On the relation between oscillatory EEG activity and the BOLD signal
暂无分享,去创建一个
[1] H. V. Dijk,et al. The state of the brain: How alpha oscillations shape behavior and event-related responses , 2010 .
[2] V. Calhoun,et al. Joint independent component analysis for simultaneous EEG-fMRI: principle and simulation. , 2008, International journal of psychophysiology : official journal of the International Organization of Psychophysiology.
[3] O. Jensen,et al. Neuromagnetic localization of rhythmic activity in the human brain: a comparison of three methods , 2005, NeuroImage.
[4] Arne D. Ekstrom,et al. Correlation between BOLD fMRI and theta-band local field potentials in the human hippocampal area. , 2009, Journal of neurophysiology.
[5] W. Singer,et al. Hemodynamic Signals Correlate Tightly with Synchronized Gamma Oscillations , 2005, Science.
[6] Keith A. Johnson,et al. Cortical Hubs Revealed by Intrinsic Functional Connectivity: Mapping, Assessment of Stability, and Relation to Alzheimer's Disease , 2009, The Journal of Neuroscience.
[7] Jessica A. Cardin,et al. Driving fast-spiking cells induces gamma rhythm and controls sensory responses , 2009, Nature.
[8] J. Fell,et al. Lateralized auditory spatial perception and the contralaterality of cortical processing as studied with functional magnetic resonance imaging and magnetoencephalography , 1999, Human brain mapping.
[9] A. Berthoz,et al. Multisensory integration in spatial orientation , 1999, Current Opinion in Neurobiology.
[10] Robert Turner,et al. A Method for Removing Imaging Artifact from Continuous EEG Recorded during Functional MRI , 2000, NeuroImage.
[11] R. Goebel,et al. The functional neuroanatomy of target detection: an fMRI study of visual and auditory oddball tasks. , 1999, Cerebral cortex.
[12] A. Kleinschmidt,et al. Electroencephalographic signatures of attentional and cognitive default modes in spontaneous brain activity fluctuations at rest , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[13] B. Biswal,et al. Functional connectivity in the motor cortex of resting human brain using echo‐planar mri , 1995, Magnetic resonance in medicine.
[14] Jonathan Levy,et al. In cerebro unveiling unconscious mechanisms during reading , 2010 .
[15] H. V. Beek,et al. The regulation of cerebral perfusion in patients with Alzheimer's disease , 2006 .
[16] R. Oostenveld,et al. Finding Gamma , 2008, Neuron.
[17] S. Debener,et al. Simultaneous recording of EEG and BOLD responses: a historical perspective. , 2008, International journal of psychophysiology : official journal of the International Organization of Psychophysiology.
[18] William D. Penny,et al. Estimating the transfer function from neuronal activity to BOLD using simultaneous EEG-fMRI , 2010, NeuroImage.
[19] E. Halgren,et al. Dynamic Statistical Parametric Mapping Combining fMRI and MEG for High-Resolution Imaging of Cortical Activity , 2000, Neuron.
[20] Mark S. Cohen,et al. Simultaneous EEG and fMRI of the alpha rhythm , 2002, Neuroreport.
[21] Robert Oostenveld,et al. Trial-by-trial coupling between EEG and BOLD identifies networks related to alpha and theta EEG power increases during working memory maintenance , 2009, NeuroImage.
[22] W. Singer,et al. Oscillatory responses in cat visual cortex exhibit inter-columnar synchronization which reflects global stimulus properties , 1989, Nature.
[23] Andreas Kleinschmidt,et al. EEG-correlated fMRI of human alpha activity , 2003, NeuroImage.
[24] Martijn J. M. Lamers,et al. Levels of selective attention in action planning , 2004 .
[25] M. Wyczesany,et al. Covariation of mood and brain activity: Integration of subjective selfreport data with quantitative EEG measures , 2010 .
