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Electroencephalography and Clinical Neurophysiology 1996: Vol 100 Index PDF

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Preview Electroencephalography and Clinical Neurophysiology 1996: Vol 100 Index

5,) ell ELSEVIER Electroencephalography and clinical Neurophysiology 100 (1996) 585-589 Index of Authors VOLUME 100 (1996) (Authors from abstracts from Society Proceedings are not included) Allison, T., McCarthy, G., Luby, M., Puce, A., Spencer, Csépe, V., see Juckel, G. (100) 527 D.D., Localization of functional regions of human mesial cortex by somatosensory evoked potential re- Denda, S., see Takada, T. (100) 493 cording and by cortical stimulation (100) 126 Denda, S., see Tomita, M. (100) 68 Andow, Y., see Shinba, T. (100) 563 Deuschl, G., see Rossini, P.M. (100) 229 Aragane, K., see Tachibana, H. (100) 299 Di Lazzaro, V., see Restuccia, D. (100) 184 Aronen, H., see Wikstr6ém, H. (100) 479 Drenckhahn, R., see Buchner, H. (100) 332 Durupt, I., see Hervé, T. (100) 472 Baba, H., see Takada, T. (100) 493 Baba, H., see Tomita, M. (100) 68 Ekert, P.G., see Taylor, M.J. (100) 448 Baratta, G., see Macaluso, C. (100) 12 Elidan, J., see Rodionov, V. (100) 354 Barrett, G., see Honda, M. (100) 407 Escera, C., Grau, C., Short-term replicability of the mis- Bergamaschi, R., see Romani, A. (100) 204 match negativity (100) 549 Bertalanffy, H., see Ishikawa, M. (100) 261 Beyhan, Z., see Ozkardes, A. (100) 500 Falsini, B., Porciatti, V., The temporal frequency re- Bodis-Wollner, I., see M. Tagliati (100) | sponse function of pattern ERG and VEP: changes in Boles, C.D., see Noss, R.S. (100) 453 optic neuritis (100) 428 Boor, R., see Taylor, M.J. (100) 448 Feifel, E., see Rossini, P.M. (100) 229 Borg, E., see Tonnquist-Uhlén, I. (100) 250 Feinsod, M., see Soustiel, J.F. (100) 152 Bozdemir, H., see Sarica, Y. (100) 55 Feinsod, M., see Soustiel, J.F. (100) 51 Braun, J.C., Hanley, D.F., Thakor, N.V., Detection of Fiaschi, A., see Tinazzi, M. (100) 210 neurological injury using time-frequency analysis of Flores-Guevara, R., Renault, F., Ostré, C., Richard, P., the somatosensory evoked potential (100) 310 Maturation of the electroretinogram in children: sta- Bromm, B., see Lorenz, J. (100) 165 bility of the amplitude ratio a/b (100) 422 Buchner, H., Waberski, T.D., Fuchs, M., Drenckhahn, R., Franssen, H., Weusten, B.L.A.M., Wieneke, G.H., Wagner, M., Wischmann, H.-A., Postcentral origin of Smout, AJ.P.M., Source modeling of esophageal P22: evidence from source reconstruction in a realisti- evoked potentials (100) 85 cally shaped head model and from a patient with a Freeman, S., Sohmer, H., A comparison of forepaw and postcentral lesion (100) 332 vibrissae somatosensory cortical evoked potentials in Bittner, Th., Kuhn, W., Miller, Th., Heinze, T., Piihl, C., the rat (100) 362 Przuntek, H., Chromatic and achromatic visual evoked Fuchs, M., see Buchner, H. (100) 332 potentials in Parkinson’s disease (100) 443 Fujihara, H., see Takada, T. (100) 493 Fujioka, H., see Takada, T. (100) 493 Callieco, R., see Romani, A. (100) 204 Fujita, S., see Kawamura, T. (100) 44 Cheek, J.C., see Zappia, M. (100) 141 Fujita, S., see Seki, K. (100) 436 Chen, C.-H., see Ninomiya, H. (100) 74 Fujiwara, N., see Kanda, M. (100) 105 Chistyakov, A.V., see Soustiel, J.F. (100) 152 Fujiwara, S., see Kawamura, T. (100) 44 Chisiyakov, A.V., see Soustiel, J.F. (100) 51 Fukuda, S., see Takada, T. (100) 493 Collet, L., see Hervé, T. (100) 472 Fulgente, T., see Onofr}, M. (100) 275 Corakci, A., see Ozkardes, A. (100) 500 Cordella, M., see Macaluso, C. (100) 12 Gambi, D., see Onofrj, M. (100) 275 Cosi, V., see Romani, A. (100) 204 Genba-Shimizu, K., see Sonoo, M. (100) 319 Covington, J.W., Polich, J., P300, stimulus intensity, and Genba-Shimizu, K., see Ugawa, Y. (100) 62 modality (100) 579 Grasedyck, K., see Lorenz, J. (100) 165 Crockard, H.A., see Jones, S.J. (100) 375 Grau, C., see Escera, C. (100) 549 586 Index of Authors Volume 100 (1996) Guilburd, J.N., see Soustiel, J.F. (100) 152 Jousmiki, V., see Loveless, N. (100) 220 Gundogan, M.A., see Ozkardes, A. (100) 500 Jousmiki, V., see Makela, K. (100) 273 Juckel, G., Csépe, V., Molnar, M., Hegerl, U., Karmos, Hafner, H., see Soustiel, J.F. (100) 152 G., Intensity dependence of auditory evoked poten- Hafner, H., see Soustiel, J.F. (100) 51 tials in behaving cats (100) 527 Hagiwara, H., see Sonoo, M. (100) 488 Kakigi, R., see Hoshiyama, M. (100) 96 Hamilainen, H., see Kekoni, J. (100) 115 Kanazawa, I., see Ugawa, Y. (100) 62 Hanley, D.F., see Braun, J.C. (100) 310 Kanda, M., Fujiwara, N., Xu, X., Shindo, K., Nagamine, Hari, R., see Loveless, N. (100) 220 T., Ikeda, A., Shibasaki, H., Pain-related and cogni- Harrison, R., see Jones, S.J. (100) 375 tive components of somatosensory evoked potentials Hartikainen, K., see Makela, K. (100) 269 following CO, laser stimulation in man (100) 105 Hashimoto, I., Mashiko, T., Imada, T., Somatic evoked Kanno, A., see Kawamura, T. (100) 44 high-frequency magnetic oscillations reflect activity Kanno, A., see Seki, K. (100) 436 of inhibitory interneurons in the human somatosen- Karacan, I., see Sarica, Y. (100) 55 sory cortex (100) 189 Karatas, M., see Sarica, Y. (100) 55 Hatanaka, K., see Seki, K. (100) 436 Karmos, G., see Juckel, G. (100) 527 Hegerl, U., see Juckel, G. (100) 527 Katayama, J., Polich, J., P300, probability, and the