Access the full text.
Sign up today, get DeepDyve free for 14 days.
A. Stein, Carl Chiang, P. König (2000)
Top-down processing mediated by interareal synchronization.Proceedings of the National Academy of Sciences of the United States of America, 97 26
A. Engel, P. König, C. Gray, W. Singer (1990)
Stimulus‐Dependent Neuronal Oscillations in Cat Visual Cortex: Inter‐Columnar Interaction as Determined by Cross‐Correlation AnalysisEuropean Journal of Neuroscience, 2
C. Bernasconi, A. Stein, Carl Chiang, P. König (2000)
Bi‐directional interactions between visual areas in the awake behaving catNeuroReport, 11
J. Kaiser, M. Bühler, W. Lutzenberger (2004)
Magnetoencephalographic gamma-band responses to illusory triangles in humansNeuroImage, 23
W. Jermakowicz, V. Casagrande (2007)
Neural networks a century after CajalBrain Research Reviews, 55
C. Herrmann, M. Munk, A. Engel (2004)
Cognitive functions of gamma-band activity: memory match and utilizationTrends in Cognitive Sciences, 8
C. Tallon-Baudry, O. Bertrand, C. Delpuech, J. Pernier (1996)
Stimulus Specificity of Phase-Locked and Non-Phase-Locked 40 Hz Visual Responses in HumanThe Journal of Neuroscience, 16
D. Groggel (1972)
Practical Nonparametric StatisticsTechnometrics, 42
C. M.
The Psychology of AttentionNature, 41
W. Singer, C. Gray (1995)
Visual feature integration and the temporal correlation hypothesis.Annual review of neuroscience, 18
A. Nikolaev, S. Gepshtein, M. Kubovy, C. Leeuwen (2008)
Dissociation of early evoked cortical activity in perceptual groupingExperimental Brain Research, 186
S. Hall, I. Holliday, A. Hillebrand, Krishna Singh, P. Furlong, A. Hadjipapas, G. Barnes (2005)
The missing link: analogous human and primate cortical gamma oscillationsNeuroImage, 26
C. Tallon-Baudry, O. Bertrand, C. Delpuech, J. Pernier (1997)
Oscillatory gamma-band (30-70 Hz) activity induced by a visual search task in humans.The Journal of neuroscience : the official journal of the Society for Neuroscience, 17 2
D. Anaki, E. Zion-Golumbic, S. Bentin (2007)
Electrophysiological neural mechanisms for detection, configural analysis and recognition of facesNeuroImage, 37
G. Gratton, M. Coles, E. Donchin (1983)
A new method for off-line removal of ocular artifact.Electroencephalography and clinical neurophysiology, 55 4
S. Grice, Michael Spratling, A. Karmiloff-Smith, H. Halit, G. Csibra, M. Haan, M. Johnson (2001)
Disordered visual processing and oscillatory brain activity in autism and Williams SyndromeNeuroreport, 12
D. Senkowski, C. Herrmann (2002)
Effects of task difficulty on evoked gamma activity and ERPs in a visual discrimination taskClinical Neurophysiology, 113
Y. Tsal (2001)
Do Illusory Conjunctions Support the Feature Integration Theory ? A Critical Review of Theory and Findings
E. Rodriguez, N. George, J. Lachaux, J. Martinerie, B. Renault, F. Varela (1999)
Perception's shadow: long-distance synchronization of human brain activityNature, 397
Thomas Woelbern, R. Eckhorn, Axel Frien, R. Bauer (2002)
Perceptual grouping correlates with short synchronization in monkey prestriate cortexNeuroReport, 13
Marc Howard, D. Rizzuto, J. Caplan, J. Madsen, J. Lisman, R. Aschenbrenner-Scheibe, A. Schulze-Bonhage, M. Kahana (2003)
Gamma oscillations correlate with working memory load in humans.Cerebral cortex, 13 12
I. Bodis-Wollner, J. Davis, A. Tzelepi, T. Bezerianos (2001)
Wavelet Transform of the EEG Reveals Differences in Low and High Gamma Responses to Elementary Visual StimuliClinical EEG and Neuroscience, 32
A. Keil, Matthias Müller, W. Ray, T. Gruber, T. Elbert (1999)
Human Gamma Band Activity and Perception of a GestaltThe Journal of Neuroscience, 19
C. Tallon-Baudry, O. Bertrand, C. Delpuech, J. Pernier (1997)
Oscillatory γ-Band (30–70 Hz) Activity Induced by a Visual Search Task in HumansThe Journal of Neuroscience, 17
