Ainsworth M et al. (2011). Dual ? rhythm generators control interlaminar synchrony in auditory cortex. The Journal of neuroscience : the official journal of the Society for Neuroscience. 31 [PubMed]
Ainsworth M et al. (2012). Rates and rhythms: a synergistic view of frequency and temporal coding in neuronal networks. Neuron. 75 [PubMed]
Bauer M et al. (2012). Cholinergic enhancement of visual attention and neural oscillations in the human brain. Current biology : CB. 22 [PubMed]
Brookes MJ et al. (2004). A general linear model for MEG beamformer imaging. NeuroImage. 23 [PubMed]
Brookes MJ et al. (2008). Optimising experimental design for MEG beamformer imaging. NeuroImage. 39 [PubMed]
Brookes MJ et al. (2011). Changes in brain network activity during working memory tasks: a magnetoencephalography study. NeuroImage. 55 [PubMed]
Buffalo EA, Fries P, Landman R, Buschman TJ, Desimone R. (2011). Laminar differences in gamma and alpha coherence in the ventral stream. Proceedings of the National Academy of Sciences of the United States of America. 108 [PubMed]
Bush PC, Sejnowski TJ. (1993). Reduced compartmental models of neocortical pyramidal cells. Journal of neuroscience methods. 46 [PubMed]
Buzsáki G, Wang XJ. (2012). Mechanisms of gamma oscillations. Annual review of neuroscience. 35 [PubMed]
Börgers C, Epstein S, Kopell NJ. (2005). Background gamma rhythmicity and attention in cortical local circuits: a computational study. Proceedings of the National Academy of Sciences of the United States of America. 102 [PubMed]
Börgers C, Kopell N. (2003). Synchronization in networks of excitatory and inhibitory neurons with sparse, random connectivity. Neural computation. 15 [PubMed]
Canolty RT et al. (2006). High gamma power is phase-locked to theta oscillations in human neocortex. Science (New York, N.Y.). 313 [PubMed]
Canu MH, Buser P, Rougeul A. (1994). Relationship between posterior thalamic nucleus unit activity and parietal cortical rhythms (beta) in the waking cat. Neuroscience. 60 [PubMed]
Cardin JA et al. (2009). Driving fast-spiking cells induces gamma rhythm and controls sensory responses. Nature. 459 [PubMed]
Carlo CN, Stevens CF. (2013). Structural uniformity of neocortex, revisited. Proceedings of the National Academy of Sciences of the United States of America. 110 [PubMed]
Castelo-Branco M, Neuenschwander S, Singer W. (1998). Synchronization of visual responses between the cortex, lateral geniculate nucleus, and retina in the anesthetized cat. The Journal of neuroscience : the official journal of the Society for Neuroscience. 18 [PubMed]
Cheyne D, Ferrari P. (2013). MEG studies of motor cortex gamma oscillations: evidence for a gamma "fingerprint" in the brain? Frontiers in human neuroscience. 7 [PubMed]
Chow CC, White JA, Ritt J, Kopell N. (1998). Frequency control in synchronized networks of inhibitory neurons. Journal of computational neuroscience. 5 [PubMed]
Dalal SS et al. (2009). Simultaneous MEG and intracranial EEG recordings during attentive reading. NeuroImage. 45 [PubMed]
Deco G, Jirsa VK, Robinson PA, Breakspear M, Friston K. (2008). The dynamic brain: from spiking neurons to neural masses and cortical fields. PLoS computational biology. 4 [PubMed]
Deco G, Thiele A. (2009). Attention: oscillations and neuropharmacology. The European journal of neuroscience. 30 [PubMed]
Deco G, Thiele A. (2011). Cholinergic control of cortical network interactions enables feedback-mediated attentional modulation. The European journal of neuroscience. 34 [PubMed]
Doesburg SM, Green JJ, McDonald JJ, Ward LM. (2012). Theta modulation of inter-regional gamma synchronization during auditory attention control. Brain research. 1431 [PubMed]