three- Heinze, T., see Biittner, Th. (100) 443 tone paradigm (100) 555 Hemli, J.A., see Zaslansky, R. (100) 384 Kato, M., see Tobimatsu, S. (100) 171 Hervé, T., Truy, E., Durupt, I., Collet, L., A new stimu- Kato, M., see Tobimatsu, S. (100) 177 lation strategy for recording electrical auditory evoked Katz, Y., see Zaslansky, R. (100) 384 potentials in cochlear implant patients (100) 472 Kawamura, T., Nakasato, N., Seki, K., Kanno, A., Fujita, Hoffmann, K., Skrandies, W., Lehmann, D., Witte, H., S., Fujiwara, S., Yoshimoto, T., Neuromagnetic evi- Strobel, J., Instantaneous frequency maps, dipole dence of pre- and post-central cortical sources of so- models and potential distributions of pattern reversal- matosensory evoked responses (100) 44 evoked potential fields for correct recognition of Kawamura, T., see Seki, K. (100) 436 stimulated hemiretinae (100) 569 Kawasaki, M., see Yamada, T. (100) 33 H6lttd, V., see Makela, K. (100) 273 Kawase, T., see Ishikawa, M. (100) 261 Honda, M., Barrett, G., Yoshimura, N., Ikeda, A., Na- Kekoni, J., Hamalainen, H., McCloud, V., Reinikainen, gamine, T., Shibasaki, H., Event-related potentials K., Naatanen, R., Is the somatosensory N250 related during paired associate memory paradigm (100) 407 to deviance discrimination or conscious target detec- Hoshiyama, M., Kakigi, R., Koyama, S., Kitamura, Y., tion? (100) 115 Shimojo, M., Watanabe, S., Somatosensory evolced Kitamura, Y., see Hoshiyama, M. (100) 96 magnetic fields following stimulation of the lip in Kobayashi, M., see Sonoo, M. (100) 319 humans (100) 96 Koh, K.F., see Jones, S.J. (100) 375 Huttunen, J., see Wikstr6m, H. (100) 479 K6nonen, M., see Makela, K. (100) 273 Korvenoja, A., see Wikstrém, H. (100) 479 Ichimiya, A., see Ninomiya, H. (100) 74 Koyama, S., see Hoshiyama, M. (100) 96 Ikeda, A., see Honda, M. (100) 407 Kuhn, W., see Biittner, Th. (100) 443 Ikeda, A., see Kanda, M. (100) 105 Kutas, M., see Iragui, V. (100) 392 Ilmoniemi, R.J., see Wikstr6ém, H. (100) 479 Imada, T., see Hashimoto, I. (100) 189 Lamedica, A., see Macaluso, C. (100) 12 Iragui, V., Kutas, M., Salmon, D.P., Event-related brain Lehmann, D., see Hoffmann, K. (100) 569 potentials during semantic categorization in normal Levanen, S., see Loveless, N. (100) 220 aging and senile dementia of the Alzheimer’s type Lopez, L., see Onofrj, M. (100) 275 (100) 392 Lorenz, J., Grasedyck, K., Bromm, B., Middle and long Ishikawa, M., Ohira, T., Yamaguchi, N., Takase, M., latency somatosensory evoked potentials after painful Bertalanffy, H., Kawase, T., Toya, S., Strength- laser stimulation in patients witlb fibromyalgia syn- duration curve of conductive spinal cord evoked po- drome (100) 165 tentials in cats (100) 261 Loveless, N., Levanen, S., Jousmaki, V., Sams, M., Hari, R., Temporal integration in auditory sensory memory: Jaaskelainen, S., see Makela, K. (100) 273 neuromagnetic evidence (100) 220 Jantti, V., see Makela, K. (100) 269 Luby, M., see Allison, T. (100) 126 Jiang, Z.D., Binaural interaction and the effects of Licking, C.H., see Rossini, P.M. (100) 229 stimulus intensity and repetition rate in human audi- Liiders, H., see Zappia, M. (100) 141 tory brain-stem (100) 505 Jones, S.J., Harrison, R., Koh, K.F., Mendoza, N., Macaluso, C., Lamedica, A., Baratta, G., Cordella, M., Crockard, H.A., Motor evoked potential monitoring Color discrimination along the cardinal chromatic during spinal surgery: responses of distal limb mus- axes with VECPs as an index of function of the par- cles to transcranial cortical stimulation with pulse vocellular pathway. Correspondence of intersubject trains (100) 375 and axis variations to psychophysics (100) 12 Index of Authors Volume 100 (1996) Maes, H., see Spileers, W. (100) 287 Pizzella, V., see Rossini, P.M. (100) 229 Miakela, K., Hartikainen, K., Rorarius, M., Jantti, V., Polich, J., see Covington, J.W. (100) 579 Suppression of F-VEP during isoflurane-induced EEG Polich, J., see Katayama, J. (100) 555 suppression (100) 269 Porciatti, V., see Falsini, B. (100) 428 Miakela, K., H6ltté, V., Jaéaskelainen, S., Kénénen, M., Przuntek, H., see Biittner, Th. (109) 443 Jousmiki, V., Inter-hospital comparison of Ganzfeld Puce, A., see Allison, T. (100) 126 ERG photostimulators (100) 273 Piihl, C., see Biittner, Th. (100) 443 Mangelschots, E., see Spileers, W. (100) 287 Mannen, T., see Sonoo, M. (100) 319 Rambaud, L., see Valeriani, M. (100) 343 Mariotti, P., see Restuccia, D. (100) 184 Reinikainen, K., see Kekoni, J. (100) 115 Mashiko, T., see Hashimoto, I. (100) 189 Renault, F., see Flores-Guevara, R. (100) 422 Matsubara, M., see Yamada, T. (100) 33 Restuccia, D., Di Lazzaro, V. Valeriani, M., Mariotti, P., Matsuoka, H., Saito, H., Ueno, T., Sato, M., Altered en- Torrioli, M.G., Tonali, P., Mauguiére, F., Brain-stem dogenous negativities of the visual event-related po- somatosensory dysfunction in a case of long-standing tential in remitted schizophrenia (100) 18 left hemispherectomy with removal of the left thala- Mauguieére, F., see Restuccia, D. (100) 184 mus: a nasopharyngeal and scalp SEP study (100) 184 Mauguiere, F., see Tinazzi, M. (100) 210 Richard, P., see Flores-Guevara, R. (100) 422 Mauguiére, F., see Valeriani, M. (100) 343 Rodionov, V., Elidan, J., Sohmer, H., Analysis of the McCarthy, G., see Allison, T. (160) 126 middle latency evoked potentials to angular accelera- McCloud, V., see Kekoni, J. (100) 115 tion impulses