J. Lachaux, N. George, C. Tallon-Baudry, J. Martinerie, L. Hugueville, L. Minotti, P. Kahane, B. Renault (2005)
The many faces of the gamma band response to complex visual stimuliNeuroImage, 25
S. Doesburg, Alexa Roggeveen, K. Kitajo, L. Ward (2008)
Large-scale gamma-band phase synchronization and selective attention.Cerebral cortex, 18 2
Cathleen Moore, H. Egeth (1997)
Perception without attention: evidence of grouping under conditions of inattention.Journal of experimental psychology. Human perception and performance, 23 2
M. Shadlen, J. Movshon (1999)
Synchrony Unbound A Critical Evaluation of the Temporal Binding HypothesisNeuron, 24
Y. Dan, M. Poo (2004)
Spike Timing-Dependent Plasticity of Neural CircuitsNeuron, 44
C. Herrmann, A. Mecklinger (2001)
Gamma activity in human EEG is related to highspeed memory comparisons during object selective attentionVisual Cognition, 8
C. Tallon-Baudry, O. Bertrand (1999)
Oscillatory gamma activity in humans and its role in object representationTrends in Cognitive Sciences, 3
C. Kayser, P. König (2004)
Stimulus locking and feature selectivity prevail in complementary frequency ranges of V1 local field potentialsEuropean Journal of Neuroscience, 19
C. Tallon-Baudry, O. Bertrand, C. Wienbruch, B. Ross, C. Pantev (1997)
Combined EEG and MEG recordings of visual 40 Hz responses to illusory triangles in humanNeuroReport, 8
E. Niebur, C. Koch (1994)
A model for the neuronal implementation of selective visual attention based on temporal correlation among neuronsJournal of Computational Neuroscience, 1
M. Lebedev, Adam Messinger, Jerald Kralik, S. Wise (2004)
Representation of Attended Versus Remembered Locations in Prefrontal CortexPLoS Biology, 2
A. Engel, P. Fries, W. Singer (2001)
Dynamic predictions: Oscillations and synchrony in top–down processingNature Reviews Neuroscience, 2
Y. Sasaki (2007)
Processing local signals into global patternsCurrent Opinion in Neurobiology, 17
P. Fries, P. Roelfsema, A. Engel, P. König, Wolf Singer (1997)
Synchronization of oscillatory responses in visual cortex correlates with perception in interocular rivalry.Proceedings of the National Academy of Sciences of the United States of America, 94 23
A. Posada, E. Hugues, N. Franck, P. Vianin, J. Kilner (2003)
Augmentation of induced visual gamma activity by increased task complexityEuropean Journal of Neuroscience, 18
N. Bichot, A. Rossi, R. Desimone (2005)
Parallel and Serial Neural Mechanisms for Visual Search in Macaque Area V4Science, 308
V. Goffaux, A. Mouraux, S. Desmet, B. Rossion (2004)
Human non-phase-locked gamma oscillations in experience-based perception of visual scenesNeuroscience Letters, 354
E. Donzis, L. Thompson
Neuroscience Letters
C. Tallon-Baudry, S. Mandon, W. Freiwald, A. Kreiter (2004)
Oscillatory synchrony in the monkey temporal lobe correlates with performance in a visual short-term memory task.Cerebral cortex, 14 7
Matthias Müller, J. Bosch, T. Elbert, A. Kreiter, M. Sosa, P. Sosa, B. Rockstroh (1996)
Visually induced gamma-band responses in human electroencephalographic activity — a link to animal studiesExperimental Brain Research, 112
M. Castelo‐Branco, R. Goebel, S. Neuenschwander, W. Singer (2000)
Neural synchrony correlates with surface segregation rulesNature, 405
Gabriel Rols, C. Tallon-Baudry, P. Girard, O. Bertrand, J. Bullier (2001)
Cortical mapping of gamma oscillations in areas V1 and V4 of the macaque monkeyVisual Neuroscience, 18
A. Tzelepi, A. Tzelepi, T. Bezerianos, Ivan Bodis-Wollner (2000)
Functional properties of sub-bands of oscillatory brain waves to pattern visual stimulation in manClinical Neurophysiology, 111
Matthias Müller, M. Junghöfer, T. Elbert, Brigitte Rochstroh (1997)
Visually induced gamma‐band responses to coherent and incoherent motion: a replication studyNeuroReport, 8
C. Tallon-Baudry, O. Bertrand, M. Hénaff, J. Isnard, C. Fischer (2005)