[26] Justin L. Vincent,et al. Intrinsic Fluctuations within Cortical Systems Account for Intertrial Variability in Human Behavior , 2007, Neuron.
[27] Krish D. Singh,et al. Functional decoupling of BOLD and gamma‐band amplitudes in human primary visual cortex , 2009, Human brain mapping.
[28] K. Mathewson,et al. To See or Not to See: Prestimulus α Phase Predicts Visual Awareness , 2009, The Journal of Neuroscience.
[29] Stephen M Smith,et al. Correspondence of the brain's functional architecture during activation and rest , 2009, Proceedings of the National Academy of Sciences.
[30] Natasha M. Maurits,et al. Correlating the alpha rhythm to BOLD using simultaneous EEG/fMRI: Inter-subject variability , 2006, NeuroImage.
[31] J. van der Werf,et al. Cortical oscillatory activity in human visuomotor integration , 2011 .
[32] E. Halgren,et al. Spatiotemporal mapping of brain activity by integration of multiple imaging modalities , 2001, Current Opinion in Neurobiology.
[33] L. Menenti,et al. The right language : differential hemispheric contributions to language production and comprehension in context , 2010 .
[34] R. Oostenveld,et al. Somatosensory working memory performance in humans depends on both engagement and disengagement of regions in a distributed network , 2009, Human brain mapping.
[35] Wilkin Chau,et al. An integrative MEG–fMRI study of the primary somatosensory cortex using cross-modal correspondence analysis , 2004, NeuroImage.
[36] E Donchin,et al. A new method for off-line removal of ocular artifact. , 1983, Electroencephalography and clinical neurophysiology.
[37] M. Bakker,et al. Supraspinal control of walking : lessons from motor imagery , 2001 .
[38] G. Pfurtscheller,et al. Post-movement beta synchronization. A correlate of an idling motor area? , 1996, Electroencephalography and clinical neurophysiology.
[39] Simon B. Eickhoff,et al. A new SPM toolbox for combining probabilistic cytoarchitectonic maps and functional imaging data , 2005, NeuroImage.
[40] C. Horlings,et al. A weak balance; Balance and falls in patients with neuromuscular disorders. , 2010 .
[41] A van Oosterom,et al. Overlap of attention and movement-related activity in lateralized event-related brain potentials , 2001, Clinical Neurophysiology.
[42] J. M. Schoffelen,et al. Neuronal communication through coherence in the human motor system , 2007 .
[43] Robert Oostenveld,et al. Localizing human visual gamma-band activity in frequency, time and space , 2006, NeuroImage.
[44] C C Wood,et al. Mapping function in the human brain with magnetoencephalography, anatomical magnetic resonance imaging, and functional magnetic resonance imaging. , 1995, Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society.
[45] W. Klimesch,et al. 'Paradoxical' alpha synchronization in a memory task. , 1999, Brain research. Cognitive brain research.
[46] J. Knippenberg,et al. The N150 of the Auditory Evoked Potential from the rat amygdala: In search for its functional significance , 2009 .
[47] K. Grootens,et al. Cognitive dysfunction and effects of antipsychotics in schizophrenia and borderline personality disorder. , 2010 .
[48] A K Liu,et al. Spatiotemporal imaging of human brain activity using functional MRI constrained magnetoencephalography data: Monte Carlo simulations. , 1998, Proceedings of the National Academy of Sciences of the United States of America.
[49] Maurizio Corbetta,et al. The human brain is intrinsically organized into dynamic, anticorrelated functional networks. , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[50] James V. Stone. Independent Component Analysis: A Tutorial Introduction , 2007 .
[51] B. Poser,et al. Techniques for BOLD and blood volume weighted fMRI , 2009 .
[52] M. Corbetta,et al. Temporal dynamics of spontaneous MEG activity in brain networks , 2010, Proceedings of the National Academy of Sciences.
[53] R. Scheeringa,et al. EEG Coherence Obtained From an Auditory Oddball Task Increases With Age , 2006, Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society.
