufnagel, A., see Kurthen, M. (83) 70 Velazquez, P.N. Hummel, T., see Livermore, A. (83) 201 EEG activity during estral cycle in the rat (83) 265 Hurst, D.C., see Faught, E. (83) 229 Cotsonis, G.A., see Epstein, C.M. (83) 367 Huttunen, J., see Karhu, J. (83) 192 Curatola, L., see Onofrj, M. (83) 52 lida, H., see Kano, K. (83) 124 Darcourt, J., see Thomas, P. (83) 223 Inouye, T., see Shinosaki, K. (83) 372 Davidson, R.J., see Sobotka, S.S. (83) 236 Debilly, G., see Louis, J. (83) 289 Javitt, D.C., Schroeder, C.E., Steinschneider, M., Arezzo, J.C. and Deecke, L., see Morgan, J.M. (83) 378 Vaughan, Jr., H.G. Deitch, Jr., R.D., see Reddy, R.V. (83) 162 Demonstration of mismatch negativity in the monkey (83) 87 Diaz de Leén, A.E., see Marosi, E. (83) 350 Jennekens-Schinkel, A., see Van Dijk, J.G. (83) 44 Diedrich, O., see Naumann, E. (83) 254 Johnsen, N.J., see Colding-Jorgensen, E. (83) 322 Dierdorf, S.F., see Reddy, R.V. (83) 162 Juarez, J., see Corsi-Cabrera, M. (83) 265 Doller, H.J., see Hostetler, W.E. (83) 1 Jung, R., see Niemann, J. (83) 297 Doose, H., see Waltz, S. (83) 138 Kano, K., Nakamura, M., Matsuoka, T., lida, H. and Nakajima, T. Eisenberg, H.M., see Rogers, R.L. (83) 146 The topographical features of EEGs in patients with affective Elger, C.E., see Kurthen, M. (83) 70 disorders (83) 124 408 INDEX OF AUTHORS 83, 1992 Karhu, J., Hari, R., Makela, J.P., Huttunen, J. and Knuutila, J. Morehead, L., see Salinsky, M.C. (83) 358 Cortical somatosensory magnetic responses in multiple sclerosis Morgan, J.M., Wenzl, M., Lang, W., Lindinger, G. and Deecke, L. (83) 192 Frontocentral DC-potential shifts predicting behavior with or Katayama, J. and Yagi, A. without a motor task (83) 378 Negative brain potentials elicited by an unexpected color patch or Moriwaki, A., Hattori, Y., Hayashi, Y. and Hori, Y. word (83) 248 Development of epileptic activity induced by iron injection into Kim, J., see Spencer, S.S. (83) 104 rat cerebral cortex: electrographic and behavioral characteristics Knuutila, J., see Karhu, J. (83) 192 (83) 281 Kobal, G., see Livermore, A. (83) 201 Kobayashi, K., Ohtsuka, Y., Oka, E. and Ohtahara, S. Naatanen, R., see Ritter, W. (83) 306 Primary and secondary bilateral synchrony in epilepsy: differenti- Nakajima, T., see Kano, K. (83) 124 ation by estimation of interhemispheric small time differences Nakamura, M., see Kano, K. (83) 124 during short spike-wave activity (83) 93 Naumann, E., Huber, C., Maier, S., Plihal, W., Wustmans, A., Kofler, M., Saltuari, L., Schmutzhard, E., Berek, K., Baumgartner, Diedrich, O. and Bartussek, D. H., Russegger, L. and Aichner, F. The scalp topography of P300 in the visual and auditory modali- Electrophysiological findings in a case of severe intrathecal ba- ties: a comparison of three normalization methods and the con- clofen overdose (83) 83 trol of statistical type II error (83) 254 Kramer, G., see Besser, R. (83) 19 Niemann, J., Winker, T. and Jung, R. Kramer, R.E., see Salinsky, M.C. (83) 358 Changes in cortical negative DC shifts due to different motor task Krauss, G.L., Lesser, R.P., Fisher, R.S. and Arroyo, S. conditions (83) 297 Anterior “cheek” electrodes are comparable to sphenoidal elec- trodes for the identification of ictal activity (83) 333 Ohtahara, S., see Kobayashi, K. (83) 93 Kurthen, M., Lukas, M., Hufnagel, A., Linke, D.B., Hefner, G., Ohtsuka, Y., see Kobayashi, K. (83) 93 Elger, C.E. and Schramm, J. Oka, E., see Kobayashi, K. (83) 93 Correlations between verbal memory performance and electro- Oken, B.S., see Salinsky, M.C. (83) 358 corticographically determined suppression of