Fell J, Fernández G, Klaver P, Elger CE, Fries P. (2003). Is synchronized neuronal gamma activity relevant for selective attention? Brain research. Brain research reviews. 42 [PubMed]
Freunberger R et al. (2007). Gamma oscillatory activity in a visual discrimination task. Brain research bulletin. 71 [PubMed]
Fries P. (2005). A mechanism for cognitive dynamics: neuronal communication through neuronal coherence. Trends in cognitive sciences. 9 [PubMed]
Ghose GM, Freeman RD. (1992). Oscillatory discharge in the visual system: does it have a functional role? Journal of neurophysiology. 68 [PubMed]
Haig AR et al. (2000). Gamma activity in schizophrenia: evidence of impaired network binding? Clinical neurophysiology : official journal of the International Federation of Clinical Neurophysiology. 111 [PubMed]
Hari R, Ilmoniemi RJ, Knuutila J, Lounasmaa OV, Hämäläinen M. (1993). Magnetoencephalography—theory, instrumentation, and applications to noninvasive studies of the working human brain Rev. Mod. Phys.. 65
Haug H. (1987). Brain sizes, surfaces, and neuronal sizes of the cortex cerebri: a stereological investigation of man and his variability and a comparison with some mammals (primates, whales, marsupials, insectivores, and one elephant). Am J Anat. 180
Headley DB, Weinberger NM. (2011). Gamma-band activation predicts both associative memory and cortical plasticity. The Journal of neuroscience : the official journal of the Society for Neuroscience. 31 [PubMed]
Headley DB, Weinberger NM. (2013). Fear conditioning enhances ? oscillations and their entrainment of neurons representing the conditioned stimulus. The Journal of neuroscience : the official journal of the Society for Neuroscience. 33 [PubMed]
Herculano-Houzel S, Collins CE, Wong P, Kaas JH, Lent R. (2008). The basic nonuniformity of the cerebral cortex. Proceedings of the National Academy of Sciences of the United States of America. 105 [PubMed]
Herculano-Houzel S, Munk MH, Neuenschwander S, Singer W. (1999). Precisely synchronized oscillatory firing patterns require electroencephalographic activation. The Journal of neuroscience : the official journal of the Society for Neuroscience. 19 [PubMed]
Hines ML, Morse T, Migliore M, Carnevale NT, Shepherd GM. (2004). ModelDB: A Database to Support Computational Neuroscience. Journal of computational neuroscience. 17 [PubMed]
Hoogenboom N, Schoffelen JM, Oostenveld R, Parkes LM, Fries P. (2006). Localizing human visual gamma-band activity in frequency, time and space. NeuroImage. 29 [PubMed]
Howard MW et al. (2003). Gamma oscillations correlate with working memory load in humans. Cerebral cortex (New York, N.Y. : 1991). 13 [PubMed]
Ikeda H, Wang Y, Okada YC. (2005). Origins of the somatic N20 and high-frequency oscillations evoked by trigeminal stimulation in the piglets. Clinical neurophysiology : official journal of the International Federation of Clinical Neurophysiology. 116 [PubMed]
Jenkinson N, Kühn AA, Brown P. (2013). ? oscillations in the human basal ganglia. Experimental neurology. 245 [PubMed]
Jensen O, Colgin LL. (2007). Cross-frequency coupling between neuronal oscillations. Trends in cognitive sciences. 11 [PubMed]
Jensen O, Mazaheri A. (2010). Shaping functional architecture by oscillatory alpha activity: gating by inhibition. Frontiers in human neuroscience. 4 [PubMed]
Johansson C, Lansner A. (2007). Towards cortex sized artificial neural systems. Neural networks : the official journal of the International Neural Network Society. 20 [PubMed]
Jones EG. (2001). The thalamic matrix and thalamocortical synchrony. Trends in neurosciences. 24 [PubMed]
Jones SR et al. (2010). Cued spatial attention drives functionally relevant modulation of the mu rhythm in primary somatosensory cortex. The Journal of neuroscience : the official journal of the Society for Neuroscience. 30 [PubMed]