[54] J. Pijnacker,et al. Defeasible inference in autism: a behavioral and electrophysiological approach , 2010 .
[55] G. Dumont. Cognitive and physiological effects of 3,4-methylenedioxymethamphetamine (MDMA or 'ecstasy') in combination with alcohol or cannabis in humans , 2009 .
[56] B. Feige,et al. Cortical and subcortical correlates of electroencephalographic alpha rhythm modulation. , 2005, Journal of neurophysiology.
[57] Hellmuth Obrig,et al. Correlates of alpha rhythm in functional magnetic resonance imaging and near infrared spectroscopy , 2003, NeuroImage.
[58] J. Lisman,et al. Oscillations in the alpha band (9-12 Hz) increase with memory load during retention in a short-term memory task. , 2002, Cerebral cortex.
[59] G. A. van Wingen,et al. Biological determinants of amygdala functioning. , 2009 .
[60] S. Prinz,et al. Waterbath stunning of chickens: Effects of electrical parameters on the electroencephalogram and physical reflexes of broilers , 2009 .
[61] M M Mesulam,et al. Report of IFCN Committee on Basic Mechanisms. Basic mechanisms of cerebral rhythmic activities. , 1990, Electroencephalography and clinical neurophysiology.
[62] H. Spekreijse,et al. Mathematical dipoles are adequate to describe realistic generators of human brain activity , 1988, IEEE Transactions on Biomedical Engineering.
[63] S Makeig,et al. Blind separation of auditory event-related brain responses into independent components. , 1997, Proceedings of the National Academy of Sciences of the United States of America.
[64] Hellmuth Obrig,et al. Stimulus-Induced and State-Dependent Sustained Gamma Activity Is Tightly Coupled to the Hemodynamic Response in Humans , 2009, The Journal of Neuroscience.
[65] J. Lommertzen,et al. Visuomotor Coupling at Different Levels of Complexity , 2004 .
[66] G. Pfurtscheller,et al. Event-related synchronization (ERS) in the alpha band--an electrophysiological correlate of cortical idling: a review. , 1996, International journal of psychophysiology : official journal of the International Organization of Psychophysiology.
[67] Ivan Toni,et al. Cerebral correlates of motor imagery of normal and precision gait , 2008, NeuroImage.
[68] I. Toni,et al. Spatial remapping of cortico-striatal connectivity in Parkinson's disease – a resting state fMRI study , 2009, NeuroImage.
[69] P. Fries. A mechanism for cognitive dynamics: neuronal communication through neuronal coherence , 2005, Trends in Cognitive Sciences.
[70] T. Sejnowski,et al. Electroencephalographic Brain Dynamics Following Manually Responded Visual Targets , 2004, PLoS biology.
[71] M. Neale,et al. Are Smarter Brains Running Faster? Heritability of Alpha Peak Frequency, IQ, and Their Interrelation , 2001, Behavior genetics.
[72] N. Logothetis,et al. Neurophysiological investigation of the basis of the fMRI signal , 2001, Nature.
[73] J. Majdandzic. Cerebral mechanisms of processing action goals in self and others , 2003 .
[74] Dieter Vaitl,et al. Relationship between regional hemodynamic activity and simultaneously recorded EEG‐theta associated with mental arithmetic‐induced workload , 2007, Human brain mapping.
[75] Andreas A. Ioannides,et al. Consistent and precise localization of brain activity in human primary visual cortex by MEG and fMRI , 2003, NeuroImage.
[76] O. Jensen,et al. Prestimulus alpha and mu activity predicts failure to inhibit motor responses , 2009, Human brain mapping.
[77] N. Logothetis,et al. High-resolution fMRI of macaque V1. , 2007, Magnetic resonance imaging.
[78] A. Mazaheri. The influence of ongoing oscillatory brain activity on evoked responses and behaviour , 2004 .