electrical brain ac- Onofrj, M., Curatola, L., Malatesta, G., Colamartino, P., Bazzano, tivity in intracarotid amobarbital tests (83) 70 S., Fulgente, T. and Ferracci, F. Kuzniecky, R.1I., see Faught, E. (83) 229 Delayed P3 event-related potentials (ERPs) in thalamic hemor- rhage (83) 52 Lang, W., see Morgan, J.M. (83) 378 Larsen, L.H., Prinz, P.N. and Moe, K.E. Paavilainen, P., see Ritter, W. (83) 306 Quantitative analysis of the EEG during tonic REM sleep — Papanicolaou, A.C., see Rogers, R.L. (83) 146 methodology (83) 24 Pfurtscheller, G. Larsen, L.H., see Prinz, P.N. (83) 36 Event-related synchronization (ERS): an electrophysiological cor- Lauritzen, M., see Colding-Jorgensen, E. (83) 322 relate of cortical areas at rest (83) 62 Lavikainen, J., see Ritter, W. (83) 306 Plihal, W., see Naumann, E. (83) 254 Lesser, R.P., see Krauss, G.L. (83) 333 Ponce-de-Leén, M., see Corsi-Cabrera, M. (83) 265 Lindinger, G., see Morgan, J.M. (83) 378 Péppl, S.J., see Schmid, R.G. (83) 112 Linke, D.B., see Kurthen, M. (83) 70 Pratt, H., Martin, W.H. and Schwegler, J.W. Livermore, A., Hummel, T. and Kobal, G. Contralateral effects of cerebello-pontine angle exposure on hu- Chemosensory event-related potentials in the investigation of man auditory brain-stem evoked potentials (83) 153 interactions between the olfactory and the somatosensory (tri- Prinz, P.N., Larsen, L.H., Moe, K.E. and Vitiello, M.V. geminal) systems (83) 201 EEG markers of early Alzheimer’s disease in computer selected Louis, J., Zhang, J.X., Revol, M., Debilly, G. and Challamel, M.J. tonic REM sleep (83) 36 Ontogenesis of nocturnal organization of sleep spindles: a longi- Prinz, P.N., see Larsen, L.H. (83) 24 tudinal study during the first 6 months of life (83) 289 Liicking, C.H., see Evdokimidis, I. (83) 179 Ramos, J., see Corsi-Cabrera, M. (83) 265 Lukas, M., see Kurthen, M. (83) 70 Rappelsberger, P., see Schmid, R.G. (83) 112 Reddy, R.V., Moorthy, S.S., Mattice, T., Dierdorf, S.F. and Maier, S., see Naumann, E. (83) 254 Deitch, Jr., R.D. Makela, J.P., see Karhu, J. (83) 192 An electroencephalographic comparison of effects of propofol Malatesta, G., see Onofrj, M. (83) 52 and methohexital (83) 162 Marino, A.A., see Bell, G.B. (83) 389 Reinikainen, K., see Ritter, W. (83) 306 Marosi, E., Harmony, T., Sanchez, L., Becker, J., Bernal, J., Reyes, Revol, M., see Louis, J. (83) 289 A., Diaz de Leén, A.E., Rodriguez, M. and Fernandez, T. Reyes, A., see Marosi, E. (83) 350 Maturation of the coherence of EEG activity in normal and Riether, A.M., see Epstein, C.M. (83) 367 learning-disabled children (83) 350 Ritter, W., Paavilainen, P., Lavikainen, J., Reinikainen, K., Alho, K., Martin, W.H., see Pratt, H. (83) 153 Sams, M. and Naatanen, R. Matsuoka, T., see Kano, K. (83) 124 Event-related potentials to repetition and change of auditory Mattice, T., see Reddy, R.V. (83) 162 stimuli (83) 306 Mergner, T., see Evdokimidis, I. (83) 179 Rodriguez, M., see Marosi, E. (83) 350 Migneco, O., see Thomas, P. (83) 223 Rogers, R.L., Papanicolaou, A.C., Baumann, S.B. and Eisenberg, Mikkelsen, K.B., see Colding-Jorgensen, E. (83) 322 H.M. Milleret, C., see Chatila, M. (83) 217 Late magnetic fields and positive evoked potentials following Moe, K.E., see Larsen, L.H. (83) 24 infrequent and unpredictable omissions of visual stimuli (83) 146 Moe, K.E., see Prinz, P.N. (83) 36 Rondouin, G., see Tafti, M. (83) 339 Moorthy, S.S., see Reddy, R.V. (83) 162 Rothacher, G., see Besser, R. (83) 19 INDEX OF AUTHORS 83, 1992 Rougeul, A., see Chatila, M. (83) 217 Takigawa, M., see Wang, G. (83) 398 Rudell, A.P. Theisohn, M., see Besser, R. (83) 