Jones SR et al. (2009). Quantitative analysis and biophysically realistic neural modeling of the MEG mu rhythm: rhythmogenesis and modulation of sensory-evoked responses. Journal of neurophysiology. 102 [PubMed]
Jones SR, Pritchett DL, Stufflebeam SM, Hämäläinen M, Moore CI. (2007). Neural correlates of tactile detection: a combined magnetoencephalography and biophysically based computational modeling study. The Journal of neuroscience : the official journal of the Society for Neuroscience. 27 [PubMed]
Koelewijn L, Rich AN, Muthukumaraswamy SD, Singh KD. (2013). Spatial attention increases high-frequency gamma synchronisation in human medial visual cortex. NeuroImage. 79 [PubMed]
Kramer MA, Tort AB, Kopell NJ. (2008). Sharp edge artifacts and spurious coupling in EEG frequency comodulation measures. Journal of neuroscience methods. 170 [PubMed]
Lakatos P, Karmos G, Mehta AD, Ulbert I, Schroeder CE. (2008). Entrainment of neuronal oscillations as a mechanism of attentional selection. Science (New York, N.Y.). 320 [PubMed]
Lakatos P et al. (2005). An oscillatory hierarchy controlling neuronal excitability and stimulus processing in the auditory cortex. Journal of neurophysiology. 94 [PubMed]
Lee S, Sen K, Kopell N. (2009). Cortical gamma rhythms modulate NMDAR-mediated spike timing dependent plasticity in a biophysical model. PLoS computational biology. 5 [PubMed]
Lin FH et al. (2004). Spectral spatiotemporal imaging of cortical oscillations and interactions in the human brain. NeuroImage. 23 [PubMed]
Litvak V et al. (2012). Movement-related changes in local and long-range synchronization in Parkinson's disease revealed by simultaneous magnetoencephalography and intracranial recordings. The Journal of neuroscience : the official journal of the Society for Neuroscience. 32 [PubMed]
Llinás R, Ribary U. (1993). Coherent 40-Hz oscillation characterizes dream state in humans. Proceedings of the National Academy of Sciences of the United States of America. 90 [PubMed]
Maris E, van Vugt M, Kahana M. (2011). Spatially distributed patterns of oscillatory coupling between high-frequency amplitudes and low-frequency phases in human iEEG. NeuroImage. 54 [PubMed]
Meador KJ, Ray PG, Echauz JR, Loring DW, Vachtsevanos GJ. (2002). Gamma coherence and conscious perception. Neurology. 59 [PubMed]
Murakami S, Okada Y. (2006). Contributions of principal neocortical neurons to magnetoencephalography and electroencephalography signals. The Journal of physiology. 575 [PubMed]
Nevalainen P et al. (2008). Somatosensory evoked magnetic fields from the primary and secondary somatosensory cortices in healthy newborns. NeuroImage. 40 [PubMed]
Oke OO et al. (2010). High-frequency gamma oscillations coexist with low-frequency gamma oscillations in the rat visual cortex in vitro. The European journal of neuroscience. 31 [PubMed]
Oliphant TE. (2007). Python for scientific computing Ieee Comput Sci Eng. 9
Osipova D et al. (2006). Theta and gamma oscillations predict encoding and retrieval of declarative memory. The Journal of neuroscience : the official journal of the Society for Neuroscience. 26 [PubMed]
Palva JM, Palva S, Kaila K. (2005). Phase synchrony among neuronal oscillations in the human cortex. The Journal of neuroscience : the official journal of the Society for Neuroscience. 25 [PubMed]
Pinto DJ, Jones SR, Kaper TJ, Kopell N. (2003). Analysis of State-Dependent Transitions in Frequency and Long-Distance Coordination in a Model Oscillatory Cortical Circuit Journal of computational neuroscience. 15 [PubMed]
Plonsey R, Malmivuo J. (1995). Bioelectromagnetism:Principles and Applications of Bioelectric and Biomagnetic Fields.