Attention modulates gamma-band oscillations differently in the human lateral occipital cortex and fusiform gyrus.Cerebral cortex, 15 5
P. Fries, J. Reynolds, A. Rorie, R. Desimone (2001)
Modulation of Oscillatory Neuronal Synchronization by Selective Visual AttentionScience, 291
C. Gray, G. Prisco (1997)
Stimulus-Dependent Neuronal Oscillations and Local Synchronization in Striate Cortex of the Alert CatThe Journal of Neuroscience, 17
M. Mller, A. Keil (2004)
Neuronal Synchronization and Selective Color Processing in the Human BrainJournal of Cognitive Neuroscience, 16
G. Csibra, G. Davis, Michael Spratling, M. Johnson (2000)
Gamma oscillations and object processing in the infant brain.Science, 290 5496
R. Desimone (1996)
Neural mechanisms for visual memory and their role in attention.Proceedings of the National Academy of Sciences of the United States of America, 93 24
C. Tallon-Baudry, O. Bertrand, C. Fischer (2001)
Oscillatory Synchrony between Human Extrastriate Areas during Visual Short-Term Memory MaintenanceThe Journal of Neuroscience, 21
T. Gruber, Matthias Müller, A. Keil, T. Elbert (1999)
Selective visual-spatial attention alters induced gamma band responses in the human EEGClinical Neurophysiology, 110
L. Trick, J. Enns (1997)
Clusters Precede Shapes in Perceptual OrganizationPsychological Science, 8
T. Gruber, Matthias Müller (2004)
Oscillatory brain activity dissociates between associative stimulus content in a repetition priming task in the human EEG.Cerebral cortex, 15 1
Bijan Pesaran, J. Pezaris, M. Sahani, P. Mitra, R. Andersen (2000)
Temporal structure in neuronal activity during working memory in macaque parietal cortexNature Neuroscience, 5
Alexander Gail, Hans Brinksmeyer, Reinhard Eckhorn (2000)
Contour decouples gamma activity across texture representation in monkey striate cortex.Cerebral cortex, 10 9
A. Kreiter, Wolf Singer (1992)
Oscillatory Neuronal Responses in the Visual Cortex of the Awake Macaque MonkeyEuropean Journal of Neuroscience, 4
NeuroReport
W. Usrey, R. Reid (1999)
Synchronous activity in the visual system.Annual review of physiology, 61
Y. Tsal (1989)
Do Illusory Conjunctions Support the Feature Integration Theory? A Critical Review of Theory and FindingsJournal of Experimental Psychology: Human Perception and Performance, 15
H. Naghavi, L. Nyberg (2005)
Common fronto-parietal activity in attention, memory, and consciousness: Shared demands on integration?Consciousness and Cognition, 14
V. Pascalis, William Ray (1998)
Effects of memory load on event-related patterns of 40-Hz EEG during cognitive and motor tasks.International journal of psychophysiology : official journal of the International Organization of Psychophysiology, 28 3
A. Revonsuo, M. Wilenius-Emet, Jaani Kuusela, Marko Lehto (1997)
The neural generation of a unified illusion in human visionNeuroReport, 8
P. Adjamian, I. Holliday, G. Barnes, A. Hillebrand, A. Hadjipapas, Krishna Singh (2004)
Induced visual illusions and gamma oscillations in human primary visual cortexEuropean Journal of Neuroscience, 20
A. Treisman (1999)
Solutions to the Binding Problem Progress through Controversy and ConvergenceNeuron, 24
C. Gray, P. König, A. Engel, W. Singer (1989)
Oscillatory responses in cat visual cortex exhibit inter-columnar synchronization which reflects global stimulus propertiesNature, 338
D. Marcus, D. Essen (2002)
Scene segmentation and attention in primate cortical areas V1 and V2.Journal of neurophysiology, 88 5
R. Kimchi, Irene Razpurker-Apfeld (2004)
Perceptual grouping and attention: Not all groupings are equalPsychonomic Bulletin & Review, 11
N. Hoogenboom, J. Schoffelen, R. Oostenveld, L. Parkes, P. Fries (2006)
Localizing human visual gamma-band activity in frequency, time and spaceNeuroImage, 29
T. Gruber, A. Keil, Matthias Müller (2001)
Modulation of induced gamma band responses and phase synchrony in a paired associate learning task in the human EEGNeuroscience Letters, 316