[79] Richard S. J. Frackowiak,et al. Endogenous Cortical Rhythms Determine Cerebral Specialization for Speech Perception and Production , 2007, Neuron.
[80] Terrence J. Sejnowski,et al. An Information-Maximization Approach to Blind Separation and Blind Deconvolution , 1995, Neural Computation.
[81] Scott T. Grafton,et al. Response to Comment on "Wandering Minds: The Default Network and Stimulus-Independent Thought" , 2007, Science.
[82] M. Corbetta,et al. Electrophysiological signatures of resting state networks in the human brain , 2007, Proceedings of the National Academy of Sciences.
[83] O. Jensen,et al. Modulation of Gamma and Alpha Activity during a Working Memory Task Engaging the Dorsal or Ventral Stream , 2007, The Journal of Neuroscience.
[84] F. H. Lopes da Silva. Neural mechanisms underlying brain waves: from neural membranes to networks. , 1991, Electroencephalography and clinical neurophysiology.
[85] Peter Kirsch,et al. Acquisition of typical EEG waveforms during fMRI: SSVEP, LRP, and frontal theta , 2005, NeuroImage.
[86] Tineke M. Snijders,et al. More than words: neural and genetic dynamics of syntactic unification , 2004 .
[87] Kenneth Hugdahl,et al. Realignment parameter-informed artefact correction for simultaneous EEG–fMRI recordings , 2009, NeuroImage.
[88] Helmut Laufs,et al. Where the BOLD signal goes when alpha EEG leaves , 2006, NeuroImage.
[89] Fumikazu Miwakeichi,et al. Concurrent EEG/fMRI analysis by multiway Partial Least Squares , 2004, NeuroImage.
[90] O. Jensen,et al. Maintenance of multiple working memory items by temporal segmentation , 2006, Neuroscience.
[91] N. Logothetis,et al. Neurophysiology of the BOLD fMRI Signal in Awake Monkeys , 2008, Current Biology.
[92] Louis Lemieux,et al. Identification of EEG Events in the MR Scanner: The Problem of Pulse Artifact and a Method for Its Subtraction , 1998, NeuroImage.
[93] M. Kahana,et al. Theta returns , 2001, Current Opinion in Neurobiology.
[94] N. Logothetis. What we can do and what we cannot do with fMRI , 2008, Nature.
[95] Y. Benjamini,et al. Controlling the false discovery rate: a practical and powerful approach to multiple testing , 1995 .
[96] S Warach,et al. Monitoring the patient's EEG during echo planar MRI. , 1993, Electroencephalography and clinical neurophysiology.
[97] H. Laufs,et al. Electroencephalography/functional MRI in human epilepsy: what it currently can and cannot do , 2007, Current opinion in neurology.
[98] G. Karmos,et al. Entrainment of Neuronal Oscillations as a Mechanism of Attentional Selection , 2008, Science.
[99] Karl J. Friston,et al. Dynamic causal modeling for EEG and MEG , 2009, Human brain mapping.
[100] Matthias S. Treder,et al. Symmetry in (inter)action , 2005 .
[101] Arnaud Delorme,et al. EEGLAB: an open source toolbox for analysis of single-trial EEG dynamics including independent component analysis , 2004, Journal of Neuroscience Methods.
[102] Roel M. Willems,et al. Neural reflections of meaning in gesture, language, and action , 2009 .
[103] S. I. van Aalderen-Smeets. Neural dynamics of visual selection , 2007 .
[104] Harold Bekkering,et al. Dynamics of cognitive control in task switching: looking beyond the switch cost , 2001 .
[105] O. Bertrand,et al. Relationship between task‐related gamma oscillations and BOLD signal: New insights from combined fMRI and intracranial EEG , 2007, Human brain mapping.
[106] S. van Pelt,et al. Dynamic neural representations of human visuomotor space , 2003 .
[107] Olga Meulenbroek,et al. Neural correlates of episodic memory in healthy aging and Alzheimer's disease. , 2010 .
