Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/sensory-gating-in-the-human-hippocampal-and-rhinal-regions-regional-xhjtAVU0Lp
References (35)
-
B. Clementz, L. Blumenfeld (2001)
Multichannel electroencephalographic assessment of auditory evoked response suppression in schizophreniaExperimental Brain Research, 139
-
Boutros Boutros, Bonnet Bonnet, Milana Milana, Liu Liu (1997)
A parametric study of the N40 evoked potential in ratsBiol Psychiatry, 42
-
C. Maxwell, Yuling Liang, Bryanne Weightman, S. Kanes, T. Abel, R. Gur, B. Turetsky, W. Bilker, R. Lenox, S. Siegel (2004)
Effects of Chronic Olanzapine and Haloperidol Differ on the Mouse N1 Auditory Evoked PotentialNeuropsychopharmacology, 29
-
K. Moxon, G. Gerhardt, P. Bickford, K. Austin, G. Rose, D. Woodward, L. Adler (1999)
Multiple single units and population responses during inhibitory gating of hippocampal auditory response in freely-moving ratsBrain Research, 825
-
N. Boutros, P. Trautner, T. Rosburg, O. Korzyukov, T. Grunwald, C. Schaller, C. Elger, M. Kurthen (2005)
Sensory gating in the human hippocampal and rhinal regionsClinical Neurophysiology, 116
-
E. Ludowig, P. Trautner, M. Kurthen, C. Schaller, C. Bien, C. Elger, T. Rosburg (2008)
Intracranially Recorded Memory-related Potentials Reveal Higher Posterior than Anterior Hippocampal Involvement in Verbal Encoding and RetrievalJournal of Cognitive Neuroscience, 20
-
R. Knight, S. Hillyard, D. Woods, H. Neville (1980)
The effects of frontal and temporal-parietal lesions on the auditory evoked potential in man.Electroencephalography and clinical neurophysiology, 50 1-2
-
P. Connolly, C. Maxwell, Yuling Liang, J. Kahn, S. Kanes, T. Abel, R. Gur, B. Turetsky, S. Siegel (2004)
The Effects of Ketamine Vary Among Inbred Mouse Strains and Mimic Schizophrenia for the P80, but not P20 or N40 Auditory ERP ComponentsNeurochemical Research, 29
-
Christine Miller, Robert Freedman, Robert Freedman (1995)
The activity of hippocampal interneurons and pyramidal cells during the response of the hippocampus to repeated auditory stimuliNeuroscience, 69
-
depth and from the cortical surface of the brain in man -
M. Klee, W. Rall (1977)
Computed potentials of cortically arranged populations of neurons.Journal of neurophysiology, 40 3
-
G. Zouridakis, N. Boutros (1992)
Stimulus parameter effects on the P50 evoked responseBiological Psychiatry, 32
-
N. Boutros, K. Bonnet, Ronel Millana, Jennifer Liu (1997)
A Parametric Study of the N40 Auditory Evoked Response in RatsBiological Psychiatry, 42
-
R. Vertes, B. Kocsis (1997)
Brainstem-diencephalo-septohippocampal systems controlling the theta rhythm of the hippocampus.Neuroscience, 81 4
-
B. Jansen, G. Agarwal, A. Hegde, N. Boutros (2003)
Phase synchronization of the ongoing EEG and auditory EP generationClinical Neurophysiology, 114
-
T. Grunwald, N. Boutros, N. Pezer, J. Oertzen, G. Fernández, C. Schaller, C. Elger (2003)
Neuronal substrates of sensory gating within the human brainBiological Psychiatry, 53
-
P. Venables (1964)
INPUT DYSFUNCTION IN SCHIZOPHRENIA.Progress in experimental personality research, 72
-
N. Canteras, L. Swanson (1992)
Projections of the ventral subiculum to the amygdala, septum, and hypothalamus: A PHAL anterograde tract‐tracing study in the ratJournal of Comparative Neurology, 324
-
L. Swanson, W. Cowan (1977)
An autoradiographic study of the organization of the efferet connections of the hippocampal formation in the ratJournal of Comparative Neurology, 172
-
M. Moser, E. Moser (1998)
Functional differentiation in the hippocampusHippocampus, 8
-
N.M.W.J Bruin, B. Ellenbroek, W. Schaijk, A. Cools, A. Coenen, E. Luijtelaar (2001)
Sensory gating of auditory evoked potentials in rats: effects of repetitive stimulation and the interstimulus intervalBiological Psychology, 55
-
G. Fernández, H. Weyerts, Michael Schrader-Bölsche, I. Tendolkar, H. Smid, C. Tempelmann, H. Hinrichs, H. Scheich, C. Elger, G. Mangun, H. Heinze (1998)
Successful Verbal Encoding into Episodic Memory Engages the Posterior Hippocampus: A Parametrically Analyzed Functional Magnetic Resonance Imaging StudyThe Journal of Neuroscience, 18