19 Rapid stream stimulation and the recognition potential (83) 77 Thomas, P., Migneco, O., Darcourt, J. and Chatel, M. Russegger, L., see Kofler, M. (83) 83 Single photon emission computed tomography study of subclini- cal rhythmic electrographic discharge in adults (83) 223 Szrmark, K., see Colding-Jgrgensen, E. (83) 322 Tirsch, W.S., see Schmid, R.G. (83) 112 Salinsky, M.C., Oken, B.S., Kramer, R.E. and Morehead, L. Toi, S., see Shinosaki, K. (83) 372 A comparison of quantitative EEG frequency analysis and con- ventional EEG in patients with focal brain lesions (83) 358 Ukai, S., see Shinosaki, K. (83) 372 Saltuari, L., see Kofler, M. (83) 83 Sams, M., see Ritter, W. (83) 306 Van der Wal, E.A. and Sandman, C.A. Sanchez, L., see Marosi, E. (83) 350 Evidence for terminal decline in the event-related potential of Sandman, C.A., see Van der Wal, E.A. (83) 211 the brain (83) 211 Schmid, R.G., Tirsch, W.S., Rappelsberger, P., Weinmann, H.-M. Van Dijk, J.G., Caekebeke, J.F.V., Jennekens-Schinkel, A. and and PéGppl, S.J. Zwinderman, A.H. Comparative coherence studies in healthy volunteers and Down’s Background EEG reactivity in auditory event-related potentials syndrome patients from childhood to adult age (83) 112 (83) 44 Schmutzhard, E., see Kofler, M. (83) 83 Vaughan, Jr., H.G., see Javitt, D.C. (83) 87 Schramm, J., see Kurthen, M. (83) 70 Velazquez, P.N., see Corsi-Cabrera, M. (83) 265 Schroeder, C.E., see Javitt, D.C. (83) 87 Vitiello, M.V., see Prinz, P.N. (83) 36 Schwegler, J.W., see Pratt, H. (83) 153 Senulis, J.A., see Sobotka, S.S. (83) 236 Waltz, S., Christen, H.-J. and Doose, H. Seyal, M., see Gabor, A.J. (83) 271 The different patterns of the photoparoxysmal response — a Shinosaki, K., Inouye, T., Ukai, S. and Toi, S. genetic study (83) 138 Half-field sinusoidally modulated light stimulation at subject’s Wang, G. and Takigawa, M. alpha frequency (83) 372 Development of data reconstruction system of paper-recorded Sobotka, $.S., Davidson, R.J. and Senulis, J.A. EEG: method and its evaluation (83) 398 Anterior brain electrical asymmetries in response to reward and Wang, L.-Y., see Gotman, J. (83) 12 punishment (83) 236 Weinmann, H.-M., see Schmid, R.G. (83) 112 Spencer, D.D., see Spencer, S.S. (83) 104 Wenzl, M., see Morgan, J.M. (83) 378 Spencer, S.S., Kim, J. and Spencer, D.D. Winker, T., see Niemann, J. (83) 297 Ictal spikes: a marker of specific hippocampal cell loss (83) 104 Wustmans, A., see Naumann, E. (83) 254 Steinschneider, M., see Javitt, D.C. (83) 87 Yagi, A., see Katayama, J. (83) 248 Tafti, M., Rondouin, G., Besset, A. and Billiard, M. Sleep deprivation in narcoleptic subjects: effect on sleep stages Zhang, J.X., see Louis, J. (83) 289 and EEG power density (83) 339 Zwinderman, A.H., see Van Dijk, J.G. (83) 44 Electroencephalography and clinical Neurophysiology ,8 3 (1992) 410-413 © 1992 Elsevier Scientific Publishers Ireland, Ltd. 0013-464/99 2 /$05.00 Index of Subjects VOLUME 83, 1992 (Abstracts from Society Proceedings are not included) Affective disorders and EEG topography, 124 Burst suppression Age — ECoG and memory in amobarbital tests, 70 — terminal decline in the ERP of the brain, 211 Alpha rhythm Carbamazepine effects on EEG, 19 — “alpha-like” rhythm in cat, 217 Cat “alpha-like” rhythm, 217 — background EEG reactivity in auditory ERPs, 44 Cell loss — early Alzheimer’s disease in tonic REM sleep, 36 — ictal spikes and hippocampal cell loss, 104 — EEG topography in affective disorders, 124 Cerebello-pontine angle exposure and BAEPs, 153 — event-related desynchronization, 62 Cerebral lesions, see Lesions — interhemispheric