in man (100) 354 Melchionda, D., see Onofrj, M. (100) 275 Romani, A., Bergamaschi, R., Versino, M., Zilioli, A., Mendoza, N., see Jones, S.J. (100) 375 Sartori, I., Callieco, R., Montomoli, C., Cosi, V., Es- Mller, A.R., see Szczepaniak, W.S. (100) 158 timating reliability of evoked potential measures from Molnar, M., see Juckel, G. (100) 527 residual scores: an example using tibial SSEPs (100) Montomoli, C., see Romani, A. (100) 204 204 Motoyoshi, Y., see Sonoo, M. (100) 488 Romani, G.L., see Rossini, P.M. (100) 229 Miiller, Th., see Biittner, Th. (100) 443 Rorarius, M., see Makela, K. (100) 269 Rossini, P.M., Deuschl, G., Pizzella, V., Tecchio, F., Naatanen, R., see Kekoni, J. (100) 115 Pasquarelli, A., Feifel, E., Romani, G.L., Liicking, Nagamine, T., see Honda, M. (100) 407 C.H., Topography and sources of electromagnetic Nagamine, T., see Kanda, M. (100) 105 cerebral responses to electrical and air-puff stimula- Nakasato, N., see Kawamura, T. (100) 44 tion of the hand (100) 229 Nakasato, N., see Seki, K. (100) 436 Rozenberg, B., see Zaslansky, R. (100) 384 Ninomiya, H., Chen, C.-H., Onitsuka, T., Ichimiya, A.., Negative correlation of P50 peak latencies and reac- Saito, H., see Matsuoka, H. (100) 18 tion times in a simple reaction task (100) 74 Salmon, D.P., see Iragui, V. (100) 392 Noss, R.S., Boies, C.D., Yingling, C.D., Steady-state Salonen, O., see Wikstrém, H. (100) 479 analysis of somatosensory evoked potentials (100) Sams, M., see Loveless, N. (100) 220 453 Sarica, Y., Karatas, M., Bozdemir, H., Karacan, I., Cere- bral responses elicited by stimulation of the vesico- Ohira, T., see Ishikawa, M. (100) 261 urethral junction (VUJ) in diabetics (100) 55 Onitsuka, T., see Ninomiya, H. (100) 74 Sartori, I., see Romani, A. (100) 204 Onofrj, M., Fulgente, T., Thomas, A., Gambi, D., Sato, M., see Matsuoka, H. (100) 18 Melchionda, D., Lopez, L., Delayed and pseudode- Schréger, E., The influence of stimulus intensity and in- layed visual evoked potentials in optic neuritis com- ter-stimulus interval on the detection of pitch and pared with long time echo-short tau inversion recov- loudness changes (100) 517 ery magnetic resonance imaging of optic nerve (100) Seki, K., Nakasato, N., Fujita, S., Hatanaka, K., Kawa- 275 mura, T., Kanno, A., Yoshimoto, T., Neuromagnetic Orban, G.A., see Spileers, W. (100) 287 evidence that the P100 component of the pattern re- Ostré, C., see Flores-Guevara, R. (100) 422 versal visual evoked response originates in the bottom Ozata, M., see Ozkardes, A. (100) 500 of the calcarine fissure (100) 436 Ozawa, N., see Shinba, T. (100) 563 Seki, K., see Kawamura, T. (100) 44 Ozkardes, A., Ozata, M., Beyhan, Z., Corakci, A., Vural, Sharf, B., see Soustiel, J.F. (100) 152 O., Yardim, M., Gundogan, M.A., Acute hypothyroid- Shibasaki, H., see Honda, M. (100) 407 ism leads to reversible alterations in central nervous Shibasaki, H., see Kanda, M. (100) 105 system as revealed by somatosensory evoked poten- Shimizu, T., see Sonoo, M. (100) 319 tials (100) 500 Shimizu, T., see Sonoo, M. (100) 488 Shimoji, K., see Takada, T. (100) 493 Pasquarelli, A., see Rossini, P.M. (100) 229 Shimoji, K., see Tomita, M. (100) 68 Patterson, T., see Stecker, M.M. (100) 370 Shimojo, M., see Hoshiyama, M. (100) 96 Persson, H.E., see Tonnquist-Uhlén, I. (100) 250 Shinaishi, G., see Yamada, T. (100) 33 588 Index of Authors Volume 100 (1996) Shinba, T., Andow, Y., Shinozaki, T., Ozawa, N., Ya- Tagliati, M., Bodis-Wolliner, I., Yahr, M.D., The pattern mamoto, K., Event-related potentials in the dorsal electroretinogram in Parkinson’s disease reveals lack hippocampus of rats during an auditory discrimination of retinal spatial tuning (100) 1 paradigm (100) 563 Takada, T., Denda, S., Baba, H., Fujioka, H., Yamakura, Shindo, K., see Kanda, M. (100) 105 T., Fujihara, H., Taga, K., Fukuda, S., Shimoji, K., Shinozaki, T., see Shinba, T. (100) 563 Somatosensory evoked potentials recorded from the Shucard, D.W., see Specht, C.M. (100) 462 posterior pharynx to stimulation of the median nerve Shucard, D.W., Specht, C.M., Fast habituation of the and cauda equina (100) 493 long-latency auditory evoked potential in the awake Takase, M., see Ishikawa, M. (100) 261 albino rat (100) 78 Taylor, M.J., Boor, R., Ekert, P.G., Preterm maturation of Siedenberg, R., Treede, R.-D., Laser-evoked potentials: the somatosensory evoked potential (100) 448 exogenous and endogenous components (100) 240 Tecchio, F., see Rossini, P.M. (100) 229 Skrandies, W., see Hoffmann, K. (100) 569 Thakor, N.V., see Braun, J.C. (100) 310 Smout, AJ.P.M., see Franssen, H. (100) 85 Thomas, A., see Onofrj, M. (100) 275 Sohmer, H., see Freeman, S. (100) 362 Tinazzi, M., Zanette, G., Fiaschi, A., Mauguiére, F., Ef- Sohmer, H., see Rodionov, V. (100) 354 fect of stimulus rate on the cortical posterior tibial Sonoo, M., Hagiwara, H., Motoyoshi, Y., Shimizu, T., nerve SEPs: a topographic study (100) 210 Preserved widespread N18 and progressive loss of Tobimatsu, S., Kato, M., The effect of binocular stimula- P13/14 of median nerve SEPs in a patient with unilat- tion eral medial medullary syndrome (100) 488 on each component of transient and steady-state VEPs Sonoo, M., Kobayashi, M., Genba-Shimizu, K., Mannen, (100) 177 T., Shimizu, T., Detailed analysis of the latencies of Tobimatsu, S., Tomoda, H., Kato, M., Normal variability median nerve somatosensory evoked potential com- of