-
Dirk Roost, Laszlo Solymosi, Johannes Schramm, Birgitt Oosterwyck, Christian Eiger (1998)
Depth electrode implantation in the length axis of the hippocampus for the presurgical evaluation of medial temporal lobe epilepsy: a computed tomography-based stereotactic insertion technique and its accuracy.Neurosurgery, 43 4
-
T. Rosburg, P. Trautner, E. Ludowig, C. Schaller, M. Kurthen, C. Elger, N. Boutros (2007)
Hippocampal event-related potentials to tone duration deviance in a passive oddball paradigm in humansNeuroImage, 37
-
B. Clementz, L. Blumenfeld, Steven Cobb (1997)
The gamma band response may account for poor P50 suppression in schizophreniaNeuroReport, 8
-
C. Shagass, R. Roemer, J. Straumanis, M. Amadeo (1980)
Topography of sensory evoked potentials in depressive disorders.Biological psychiatry, 15 2
-
C. Liégeois-Chauvel, A. Trébuchon-Dafonseca, J. Régis, P. Marquis, P. Chauvel (2003)
Auditory evoked potentials in the definition of eloquent cortical areas, 3
-
R. Mears, A. Klein, H. Cromwell (2006)
Auditory inhibitory gating in medial prefrontal cortex: Single unit and local field potential analysisNeuroscience, 141
-
J. Phillips, R. Ehrlichman, Steven Siegel (2007)
Mecamylamine blocks nicotine-induced enhancement of the P20 auditory event–related potential and evoked gammaNeuroscience, 144
-
R. Freedman, M. Waldo, P. Bickford-Wimer, H. Nagamoto (1991)
Elementary neuronal dysfunctions in schizophreniaSchizophrenia Research, 4
-
S. Siegel, C. Maxwell, S. Majumdar, D. Trief, Caryn Lerman, R. Gur, Stephen Kanes, Yuling Liang (2005)
Monoamine reuptake inhibition and nicotine receptor antagonism reduce amplitude and gating of auditory evoked potentialsNeuroscience, 133
-
(1980)
Neural origins of long latency evoked potentials recorded from the -
N. Boutros, A. Belger (1999)
Midlatency evoked potentials attenuation and augmentation reflect different aspects of sensory gatingBiological Psychiatry, 45
-
(2007)
The role of the hippocampus in the generation of the mismatch negativity (MMN) -
P. Bickford-Wimer, H. Nagamoto, Robert Johnson, L. Adler, M. Egan, G. Rose, R. Freedman (1990)
Auditory sensory gating in hippocampal neurons: A model system in the ratBiological Psychiatry, 27
- Publisher
- Wiley
- Copyright
- Copyright © 2007 Wiley‐Liss, Inc.
- ISSN
- 1050-9631
- eISSN
- 1098-1063
- DOI
- 10.1002/hipo.20388
- pmid
- 18064708
- Publisher site
- See Article on Publisher Site
Abstract
To further explore the roles of medial temporal structures in mediating sensory gating of incoming irrelevant or redundant auditory input, twenty‐seven patients with intractable epilepsy with depth electrodes implanted in the medial temporal lobe for presurgery evaluation underwent evoked response recording to auditory paired‐stimuli (S1–S2). Seventeen subjects were diagnosed with left medial temporal lobe epilepsy (MTLE) and 10 with right MTLE. Only data from the nonlesion side were included. Twenty‐three records from rhinal and anterior hippocampal regions, and 21 from posterior hippocampal regions were included in the analysis. The rhinal region had two prominent components (a negativity peaking around 200 ms followed by a positivity peaking around 400 ms). Both the anterior and posterior hippocampal regions exhibited a dominant negative potential peaking around 400 ms. These components were all composed predominantly of slower frequencies. In contrast, a negativity in the posterior hippocampus at around 100 ms was composed of slow and fast frequencies. All components but the early rhinal negativity were attenuated by stimulus repetition. This is the first report documenting that different regions of the medial temporal area are differentially involved in the processing of auditory input, most likely reflecting separate steps of processing. The data support the need for further exploration of the contribution of these regions to sensory gating. This information helps to increase our understanding of this basic but important and complex function. © 2007 Wiley‐Liss, Inc.
Journal
Hippocampus – Wiley
Published: Mar 1, 2008