[108] N. Logothetis,et al. Negative functional MRI response correlates with decreases in neuronal activity in monkey visual area V1 , 2006, Nature Neuroscience.
[109] N. Derks,et al. The role of the non-preganglionic Edinger-Westphal nucleus in sex-dependent stress adaptation in rodents , 2010 .
[110] J. Martinerie,et al. The brainweb: Phase synchronization and large-scale integration , 2001, Nature Reviews Neuroscience.
[111] Arnaud Delorme,et al. Frontal midline EEG dynamics during working memory , 2005, NeuroImage.
[112] Jed A. Meltzer,et al. Individual differences in EEG theta and alpha dynamics during working memory correlate with fMRI responses across subjects , 2007, Clinical Neurophysiology.
[113] A. Villringer,et al. Simultaneous EEG–fMRI , 2006, Neuroscience & Biobehavioral Reviews.
[114] S. Rombouts,et al. Consistent resting-state networks across healthy subjects , 2006, Proceedings of the National Academy of Sciences.
[115] S. Makeig,et al. Mining event-related brain dynamics , 2004, Trends in Cognitive Sciences.
[116] Florin Dolcos,et al. Similarities and Differences in the Neural Correlates of Episodic Memory Retrieval and Working Memory , 2002, NeuroImage.
[117] Gareth R. Barnes,et al. The missing link: analogous human and primate cortical gamma oscillations , 2005, NeuroImage.
[118] M. Bauer,et al. Functional roles of rhythmic neuronal activity in the human visual and somatosensory system , 2008 .
[119] F. P. de Lange,et al. Neural mechanisms of motor imagery , 2008 .
[120] L. Lemieux,et al. Recording of EEG during fMRI experiments: Patient safety , 1997, Magnetic resonance in medicine.
[121] Kenneth Hugdahl,et al. Prediction of human errors by maladaptive changes in event-related brain networks , 2008, Proceedings of the National Academy of Sciences.
[122] I. Nieuwenhuis,et al. Memory consolidation. A process of integration converging evidence from MEG, fMRI and behavior. , 2010 .
[123] R. Oostenveld,et al. Neuronal Dynamics Underlying High- and Low-Frequency EEG Oscillations Contribute Independently to the Human BOLD Signal , 2011, Neuron.
[124] S. Overeem,et al. Modulation of human balance reactions. , 2010 .
[125] J. Kaiser,et al. Decomposition of working memory-related scalp ERPs: crossvalidation of fMRI-constrained source analysis and ICA. , 2008, International journal of psychophysiology : official journal of the International Organization of Psychophysiology.
[126] S. M. Beurze. Cortical mechanisms for reach planning , 2004 .
[127] Fumikazu Miwakeichi,et al. Decomposing EEG data into space–time–frequency components using Parallel Factor Analysis , 2004, NeuroImage.
[128] M. van Elk,et al. Action semantics functional and neural dynamics , 2010 .
[129] R. Desimone,et al. Modulation of Oscillatory Neuronal Synchronization by Selective Visual Attention , 2001, Science.
[130] R. Barry,et al. A review of electrophysiology in attention-deficit/hyperactivity disorder: I. Qualitative and quantitative electroencephalography , 2003, Clinical Neurophysiology.
[131] Kenneth Hugdahl,et al. Assessing the spatiotemporal evolution of neuronal activation with single-trial event-related potentials and functional MRI. , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[132] J. Palva,et al. New vistas for alpha-frequency band oscillations. , 2007, Trends in neurosciences.
[133] D. Norris,et al. Very high‐resolution three‐dimensional functional MRI of the human visual cortex with elimination of large venous vessels , 2007, NMR in biomedicine.
[134] Shaozheng Qin,et al. Adaptive memory. Imaging medial temporal and prefrontal memory systems , 2010 .