the amplitude and phase of steady-state VEPs (100) ponents 1: selection of the best standard parameters 171 and the establishment of normal values (100) 319 Tobita, T., see Tomita, M. (100) 68 Soustiel, J.F., Chistyakov, A.V., Hafner, H., Youssim, E., Tomita, M., Shimoji, K., Denda, S., Tobita, T., Uchi- Feinsod, M., Intracranial recording from the brain- yama, S., Baba, H., Spinal tracts producing slow com- stem and the trigeminal nerve following upper lip ponents of spinal cord potentials evoked by descend- stimulation (100) 51 ing volleys in man (100) 68 Soustiel, J.F., Hafner, H., Chistyakov, A.V., Yarnitzky, Tomoda, H., see Tobimatsu, S. (100) 171 D., Sharf, B., Guilburd, J.N., Feinsod, M., Brain-stem Tonali, P., see Restuccia, D. (100) 184 trigeminal and auditory evoked potentials in multiple Tonnquist-Uhlén, I., Borg, E., Persson, H.E., Spens, sclerosis: physiological insights (100) 152 K.E., Topography of auditory evoked cortical poten- Specht, C.M., see Shucard, D.W. (100) 78 tials in children with severe language impairment: the Specht, C.M., Shucard, D.W., Single-trial latency vari- N1 component (100) 250 ability does not contribute to fast habituation of the Torrioli, M.G., see Restuccia, D. (100) 184 long- Toya, S., see Ishikawa, M. (100) 261 latency averaged auditory evoked potential in the al- Treede, R.-D., see Siedenberg, R. (100) 240 bino rat (100) 462 Truy, E., see Hervé, T. (100) 472 Spencer, D.D., see Allison, T. (100) 126 Spens, K.E., see Tonnquist-Uhlén, I. (100) 250 Uchiyama, S., see Tomita, M. (100) 68 Spileers, W., Mangelschots, E., Maes, H., Orban, G.A., Ueno, T., see Matsuoka, H. (100) 18 Visual evoked potentials elicited by a moving unidi- Ugawa, Y., Genba-Shimizu, K., Kanazawa, I., Somato- mensional noise pattern (100) 287 sensory evoked potential recovery (SEP-R) in various Sprecher, E., see Zaslansky, R. (100) 384 neurological disorders (100) 62 Srebro, R., A bootstrap method to compare the shapes of two scalp fields (100) 25 Valeriani, M., Rambaud, L., Mauguiére, F., Scalp topog- Stecker, M.M., Patterson, T., Strategies for minimizing raphy and dipolar source modelling of potentials 60 Hz pickup during evoked potential recording (100) evoked by CO, laser stimulation of the hand (100) 370 343 Strobel, J., see Hoffmann, K. (100) 569 Valeriani, M., see Restuccia, D. (100) 184 Sugita, M., see Tachibana, H. (100) 299 Versino, M., see Romani, A. (100) 204 Szczepaniak, W.S., Mgller, A.R., Evidence of neuronal Virtanen, J., see Wikstrém, H. (100) 479 plasticity within the inferior colliculus after noise ex- Vural, O., see Ozkardes, A. (100) 500 posure: a study of evoked potentials in the rat (100) 158 Waberski, T.D., see Buchner, H. (100) 332 Wagner, M., see Buchner, H. (100) 332 Tachibana, H., Aragane, K., Sugita, M., Age-related Waring, M.D., Properties of auditory brainstem responses changes in event-related potentials in visual discrimi- evoked by intra-operative electrical stimulation of the nation tasks (100) 299 cochlear nucleus in human subjects (100) 538 Taga, K., see Takada, T. (100) 493 Watanabe, S., see Hoshiyama, M. (100) 96 Index of Authors Volume 100 (1996) Weusten, B.L.A.M., see Franssen, H. (100) 85 Yardim, M., see Ozkardes, A. (100) 500 Wieneke, G.H., see Franssen, H. (100) 85 Yarnitsky, D., see Zaslansky, R. (100) 384 Wikstr6ém, H., Huttunen, J., Korvenoja, A., Virtanen, J., Yarnitzky, D., see Soustiel, J.F. (100) 152 Salonen, O., Aronen, H., Ilmoniemi, R.J., Effects of Yeh, M., see Yamada, T. (100) 33 interstimulus interval on somatosensory evoked mag- Yingling, C.D., see Noss, R.S. (100) 453 netic fields (SEFs): a hypothesis concerning SEF gen- Yoshimoto, T., see Kawamura, T. (100) 44 eration at the primary sensorimotor cortex (100) 479 Yoshimoto, T., see Seki, K. (100) 436 Wischmann, H.-A., see Buchner, H. (100) 332 Yoshimura, N., see Honda, M. (100) 407 Witte, H., see Hoffmann, K. (100) 569 Youssim, E., see Soustiel, J.F. (100) 51 Xu, X., see Kanda, M. (100) 105 Zanette, G., see Tinazzi, M. (100) 210 Zappia, M., Cheek, J.C., Liiders, H., Brain-stem auditory Yahr, M.D., see M. Tagliati (100) | evoked potentials (BAEPs) from basal surface of tem- Yamada, T., Matsubara, M., Shinaishi, G., Yeh, M., Ka- poral lobe recorded from chronic subdural electrodes wasaki, M., Topographic analyses of somatosensory (100) 141 evoked potentials following stimulation of tibial sural Zaslansky, R., Sprecher, E., Katz, Y., Rozenberg, B., and lateral femoral cutaneous nerves (100) 33 Hemli, J.A., Yarnitsky, D., Pain-evoked potentials: Yamaguchi, N., see Ishikawa, M. (100) 261 what do they really measure? (100) 384 Yamakura, T., see Takada, T. (100) 493 Zilioli, A., see Romani, A. (100) 204 Yamamoto, K., see Shinba, T. (100) 563 Electroencephalography and clinical Neurophysiology 100 (1996) 590-597 Index of Subjects VOLUME 100 (1996) (Abstracts from Society Proceedings are not included) 60 Hz noise; Operating room; Mu metal; Magnetic shielding; Audition; Evoked response; Magnetoencephalography; Sensory Flux; Evoked potentials; Interference (100) 370 memory; Temporal integration (100) 220 Acute hypothyroidism; Somatosensory evoked potentials (100) Auditory brainstem implant; Auditory brainstem response; 500 Electrically evoked auditory brainstem response; Cochlear nucleus; Electrical stimulation (100) 538 Aging; Event-related potentials (ERP); NA; N2; P3; Reaction time (100) 299 Auditory