response of alpha activity, 372 Cerebrovascular disease Alzheimer’s disease — delayed P3 in thalamic hemorrhage, 52 — early Alzheimer’s disease in tonic REM sleep, 36 — subclinical rhythmic electrographic discharge, 223 -— qEEG during tonic REM sleep, 24 Chemosensory evoked potentials Amobarbital test and ECoG and memory, 70 — olfactory and somatosensory system interaction, 201 Anesthesia — perception of chemical stimuli, 201 — EEG effects of propofol and methohexital, 162 Children, see Infants Arousal mechanisms and periodic activity, 130 Cognitive deficit Asymmetries of brain electrical during emotional behavior, 236 — terminal decline in the ERP of the brain, 211 Auditory mismatch negativity in the monkey, 87 Cognitive processes Auditory evoked fields and tinnitus, 322 — mismatch negativity in the monkey, 87 Auditory evoked potentials Coherence analysis — to repetition and change of auditory stimuli, 306 — bilateral synchrony in epilepsy, 93 Automated analysis — in Down’s syndrome and healthy subjects, 112 — early Alzheimer’s disease in tonic REM sleep, 36 — in learning-disabled children, 350 — interictal spike detection by neural networks, 271 — spline computation of scalp current density, 171, 172 — spike detection, 1, 12 Color Autonomic nervous system — N400 to color patch or word, 248 — periodic activity in cerebral arousal mechanisms, 130 Complex partial seizures, 229 Autoregressive model Computerization of paper-recorded EEG, 398 — bilateral synchrony in epilepsy, 93 Computed EEG topography, see Topographic mapping Contingent negative variation — behavioral consequences of DC potential shifts, 378 Baclofen — electrical asymmetries during emotional behavior, 236 - severe intrathecal baclofen overdose, 83 Convulsion threshold BAEPs, see Brain-stem auditory evoked potentials — iron-induced epilepsy in rat, 281 Behavioral consequences of DC potential shifts, 378 Current density spline computation, 171, 172 Beta rhythms Current dipole — background EEG reactivity in auditory ERPs, 44 — tinnitus and auditory evoked magnetic fields, 322 — early Alzheimer’s disease in tonic REM sleep, 36 - qEEG during tonic REM sleep, 24 Data processing Bilateral synchrony in epilepsy, 93 — computerization of paper-recorded EEG, 398 Book reviews, 91, 175, 328, 402 — see also Spectral analysis Brain damage DC potential shifts ~— EEG in patients with focal brain lesions, 358 — behavioral consequences, 378 — periodic activity in cerebral arousal mechanisms, 130 — during motor performance, 297 Brain death Depth recording — terminal decline in the ERP of the brain, 211 — ictal spikes and hippocampal cell loss, 104 Brain development Development — EEG in learning-disabled children, 350 — EEG in learning-disabled children, 350 Brain-stem auditory evoked potentials — nocturnal sleep spindle ontogenesis, 289 — cerebello-pontine angle exposure, 153 Diagnosis of early Alzheimer’s disease, 36 — severe intrathecal baclofen overdose, 83 Down’s syndrome and EEG coherence, 112 INDEX OF SUBJECTS 83, 1992 EcoG — somatosensory, see Somatosensory evoked potentials — and memory in amobarbital tests, 70 — the recognition potential, 77 — iron-induced epilepsy in rat, 281 Eye movement EEG — presaccadic potential and saccade type, 179 alterations caused by magnetic fields, 389 and photoparoxysmal response, 138 Females automated spike detection, 1 ~- EEG activity during estral cycle in rat, 265 background EEG reactivity in auditory ERPs, 44 Filtering bilateral synchrony in epilepsy, 93 — interhemispheric response of alpha activity, 372 — cheek electrodes for identification of ictal