Ray S, Crone NE, Niebur E, Franaszczuk PJ, Hsiao SS. (2008). Neural correlates of high-gamma oscillations (60-200 Hz) in macaque local field potentials and their potential implications in electrocorticography. The Journal of neuroscience : the official journal of the Society for Neuroscience. 28 [PubMed]
Ray S, Maunsell JH. (2010). Differences in gamma frequencies across visual cortex restrict their possible use in computation. Neuron. 67 [PubMed]
Ribary U et al. (1991). Magnetic field tomography of coherent thalamocortical 40-Hz oscillations in humans. Proceedings of the National Academy of Sciences of the United States of America. 88 [PubMed]
Roberts MJ et al. (2013). Robust gamma coherence between macaque V1 and V2 by dynamic frequency matching. Neuron. 78 [PubMed]
Rockel AJ, Hiorns RW, Powell TP. (1980). The basic uniformity in structure of the neocortex. Brain : a journal of neurology. 103 [PubMed]
Rodriguez E et al. (1999). Perception's shadow: long-distance synchronization of human brain activity. Nature. 397 [PubMed]
Rols G, Tallon-Baudry C, Girard P, Bertrand O, Bullier J. (2001). Cortical mapping of gamma oscillations in areas V1 and V4 of the macaque monkey. Visual neuroscience. 18 [PubMed]
Roux F, Wibral M, Mohr HM, Singer W, Uhlhaas PJ. (2012). Gamma-band activity in human prefrontal cortex codes for the number of relevant items maintained in working memory. The Journal of neuroscience : the official journal of the Society for Neuroscience. 32 [PubMed]
Sanchez-Panchuelo RM, Francis S, Bowtell R, Schluppeck D. (2010). Mapping human somatosensory cortex in individual subjects with 7T functional MRI. Journal of neurophysiology. 103 [PubMed]
Scheffer-Teixeira R, Belchior H, Leão RN, Ribeiro S, Tort AB. (2013). On high-frequency field oscillations (>100 Hz) and the spectral leakage of spiking activity. The Journal of neuroscience : the official journal of the Society for Neuroscience. 33 [PubMed]
Siegel M, König P. (2003). A functional gamma-band defined by stimulus-dependent synchronization in area 18 of awake behaving cats. The Journal of neuroscience : the official journal of the Society for Neuroscience. 23 [PubMed]
Staudigl T et al. (2012). Memory signals from the thalamus: early thalamocortical phase synchronization entrains gamma oscillations during long-term memory retrieval. Neuropsychologia. 50 [PubMed]
Steriade M, Amzica F. (1996). Intracortical and corticothalamic coherency of fast spontaneous oscillations. Proceedings of the National Academy of Sciences of the United States of America. 93 [PubMed]
Steriade M, Amzica F, Contreras D. (1996). Synchronization of fast (30-40 Hz) spontaneous cortical rhythms during brain activation. The Journal of neuroscience : the official journal of the Society for Neuroscience. 16 [PubMed]
Steriade M, Contreras D, Amzica F, Timofeev I. (1996). Synchronization of fast (30-40 Hz) spontaneous oscillations in intrathalamic and thalamocortical networks. The Journal of neuroscience : the official journal of the Society for Neuroscience. 16 [PubMed]
Swettenham JB, Muthukumaraswamy SD, Singh KD. (2013). BOLD Responses in Human Primary Visual Cortex are Insensitive to Substantial Changes in Neural Activity. Frontiers in human neuroscience. 7 [PubMed]
Tallon-Baudry C. (2009). The roles of gamma-band oscillatory synchrony in human visual cognition. Frontiers in bioscience (Landmark edition). 14 [PubMed]
Tallon-Baudry C, Bertrand O. (1999). Oscillatory gamma activity in humans and its role in object representation. Trends in cognitive sciences. 3 [PubMed]
Tallon-Baudry C, Bertrand O, Pernier J. (1999). A ring-shaped distribution of dipoles as a source model of induced gamma-band activity. Clinical neurophysiology : official journal of the International Federation of Clinical Neurophysiology. 110 [PubMed]
Tallon-Baudry C, Bertrand O, Wienbruch C, Ross B, Pantev C. (1997). Combined EEG and MEG recordings of visual 40 Hz responses to illusory triangles in human. Neuroreport. 8 [PubMed]