brainstem response; Electrically evoked auditory brainstem response; Auditory brainstem implant; Cochlear Aging; Event-related potentials; Alzheimer’s disease; Semantic nucleus; Electrical stimulation (100) 538 priming (100) 392 Auditory cortex; Auditory evoked potentials; Cat; Tone in- Air-puff finger stimulation; Somatosensory evoked fields; tensity; Augmenting/reducing (100) 527 Somatosensory evoked potentials; Electrical hand stimula- tion (100) 229 Auditory evoked potential (AEP); Vertex potential; Event- related potential; N1; P2 (100) 78 Alzheimer’s disease; Event-related potentials; Aging; Semantic priming (100) 392 Auditory evoked potential; Brain map; Topography; Child; Language impairment; Auditory perceptual disorders (100) Amplitude modulation; Somatosensory evoked potentials; 250 Intraoperative monitoring; Median nerve _ stimulation; Fourier analysis (100) 453 Auditory evoked potential; Vertex potential; Event-related potential; N1; P2; Attention (100) 462 Amplitude; Steady-state VEPs; Variability; Phase; Spatio- temporal frequencies (100) 171 Auditory evoked potentials; Cat; Auditory cortex; Tone in- tensity; Augmenting/reducing (100) 527 Amygdala; Laser evoked potentials; Brain electrical source analysis; Pain; Second somatosensory area; Anterior cingu- Auditory evoked potentials; Inferior colliculus; Noise expo- late gyrus (100) 343 sure; Plasticity (100) 158 Anaesthesia; Visual evoked potentials; Isoflurane; EEG; Burst Auditory function; Mismatch negativity (MMN); Sensory suppression (100) 269 memory; Event-related potentials; N1; Test-retest replicabil- ity (100) 549 Anterior cingulate gyrus; Laser evoked potentials; Brain elec- trical source analysis; Pain; Second somatosensory area; Auditory information processing; Middle latency auditory Amygdala (100) 343 evoked potential; P50; Reaction time (100) 74 Attention; [Event-related potentials; Mismatch negativity; Auditory oddball paradigm; Event-related potentials; Dorsal Auditory sensory memory; Change detection (100) 517 hippocampus; Rat (100) 563 Attention; Painful heat stimuli; Laser; Cognitive cortical po- Auditory perceptual disorders; Auditory evoked potential; tentials; P3; Exogenous component; Endogenous component Brain map; Topography; Child; Language impairment (100) (100) 240 250 Attention; Somatosensory evoked potentials; Somatosensory Auditory sensory memory; Event-related potentials; Mismatch N250; Stimulus deviance; Deviance probability (100) 115 negativity; Change detection; Attention (100) 517 Attention; Vertex potential; Event-related potential; Auditory Auditory stimulus; P300; Event-related potential (ERP); Prob- evoked potential; N1; P2 (100) 462 ability (100) 555 Audition; Binaural interaction; Binaural hearing (100) 505 Auditory; P300; ERP: Stimulus intensity; Visual (100) 579 Index of Subjects Volume 100 (1996) 591 Augmenting/reducing; Auditory evoked potentials; Cat; Cingulate gyrus; Source modeling; Dipoles; Esophageal Auditory cortex; Tone intensity (100) 527 evoked potential; Insula; Thalamus (100) 85 BAEP generators; Brain-stem auditory evoked potentials CO, laser stimulation; Pain SEP; Oddball paradigm; Event- (BAEPs); Subdural electrodes; Far-field potentials (100) 141 related potential; Pain-related component; Cognitive; Scalp topography (100) 105 BenzodiazepinesPain evoked potentials; Pain; P300; CO, laser (100) 384 CO, laser; Pain evoked potentials; Pain; P300; Benzodi- azepines (100) 384 Binaural hearing; Binaural interaction; Audition (100) 505 Binaural interaction; Binaural hearing; Audition (100) 505 Cochlear implant; Electrical auditory potentials; Profound deafness; Electrical stimulus (100) 472 Binocular interaction; Visual evoked potentials (VEPs); Bin- Cochlear nucleus; Auditory brainstem response; Electrically ocular interaction; N70; P100; Second and fourth harmonics (100) 177 evoked auditory brainstem response; Auditory brainstem implant; Electrical stimulation (100) 538 Bootstrap resampling; Evoked potential scalp fields; Visually evoked potential; Hemisphere lateralization (100) 25 Cognitive cortical potentials; Painful heat stimuli; Laser; P3; Attention; Exogenous component; Endogenous component Brain electrical source analysis; Laser evoked potentials; Pain; (100) 240 Second somatosensory area; Anterior cingulate gyrus; Amygdala (100) 343 Cognitive; CO, laser stimulation; Pain SEP; Oddball paradigm; Event-related potential; Pain-related component; Scalp to- Brain map; Auditory evoked potential; Topography; Child; pography (100) 105 Language impairment; Auditory perceptual disorders (100) 250 Color contrast; Cardinal chromatic axis; Parallel pathways; Psychophysics; Visual evoked cortical potential (100) 12 Brain-stem auditory evoked potentials (BAEPs); Subdural electrodes; Far-field potentials; BAEP generators (100) 141 Color vision; Chromatic visual evoked potentials; Parkinson's disease (100) 443 Brain-stem auditory evoked potentials; Multiple sclerosis; Brain-stem trigeminal evoked potential; Trigeminal neural- Contingent negative variation; Event-related potentials; Late gia; MRI (100) 152 positivity; Paired association memory task; Working mem- ory (100) 407 Brain-stem evoked potentials; Intracranial recording; Trigemi- nal evoked potentials; Upper lip stimulation (100) 51 Cuneate nucleus; Somatosensory evoked potential; Median nerve; Widespread N18; P13/14; Medial medullary syn- Brain-stem trigeminal