activity, 333 Focal brain lesions and EEG, 358 — computerization of paper-recorded EEG, 398 Frequency analysis during carbamazepine treatment, 19 — during carbamazepine treatment, 19 — during emotional behavior, 236 — in patients with focal brain lesions, 358 during estral cycle in rat, 265 Frontal cortex during tonic REM sleep, 24, 36 - behavioral consequences of DC potential shifts, 378 effects of propofol and methohexital, 162 epidural EEG wave forms, 229 Genetic study of photoparoxysmal response, 138 event-related desynchronization, 62 Half-field stimulation ictal spikes and hippocampal cell loss, 104 — interhemispheric response of alpha activity, 372 in affective disorders, 124 Hand preference and cortical negative DC shifts, 297 in Down’s syndrome, 112 Hemispherical lateralization in early Alzheimer’s disease, 36 — EEG topography in affective disorders, 124 in learning-disabled children, 350 — interhemispheric response of alpha activity, 372 in liver transplantation, 367 Hemorrhage in patients with focal brain lesions, 358 — delayed P3 in thalamic hemorrhage, 52 interhemispheric response of alpha activity, 372 Hepatic diseases interictal spike detection by neural networks, 271 — EEG in liver transplantation, 367 SPECT in subclinical rhythmic electrographic discharge, 223 Hippocampal cell loss and ictal spikes, 104 — state-dependent spike detection, 12 Electrical potential Ictal EEG — relationships between sources from MEFs and EPs, 146 — and hippocampal cell loss, 104 Electrode for identification of ictal activity, 333 - electrode for identification of ictal activity, 333 Electrode placement and epidural EEG wave forms, 229 Ideographs Emission computerized tomography — the recognition potential, 77 — in subclinical rhythmic electrographic discharge, 223 Image scanner Emotional behavior and brain electrical asymmetries, 236 — computerization of paper-recorded EEG, 398 Epidural EEG wave forms, 229 Infants Epilepsy - EEG in learning-disabled children, 350 — automated spike detection, 1 — nocturnal sleep spindle ontogenesis, 289 — cheek electrodes for identification of ictal activity, 333 Interhemispheric — ECoG and memory in amobarbital tests, 70 — bilateral synchrony in epilepsy, 93 epidural EEG wave forms, 229 — time differences in spike-waves, 169, 170 ictal spikes and hippocampal cell loss, 104 Interhemispheric coherence interhemispheric time differences in spike-waves, 169, 170 — in Down’s syndrome and healthy subjects, 112 interictal spike detection by neural networks, 271 Intoxication iron-induced epilepsy in rat, 281 — severe intrathecal baclofen overdose, 83 photoparoxysmal response. A genetic study, 138 Intraoperative monitoring — primary and secondary bilateral synchrony, 93 — cerebello-pontine angle exposure and BAEPs, 153 — state-dependent spike detection, 12 — EEG effects of propofol and methohexital, 162 Estral cycle and EEG activity in rat, 265 Intrathecal baclofen overdose, 83 Event-related potentials Ion resonance — and background EEG reactivity, 44 — EEG alterations caused by magnetic fields, 389 — behavioral consequences of DC potential shifts, 378 Iron-induced epilepsy in rat, 281 — in thalamic hemorrhage, 52 — mismatch negativity in the monkey, 87 Learning-disabled children, 350 — N400 to color patch or word, 248 Lesions — P3 in the visual and auditory modalities, 254 — EEG in patients with focal brain lesions, 358 — terminal decline in the ERP of the brain, 211 Lissajous’ trajectories — to repetition and change of auditory stimuli, 306 — cerebello-pontine angle exposure and BAEPs, 153 Event-related synchronization, 62 Liver