[135] Karl J. Friston,et al. Anatomically Informed Basis Functions for EEG Source Localization: Combining Functional and Anatomical Constraints , 2002, NeuroImage.
[136] Abraham Z. Snyder,et al. A default mode of brain function: A brief history of an evolving idea , 2007, NeuroImage.
[137] M. Raichle,et al. Searching for a baseline: Functional imaging and the resting human brain , 2001, Nature Reviews Neuroscience.
[138] W. Klimesch,et al. EEG alpha oscillations: The inhibition–timing hypothesis , 2007, Brain Research Reviews.
[139] W. Klimesch,et al. Induced alpha band power changes in the human EEG and attention , 1998, Neuroscience Letters.
[140] C. Crajé,et al. A)typical motor planning and motor imagery , 2006 .
[141] Esther Aarts,et al. Resisting temptation: the role of the anterior cingulate cortex in adjusting cognitive control , 2004 .
[142] Karl J. Friston,et al. Psychophysiological and Modulatory Interactions in Neuroimaging , 1997, NeuroImage.
[143] A. Kleinschmidt,et al. Distributed and Antagonistic Contributions of Ongoing Activity Fluctuations to Auditory Stimulus Detection , 2009, The Journal of Neuroscience.
[144] M. Corbetta,et al. Common Blood Flow Changes across Visual Tasks: II. Decreases in Cerebral Cortex , 1997, Journal of Cognitive Neuroscience.
[145] N. Timmer,et al. The interaction of heparan sulfate proteoglycans with the amyloid β protein. , 2011 .
[146] W. Medendorp,et al. Modulations in oscillatory activity with amplitude asymmetry can produce cognitively relevant event-related responses , 2009, Proceedings of the National Academy of Sciences.
[147] Yoko Yamaguchi,et al. A long-range cortical network emerging with theta oscillation in a mental task , 2004, Neuroreport.
[148] M. J. Grol. Parieto-frontal circuitry in visuomotor control , 2008 .
[149] G. Shulman,et al. Medial prefrontal cortex and self-referential mental activity: Relation to a default mode of brain function , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[150] A. Kleinschmidt,et al. Intrinsic Connectivity Networks, Alpha Oscillations, and Tonic Alertness: A Simultaneous Electroencephalography/Functional Magnetic Resonance Imaging Study , 2010, The Journal of Neuroscience.
[151] L. Snaphaan,et al. Epidemiology of Post-Stroke behavioural Consequences. , 2010 .
[152] J. Schoffelen,et al. Prestimulus Oscillatory Activity in the Alpha Band Predicts Visual Discrimination Ability , 2008, The Journal of Neuroscience.
[153] T. Inouye,et al. Medial prefrontal cortex generates frontal midline theta rhythm. , 1999, Neuroreport.
[154] Thomas R. Knösche,et al. An fMRI-Constrained MEG Source Analysis with Procedures for Dividing and Grouping Activation , 2002, NeuroImage.
[155] O. Sporns,et al. Mapping the Structural Core of Human Cerebral Cortex , 2008, PLoS biology.
[156] Andreas Kleinschmidt,et al. Recent advances in recording electrophysiological data simultaneously with magnetic resonance imaging , 2008, NeuroImage.
[157] R. Oostenveld,et al. Frontal theta EEG activity correlates negatively with the default mode network in resting state. , 2008, International journal of psychophysiology : official journal of the International Organization of Psychophysiology.
[158] Á. Pascual-Leone,et al. Spontaneous fluctuations in posterior alpha-band EEG activity reflect variability in excitability of human visual areas. , 2008, Cerebral cortex.
[159] C. Hooijmans,et al. Impact of nutritional lipids and vascular factors in Alzheimer's Disease - a study of transgenic Alzheimer mice - , 2008 .
[160] F. Carver,et al. Human Hippocampal and Parahippocampal Theta during Goal-Directed Spatial Navigation Predicts Performance on a Virtual Morris Water Maze , 2008, The Journal of Neuroscience.