evoked potential; Multiple sclerosis; drome (100) 488 Brain-stem auditory evoked potentials; Trigeminal neuralgia; MRI (100) 152 Descending volley; Spinal cord potentials; Slow component (100) 68 Burst suppression; Visual evoked potentials; Anaesthesia; Isoflurane; EEG (100) 269 Deviance probability; Somatosensory evoked potentials; So- matosensory N250; Attention; Stimulus deviance (100) 115 Calibration; Electroretinographic (ERG) simulator; Photometer (100) 273 Diabetes mellitus; Cerebral potentials; Vesico-urethral junction (100) 55 Cardinal chromatic axis; Color contrast; Parallel pathways; Psychophysics; Visual evoked cortical potential (100) 12 Dipole model; Functional anatomy; Somatosensory cortex; Somatosensory evoked response; Whoie-head magnetome- Cat; Auditory evoked potentials; Auditory cortex; Tone inten- try; Magnetic resonance (100) 44 sity; Augmenting/reducing (100) 527 Dipole model; Magnetoencephalography; Visual evoked re- Central conduction time; Somatosensory evoked potential; sponse; Pattern reversal stimuli; Striate cortex; Functional Median nerve; Recommended standard (100) 319 anatomy (100) 436 Cerebral potentials; Diabetes mellitus; Vesico-urethral junc- Dipole modelling; Pattern-reversal visual evoked potential; tion (100) 55 Topographical mapping; Hilbert transformation; Instantane- Change detection; Event-related potentials; Mismatch negativ- ous frequency; Potential distribution (100) 569 ity; Auditory sensory memory; Attention (100) 517 Dipoles; Source modeling; Esophageal evoked potential; Insula; Child; Auditory evoked potential; Brain map; Topography; Thalamus; Cingulate gyrus (100) 85 Language impairment; Auditory perceptual disorders (100) Dorsal hippocampus; Event-related potentials; Rat; Auditory 250 oddball paradigm (100) 563 Children; Electroretinogram; Maturation; Retina (100) 422 Double stimulation; Somatosensory evoked potential (SEP); Chromatic visual evoked potentials; Color vision; Parkinson’s Sensory cortex; Myoclonus; Involuntary movements; Sub- disease (100) 443 cortical lesion (100) 62 592 Index of Subjects Volume 100 (1996) EEG; Fibromyalgia syndrome; Pain measurement; Laser Event-related potentials; Contingent negative variation; Late evoked potentials (100) 165 positivity; Paired association memory task; Working mem- ory (100) 407 EEG; Visual evoked potentials; Anaesthesia; Isoflurane; Burst suppression (100) 269 Event-related potentials; Dorsal hippocampus; Rat; Auditory oddball paradigm (100) 563 Electrical auditory potentials; Cochlear implant; Profound deafness; Electrical stimulus (100) 472 Event-related potentials; Mismatch negativity (MMN); Sen- sory memory; N1; Auditory function; Test-retest replicabil- Electrical hand stimulation; Somatosensory evoked fields; ity (100) 549 Somatosensory evoked potentials; Air-puff finger stimula- tion (100) 229 Event-related potentials; Mismatch negativity; Auditory sen- sory memory; Change detection; Attention (100) 517 Electrical stimulation; Auditory brainstem response; Electri- Evoked potential scalp fields; Bootstrap resampling; Visually cally evoked auditory brainstem response; Auditory brain- stem implant; Cochlear nucleus (100) 538 evoked potential; Hemisphere lateralization (100) 25 Evoked potentials; 60 Hz noise; Operating room; Mu metal; Electrical stimulus; Cochlear implant; Electrical auditory po- Magnetic shielding; Flux; Interference (100) 370 tentials; Profound deafness (100) 472 Evoked potentials; Forepaw; Vibrissae; Rat; Somatosensory; Electrically evoked auditory brainstem response, Auditory Sensory cortex (100) 362 brainstem response; Auditory brainstem implant; Cochlear nucleus; Electrical stimulation (100) 538 Evoked potentials; Vestibular; Middle latency; Saccade; Eye movement; Electro-oculogram (100) 354 Electro-oculogram; Vestibular; Evoked potentials; Middle latency; Saccade; Eye movement (100) 354 Evoked response; Audition; Magnetoencephalography; Sen- sory memory; Temporal integration (100) 220 Electroretinogram; Children; Maturation; Retina (100) 422 Exogenous component; Painful heat stimuli; Laser; Cognitive Electroretinographic (ERG) simulator; Calibration; Photome- cortical potentials; P3; Attention; Endogenous component ter (100) 273 (100) 240 Endogenous component; Painful heat stimuli; Laser; Cognitive Eye movement; Vestibular; Evoked potentials; Middle latency; cortical potentials; P3; Attention; Exogenous component Saccade; Electro-oculogram (100) 354 (100) 240 Far-field potentials; Brain-stem auditory evoked potentials Endogenous negativity; Event-related potential; NA; N2; (BAEPs); Subdural electrodes: BAEP generators (100) 141 Schizophrenia; Vulnerability (100) 18 Far-field potentials; Somatosensory evoked potentials; Epidural space; Somatosensory evoked potential; Posterior Hemipherectomy (100) 184 pharynx; Segmental spinal cord potential; General anesthesia Fibromyalgia syndrome; Pain measurement; EEG; Laser (100) 493 evoked potentials (100) 165 ERP; P300; Stimulus intensity; Auditory; Visual (100) 579 Flux; 60 Hz noise; Operating room; Mu metal; Magnetic Esophageal evoked potential; Source modeling; Dipoles; In- shielding; Evoked potentials; Interference (100) 370 sula; Thalamus; Cingulate gyrus (100) 85 Forepaw; Vibrissae; Rat; Somatosensory; Evoked potentials; Event-related potential (ERP); P300; Auditory stimulus; Sensory cortex (100) 362 Probability (100) 555 Fourier analysis: Somatosensory evoked potentials; Intraop- Event-related potential; CO, laser stimulation; Pain SEP; erative monitoring; Amplitude modulation; Median nerve Oddball paradigm; Pain-related component; Cognitive; Scalp stimulation (100) 453 topography (100) 105 Functional anatomy; Magnetoencephalography; Visual evoked Event-related potential; Endogenous negativity; NA: N2; response; Pattern reversal stimuli: Striate cortex; Dipole Schizophrenia; Vulnerability (100) 18 model (100) 436 Event-related potential; Vertex potential; Auditory evoked Functional anatomy; Somatosensory cortex; Somatosensory potential (AEP); N1; P2 (100) 78 evoked response; Dipole model; Whole-head magnetometry; Magnetic resonance (100) 44 Event-related potential; Vertex potential: Auditory evoked potential; N1:; P2; Attention (100) 462 GABAergic inhibitory interneurons; Somatosensory cortex; High-frequency magnetic oscillations; Primary response Event-related potentials (ERP); NA; N2; P3; Reaction time; (N20m); Pyramidal neurons; Wake-sleep cycle (100) 189 Aging (100) 299 General anesthesia; Somatosensory evoked potential; Posterior Event-related potentials; Aging; Alzheimer’s disease; Seman- pharynx; Epidural space; Segmental spinal cord potential tic priming (100) 392 (100) 493 Index of Subjects Volume 100 (1996) 593 Hemipherectomy; Somatosensory evoked potentials; Far-field Magnetic resonance imaging; Visual evoked potentials; Optic potentials (100) 184 neuritis; Multiple sclerosis (100) 275 Hemisphere lateralization; Bootstrap resampling; Evoked Magnetic resonance; Functional anatomy; Somatosensory potential scalp fields; Visually evoked potential (100) 25 cortex; Somatosensory evoked response; Dipole model; Whole-head magnetometry (100) 44 High-frequency magnetic oscillations; Somatosensory cortex; Primary response (N20m); GABAergic inhibitory interneu- Magnetic shielding; 60 Hz noise; Operating room; Mu metal; rons; Pyramidal neurons; Wake-sleep cycle (100) 189 Flux; Evoked potentials; Interference (100) 370 Hilbert transformation; Pattern-reversal visual evoked poten- Mag + Pph eal graphy; Audition; Evoked response; Sen- tial; Topographical mapping; Instantaneous frequency; Po- sory memory; Temporal integration (100) 220 tential distribution; Dipole modelling (100) 569 Magnetoencephalography; Interstimulus interval; Somatosen- Hypothermia; Threshold; Spinal cord compression (100) 261 sory cortex; Neural inhibition (100) 479 Inferior colliculus; Auditory evoked potentials; Noise expo- Magnetoencephalography; Somatosensory evoked magnetic sure; Plasticity (100) 158 fields; SQUID; Lip; Sensory cortex (100) 96 Instantaneous frequency; Pattern-reversal visual evoked po- Magnetoencephalography; Visual evoked response; Pattern tential; Topographical mapping; Hilbert transformation; Po- reversal stimuli; Striate cortex; Dipole model; Functional tential distribution; Dipole modelling (100) 569 anatomy (100) 436 Insula; Source modeling; Dipoles; Esophageal evoked poten- Mapping; Tibial nerve SEPs; Somatosensory evoked potentials tial; Thalamus; Cingulate gyrus (100) 85 (SEPs) (100) 210 Interference; 60 Hz noise; Operating room; Mu metal; Mag- Maturation; Electroretinogram; Children; Retina (100) 422 netic shielding; Flux; Evoked potentials (100) 370 Maturation; Somatosensory evoked potential; Preterm (100) 448 Interstimulus interval; Magnetoencephalography; Somatosen- sory cortex; Neural inhibition (100) 479 Medial medullary syndrome; Somatosensory evoked poten- tial; Median nerve; Widespread N18; P13/14; Cuneate nu- Intracranial recording; Brain-stem evoked potentials; Tri- cleus (100) 488 geminal evoked potentials; Upper lip stimulation (100) 51 Median nerve stimulation; Somatosensory evoked potentials; Intraoperative monitoring; Somatosensory evoked potentials; Intraoperative monitoring; Amplitude modulation; Fourier Amplitude modulation; Median nerve stimulation; Fourier analysis (100) 453 analysis (100) 453 Median nerve; Somatosensory evoked potential; Recom- Involuntary movements; Somatosensory evoked potential mended standard; Central conduction time (100) 319 (SEP); Sensory cortex; Double stimulation; Myoclonus; Subcortical lesion (100) 62 Median nerve; Somatosensory evoked potential; Widespread N18; P13/14; Medial medullary syndrome; Cuneate nucleus Isoflurane; Visual evoked potentials; Anaesthesia; EEG; Burst (100) 488 suppression (100) 269 Middle latency auditory evoked potential; Auditory informa- Language impairment; Auditory evoked potential; Brain map; tion processing; P50; Reaction time (100) 74 Topography; Child; Auditory perceptual disorders (100) 250 Middle latency; Vestibular; Evoked potentials; Saccade; Eye Laser evoked potentials; Brain electrical source analysis; Pain; movement; Electro-oculogram (100) 354 Second somatosensory area; Anterior cingulate gyrus; Amygdala (100) 343 Mismatch negativity (MMN); Sensory memory; Event-related potentials; N1; Auditory function; Test-retest replicability Laser evoked potentials; Fibromyalgia syndrome; Pain meas- (100) 549 urement; EEG (100) 165 Mismatch negativity; Event-related potentials; Auditory sen- Laser; Painful heat stimuli; Cognitive cortical potentials; P3; sory memory; Change detection; Attention (100) 517 Attention; Exogenous component; Endogenous component Motion; Visual evoked potentials; Noise pattern (100) 287 (100) 240 Motor cortex; Readiness potential; Somatosensory