transplantation and EEG, 367 Evoked fields in multiple sclerosis, 192 Lobectomy Evoked potentials — epidural EEG wave forms, 229 — BAEPs, see Brain-stem auditory evoked potentials — corrigenda, 270 Magnetic field — relationships between sources from MEFs and EPs, 146 — EEG alterations caused by magnetic fields, 389 — severe intrathecal baclofen overdose, 83 — relationships between sources from MEFs and EPs, 146 412 INDEX OF SUBJECTS 83, 1992 Magnetoencephalogram Physical stimulus — in multiple sclerosis, 192 - N400 to color patch or word, 248 — in tinnitus, 322 Power spectral analysis Mapping, see Topographic mapping — EEG alterations caused by magnetic fields, 389 Maturation Premotor potential — EEG in learning-disabled children, 350 — presaccadic potential and saccade type, 179 Median nerve SEFs in multiple sclerosis, 192 Preparation to movement Memory — behavioral consequences of DC potential shifts, 378 — behavioral consequences of DC potential shifts, 378 Process S — in amobarbital tests, 70 — sleep deprivation in narcoleptic subjects, 339 Methohexital EEG effects, 162 Prognosis Mismatch negativity — EEG in liver transplantation, 367 — in the monkey, 87 Propofol EEG effects, 162 — repetition and change of auditory stimuli, 306 P3 Modality — in thalamic hemorrhage, 52 — P3 in the visual and auditory modalities, 254 — in the visual and auditory modalities, 254 Model — repetition and change of auditory stimuli, 306 — interictal spike detection by neural networks, 271 — the recognition potential, 77 Monitoring P300 in the monkey, 87 — automated spike detection, 1 Pz — state-dependent spike detection, 12 — relationships between sources from MEFs and EPs, 146 Monkey mismatch negativity, 87 Movement Quantitative EEG — behavioral consequences of DC potential shifts, 378 — during tonic REM sleep, 24 - cortical negative DC shifts, 297 — in liver transplantation, 367 Multiple sclerosis and SEFs, 192 — in patients with focal brain lesions, 358 Mu rhythm in cat, 217 Muscle activity and cortical negative DC shifts, 297 Rat -— EEG activity during estral cycle, 265 Narcolepsy and sleep deprivation, 339 S iron-induced epilepsy, 281 Negative DC shifts during motor performance, 297 Reaction time Neural network and detection of interictal spike, 271 ~ background EEG reactivity in auditory ERPs, 44 Neurological disorders Recognition potential, 77 ~ delayed P3 in thalamic hemorrhage, 52 Reward and brain electrical asymmetries, 236 — EEG during carbamazepine treatment, 19 — periodic activity in cerebral arousal mechanisms, 130 Saccade type and presaccadic potential, 179 Normal human subjects Signal processing — background EEG reactivity in auditory ERPs, 44 — automated spike detection, 1 — behavioral consequences of DC potential shifts, 378 - early Alzheimer’s disease in tonic REM sleep, 36 ~ EEG alterations caused by magnetic fields, 389 — interhemispheric time differences in spike-waves, 169, 170 — EEG coherence, 112 — spline computation of scalp current density, 171, 172 — electrical asymmetries during emotional behavior, 236 — state-dependent spike detection, 12 — ERPs to repetition and change of auditory stimuli, 306 Signal /noise — interhemispheric response of alpha activity, 372 — cerebello-pontine angle exposure and BAEPs, 153 — negative DC shifts during motor performance, 297 Significance probability mapping — N400 to color patch or word, 248 — EEG topography in affective disorders, 124 — presaccadic potential and saccade type, 179 Simulation — P3 in the visual and auditory modalities, 254 — interictal spike detection by neural networks, 271 — the recognition