Tavabi K, Embick D, Roberts TP. (2011). Spectral-temporal analysis of cortical oscillations during lexical processing. Neuroreport. 22 [PubMed]
Thomson AM, Bannister AP. (2003). Interlaminar connections in the neocortex. Cerebral cortex (New York, N.Y. : 1991). 13 [PubMed]
Tiesinga P, Sejnowski TJ. (2009). Cortical enlightenment: are attentional gamma oscillations driven by ING or PING? Neuron. 63 [PubMed]
Todorovic A, van Ede F, Maris E, de Lange FP. (2011). Prior expectation mediates neural adaptation to repeated sounds in the auditory cortex: an MEG study. The Journal of neuroscience : the official journal of the Society for Neuroscience. 31 [PubMed]
Traub RD et al. (2005). Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts. Journal of neurophysiology. 93 [PubMed]
Traub RD, Jefferys JG, Whittington MA. (1997). Simulation of gamma rhythms in networks of interneurons and pyramidal cells. Journal of computational neuroscience. 4 [PubMed]
Traub RD, Whittington MA, Colling SB, Buzsáki G, Jefferys JG. (1996). Analysis of gamma rhythms in the rat hippocampus in vitro and in vivo. The Journal of physiology. 493 ( Pt 2) [PubMed]
Uhlhaas PJ, Pipa G, Neuenschwander S, Wibral M, Singer W. (2011). A new look at gamma? High- (>60 Hz) ?-band activity in cortical networks: function, mechanisms and impairment. Progress in biophysics and molecular biology. 105 [PubMed]
Vierling-Claassen D, Cardin JA, Moore CI, Jones SR. (2010). Computational modeling of distinct neocortical oscillations driven by cell-type selective optogenetic drive: separable resonant circuits controlled by low-threshold spiking and fast-spiking interneurons. Frontiers in human neuroscience. 4 [PubMed]
Voytek B et al. (2010). Shifts in gamma phase-amplitude coupling frequency from theta to alpha over posterior cortex during visual tasks. Frontiers in human neuroscience. 4 [PubMed]
Wang XJ. (2010). Neurophysiological and computational principles of cortical rhythms in cognition. Physiological reviews. 90 [PubMed]
Weinberger NM. (1998). Physiological memory in primary auditory cortex: characteristics and mechanisms. Neurobiology of learning and memory. 70 [PubMed]
Weinberger NM, Miasnikov AA, Bieszczad KM, Chen JC. (2013). Gamma band plasticity in sensory cortex is a signature of the strongest memory rather than memory of the training stimulus. Neurobiology of learning and memory. 104 [PubMed]
Whittington MA, Cunningham MO, LeBeau FE, Racca C, Traub RD. (2011). Multiple origins of the cortical ? rhythm. Developmental neurobiology. 71 [PubMed]
Whittington MA, Traub RD, Kopell N, Ermentrout B, Buhl EH. (2000). Inhibition-based rhythms: experimental and mathematical observations on network dynamics. International journal of psychophysiology : official journal of the International Organization of Psychophysiology. 38 [PubMed]
Yuval-Greenberg S, Tomer O, Keren AS, Nelken I, Deouell LY. (2008). Transient induced gamma-band response in EEG as a manifestation of miniature saccades. Neuron. 58 [PubMed]
Zhu Z et al. (2009). The relationship between magnetic and electrophysiological responses to complex tactile stimuli. BMC neuroscience. 10 [PubMed]
Ziegler DA et al. (2010). Transformations in oscillatory activity and evoked responses in primary somatosensory cortex in middle age: a combined computational neural modeling and MEG study. NeuroImage. 52 [PubMed]
de Haan W et al. (2008). Resting-state oscillatory brain dynamics in Alzheimer disease. Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society. 25 [PubMed]
van der Meij R, Kahana M, Maris E. (2012). Phase-amplitude coupling in human electrocorticography is spatially distributed and phase diverse. The Journal of neuroscience : the official journal of the Society for Neuroscience. 32 [PubMed]
von Stein A, Sarnthein J. (2000). Different frequencies for different scales of cortical integration: from local gamma to long range alpha/theta synchronization. Int J Psychophysiol. 38