cortex; So- Late positivity; Event-related potentials; Contingent negative matosensory evoked potentials; Supplementary motor area; variation; Paired association memory task; Working memory Supplementary sensory (100) 126 (100) 407 Motor evoked potentials; Transcranial cortical stimulation; Lateral femoral cutaneous nerve; Somatosensory evoked Peroperative monitoring; Spinal surgery; Propofol anaesthe- potentials; Topographic mapping; Tibial nerve; Sural nerve; sia (100) 375 Paradoxical lateralization (100) 33 MRI; Multiple sclerosis; Brain-stem auditory evoked potentials; Lip; Somatosensory evoked magnetic fields; Magnetoencepha- Brain-stem trigeminal evoked potential; Trigeminal neural- lography; SQUID; Sensory cortex (100) 96 gia (100) 152 594 Index of Subjects Volume 100 (1996) Mu metal; 60 Hz noise; Operating room; Magnetic shielding; P2; Vertex potential; Event-related potential; Auditory evoked Flux; Evoked potentials; Interference (100) 370 potential (AEP); N1 (100) 78 Multiple sclerosis; Brain-stem auditory evoked potentials; P2; Vertex potential; Event-related potential; Auditory evoked Brain-stem trigeminal evoked potential; Trigeminal neural- potential; N1; Attention (100) 462 gia; MRI (100) 152 P3; Event-related potentials (ERP); NA; N2; Reaction time; Multiple sclerosis; Magnetic resonance imaging; Visual evoked Aging (100) 299 potentials; Optic neuritis (100) 275 P3; Painful heat stimuli; Laser; Cognitive cortical potentials; Myoclonus; Somatosensory evoked potential (SEP); Sensory Attention; Exogenous component; Endogenous component cortex; Double stimulation; Involuntary movements; Sub- (100) 240 cortical lesion (100) 62 P300; ERP; Stimulus intensity; Auditory; Visual (100) 579 N1; Mismatch negativity (MMN); Sensory memory; Event- P300; Event-related potential (ERP); Auditory stimulus; Prob- related potentials; Auditory function; Test-retest replicability ability (100) 555 (100) 549 P300; Pain evoked potentials; Pain; CO, laser; Benzodiazepines N1; Vertex potential; Event-related potential; Auditory evoked (100) 384 potential (AEP); P2 (100) 78 P50; Auditory information processing; Middle latency auditory N1; Vertex potential; Event-related potential; Auditory evoked evoked potential; Reaction time (100) 74 potential; P2; Attention (100) 462 Pain evoked potentials; Pain; P300; CO, laser; Benzodi- N2; Event-related potential; Endogenous negativity; NA; azepines (100) 384 Schizophrenia; Vulnerability (100) 18 Pain measurement; Fibromyalgia syndrome; EEG; Laser N2; Event-related potentials (ERP); NA; P3; Reaction time; evoked potentials (100) 165 Aging (100) 299 Pain SEP; CO, laser stimulation; Oddball paradigm; Event- related potential; Pain-related component; Cognitive; Scalp N70; Visual evoked potentials (VEPs); Binocular interaction; topography (100) 105 P100; Second and fourth harmonics (100) 177 Pain-related component; CO, laser stimulation; Pain SEP; NA; Event-related potential; Endogenous negativity; N2; Oddball paradigm; Event-related potential; Cognitive; Scalp Schizophrenia; Vulnerability (100) 18 topography (100) 105 NA; Event-related potentials (ERP); N2; P3; Reaction time; Pain; Laser evoked potentials; Brain electrical source analysis; Aging (100) 299 Second somatosensory area; Anterior cingulate gyrus; Neural inhibition; Magnetoencephalography; Interstimulus Amygdala (100) 343 interval; Somatosensory cortex (100) 479 Pain; Pain evoked potentials; P300; CO, laser; Benzodiazepines Neurological injury; Time-frequency analysis; Somatosensory (100) 384 evoked potential (100) 310 Painful heat stimuli; Laser; Cognitive cortical potentials; P3; Noise exposure; Inferior colliculus; Auditory evoked potentials; Attention; Exogenous component; Endogenous component Plasticity (100) 158 (100) 240 Noise pattern; Motion; Visual evoked potentials (100) 287 Paired association memory task; Event-related potentials; Contingent negative variation; Late positivity; Working Oddball paradigm; CO, laser stimulation; Pain SEP; Event- memory (100) 407 related potential; Pain-related component; Cognitive; Scalp Paradoxical lateralization; Somatosensory evoked potentials; topography (100) 105 Topographic mapping; Tibial nerve; Sural nerve; Lateral Operating room; 60 Hz noise; Mu metal; Magnetic shielding; femoral cutaneous nerve (100) 33 Flux; Evoked potentials; Interference (100) 370 Parallel pathways; Cardinal chromatic axis; Color contrast; Optic neuritis; Magnetic resonance imaging; Visual evoked Psychophysics; Visual evoked cortical potential (100) 12 potentials; Multiple sclerosis (100) 275 Parkinson’s disease; Chromatic visual evoked potentials; Color Optic neuritis; Pattern electroretinogram; Visual evoked po- vision (100) 443 tentials; Temporal frequency; Steady-state analysis (100) Parkinson’s disease; Pattern electroretinogram; Spatio- 428 temporal visual abnormality; Retinal spatial tuning (100) | P100; Visual evoked potentials (VEPs); Binocular interaction; Pattern electroretinogram; Parkinson’s disease; Spatio- N70; Second and fourth harmonics (100) 177 temporal visual abnormality; Retinal spatial tuning (100) 1 P13/14; Somatosensory evoked potential; Median nerve; Wide- Pattern electroretinogram; Visual evoked potentials; Optic spread N18; Medial medullary syndrome; Cuneate nucleus neuritis; Temporal frequency; Steady-state analysis (100) (100) 488 428

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