potential, 77 Sine wave grating Normalization — interhemispheric response of alpha activity, 372 — P3 in the visual and auditory modalities, 254 Single photoemission computed tomography study of SREDA, 223 N2 Single trial EEG data — repetition and change of auditory stimuli, 306 - background EEG reactivity in auditory ERPs, 44 — the recognition potential, 77 Sleep N400 to color patch or word, 248 — event-related desynchronization, 62 — in early Alzheimer’s disease, 36 ‘ — nocturnal sleep spindle ontogenesis, 289 pg eselo gee — periodic activity, 130 — mismatch negativity in the monkey, 87 «a a ee Olfaction oe P _ r . ‘ — tonic REM sleep, 24, 36 — interaction with the somatosensory system, 201 . é see Slow waves Fcc boaag of chemical stimuli, 201 — behavioral consequences of DC potential shifts, 378 Society proceedings — nocturnal sleep spindle ontogenesis, 289 — American, Philadelphia, December 1991, 63P — American, Salt Lake City, February 1992, 11P Periodic activity in cerebral arousal mechanisms, 130 — Belgian, Bruges, November 1991, 1P Photoparoxysmal response. A genetic study, 138 — Eastern Association, Val David, February 1992, 16P INDEX OF SUBJECTS 83, 1992 — French, Montpellier, May 1991, 55P Temporal lobe - German, Bonn, October 1990, 90P — cheek electrodes for identification of ictal activity, 333 — Israelian, Jerusalem, November 1991, 5P - epidural EEG wave forms, 229 — Italian, Ascoli Piceno, June 1991, 20P — ictal spikes and hippocampal cell loss, 104 — Japanese, Matsumoto, November 1991, 46P Terminal decline in the ERP of the brain, 211 — Swedish, Stockholm, November 1991, 3P Thalamic hemorrhage and delayed P3, 52 Somatosensory cortex and multiple sclerosis, 192 Tinnitus and auditory evoked magnetic fields, 322 Somatosensory evoked potentials Topographic mapping — interaction with the olfactory system, 201 — EEG topography in affective disorders, 124 — iron-induced epilepsy in rat, 281 — event-related desynchronization, 62 — perception of chemical stimuli, 201 — P3 in the visual and auditory modalities, 254 Source Trigeminal nerve — relationships between sources from MEFs and EPs, 146 — olfactory and somatosensory system interaction, 201 Spatial distribution, see Topographic mapping — perception of chemical stimuli, 201 Spectral analysis Tumors — during tonic REM sleep, 24 - cerebello-pontine angle exposure and BAEPs, 153 — sleep deprivation in narcoleptic subjects, 339 Sphenoidal electrode and identification of ictal activity, 333 Ulnar nerve SEFs in multiple sclerosis, 192 Spike — automated spike detection, 1 — ictal spikes and hippocampal cell loss, 104 Verbal task — interictal spike detection by neural networks, 271 - ECoG and memory in amobarbital tests, 70 — state-dependent spike detection, 12 Visual cortex Spike-wave - “alpha-like” rhythm in cat, 217 — bilateral synchrony in epilepsy, 93 Visual stimulation — interhemispheric time differences, 169, 170 - relationships between sources from MEFs and EPs, 146 — iron-induced epilepsy in rat, 281 Spindles Wave form — event-related desynchronization, 62 - epidural EEG wave forms, 229 — nocturnal sleep spindle ontogenesis, 289 Wiener filtering Subclinical rhythmic electrographic discharge, 223 — interhemispheric response of alpha activity, 372 Supplementary motor area Word — cortical negative DC shifts during motor performance, 297 — N400 to color patch or word, 248 Task complexity and cortical negative DC shifts, 297 Temperature effects Z spectra — cerebello-pontine angle exposure and BAEPs, 153 - qEEG during tonic REM sleep, 24

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