M. Siegel, P. König (2003)
A Functional Gamma-Band Defined by Stimulus-Dependent Synchronization in Area 18 of Awake Behaving CatsThe Journal of Neuroscience, 23
C. Tallon-Baudry, O. Bertrand, F. Péronnet, J. Pernier (1998)
Induced γ-Band Activity during the Delay of a Visual Short-Term Memory Task in HumansThe Journal of Neuroscience, 18
Axel Frien, Reinhard Eckhorn, Roman Bauer, Thomas Woelbern, Harald Kehr (1994)
Stimulus-specific fast oscillations at zero phase between visual areas V1 and V2 of awake monkey.Neuroreport, 5 17
J. Kaiser, I. Hertrich, H. Ackermann, K. Mathiak, W. Lutzenberger (2005)
Hearing lips: gamma-band activity during audiovisual speech perception.Cerebral cortex, 15 5
J. Fell, P. Klaver, K. Lehnertz, T. Grunwald, C. Schaller, C. Elger, G. Fernández (2001)
Human memory formation is accompanied by rhinal–hippocampal coupling and decouplingNature Neuroscience, 4
C. Tallon-Baudry, O. Bertrand, F. Péronnet, J. Pernier (1998)
Induced gamma-band activity during the delay of a visual short-term memory task in humans.The Journal of neuroscience : the official journal of the Society for Neuroscience, 18 11
K. Tanji, Kyoko Suzuki, A. Delorme, H. Shamoto, N. Nakasato (2005)
High-Frequency γ-Band Activity in the Basal Temporal Cortex during Picture-Naming and Lexical-Decision TasksThe Journal of Neuroscience, 25
T. Shibata, Ichiro Shimoyama, T. Ito, D. Abla, H. Iwasa, K. Koseki, N. Yamanouchi, Toshio Sato, Yoshio Nakajima (1999)
Attention changes the peak latency of the visual gamma-band oscillation of the EEG.Neuroreport, 10 6
Christoph Herrmann, Axel Mecklinger (2000)
Magnetoencephalographic responses to illusory figures: early evoked gamma is affected by processing of stimulus features.International journal of psychophysiology : official journal of the International Organization of Psychophysiology, 38 3
A. Kreiter, W. Singer (1996)
Stimulus-dependent synchronization of neuronal responses in the visual cortex of the awake macaque monkey, 16
Neural oscillatory synchrony could implement grouping processes, act as an attentional filter, or foster the storage of information in short-term memory. Do these findings indicate that oscillatory synchrony is an unspecific epiphenomenon occurring in any demanding task, or that oscillatory synchrony is a fundamental mechanism involved whenever neural cooperation is requested? If the latter hypothesis is true, then oscillatory synchrony should be specific, with distinct visual processes eliciting different types of oscillations. We recorded magnetoencephalogram (MEG) signals while manipulating the grouping properties of a visual display on the one hand, and the focusing of attention to memorize part of this display on the other hand. Grouping-related gamma oscillations were present in all conditions but modulated by the grouping properties of the stimulus (one or two groups) in the high gamma-band (70–120 Hz) at central occipital locations. Attention-related gamma oscillations appeared as an additional component whenever attentional focusing was requested in the low gamma-band (44–66 Hz) at parietal locations. Our results thus reveal the existence of a functional specialization in the gamma range, with grouping-related oscillations showing up at higher frequencies than attention-related oscillations. The pattern of oscillatory synchrony is thus specific of the visual process it is associated with. Our results further suggest that both grouping processes and focused attention rely on a common implementation process, namely, gamma-band oscillatory synchrony, a finding that could account for the fact that coherent percepts are more likely to catch attention than incoherent ones.
Journal of Cognitive Neuroscience – MIT Press
Published: Nov 1, 2006
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.