[161] Jeffrey M. Zacks,et al. Coherent spontaneous activity accounts for trial-to-trial variability in human evoked brain responses , 2006, Nature Neuroscience.
[162] Giosuè Baggio,et al. Semantics and the electrophysiology of meaning: Tense, aspect, event structure , 2004 .
[163] J. P. van Dijk,et al. On the number of motor units. , 2010 .
[164] P. Mitra,et al. Analysis of dynamic brain imaging data. , 1998, Biophysical journal.
[165] A. Snik,et al. On the role of eye and head position in spatial localisation behaviour , 2011 .
[166] W. Klimesch. EEG alpha and theta oscillations reflect cognitive and memory performance: a review and analysis , 1999, Brain Research Reviews.
[167] F. Wilcoxon. Individual Comparisons by Ranking Methods , 1945 .
[168] G L Shulman,et al. INAUGURAL ARTICLE by a Recently Elected Academy Member:A default mode of brain function , 2001 .
[169] Peter Hagoort,et al. When Elephants Fly: Differential Sensitivity of Right and Left Inferior Frontal Gyri to Discourse and World Knowledge , 2009, Journal of Cognitive Neuroscience.
[170] Bin He,et al. Negative covariation between task-related responses in alpha/beta-band activity and BOLD in human sensorimotor cortex: An EEG and fMRI study of motor imagery and movements , 2010, NeuroImage.
[171] T. Sejnowski,et al. Dynamic Brain Sources of Visual Evoked Responses , 2002, Science.
[172] J. Schoffelen,et al. Parieto‐occipital sources account for the increase in alpha activity with working memory load , 2007, Human brain mapping.
[173] Norio Fujimaki,et al. fMRI‐constrained MEG source imaging and consideration of fMRI invisible sources , 2005, Human brain mapping.
[174] Maximilian Reiser,et al. Single-trial coupling of the gamma-band response and the corresponding BOLD signal , 2010, NeuroImage.
[175] A. Engel,et al. Trial-by-Trial Coupling of Concurrent Electroencephalogram and Functional Magnetic Resonance Imaging Identifies the Dynamics of Performance Monitoring , 2005, The Journal of Neuroscience.
[176] H. J. Schriefers,et al. Word order and verb inflection in agrammatic sentence production , 2001 .
[177] J. Allman,et al. Mapping human visual cortex with positron emission tomography , 1986, Nature.
[178] B. Lapatki,et al. The facial musculature. Characterisation at a motor unit level. , 2010 .
[179] I. Fried,et al. Coupling Between Neuronal Firing, Field Potentials, and fMRI in Human Auditory Cortex , 2005, Science.
[180] G. Nolte. The magnetic lead field theorem in the quasi-static approximation and its use for magnetoencephalography forward calculation in realistic volume conductors. , 2003, Physics in medicine and biology.
[181] Karl J. Friston,et al. Dynamic causal modelling , 2003, NeuroImage.
[182] Karl J. Friston,et al. Hemodynamic correlates of EEG: A heuristic , 2005, NeuroImage.
[183] B. Gaszner,et al. Plastic responses to stress by the rodent urocortinergic Edinger-Westphal nucleus , 2008 .
[184] A. Friederici,et al. Noise affects auditory and linguistic processing differently: an MEG study , 2000, Neuroreport.
[185] Karl J. Friston,et al. Evoked brain responses are generated by feedback loops , 2007, Proceedings of the National Academy of Sciences.
[186] R. Oostenveld,et al. Nonparametric statistical testing of EEG- and MEG-data , 2007, Journal of Neuroscience Methods.
[187] A. Friederici,et al. The functional neuroanatomy of novelty processing: integrating ERP and fMRI results. , 1999, Cerebral cortex.
[188] Robert Desimone,et al. Parallel and Serial Neural Mechanisms for Visual Search in Macaque Area V4 , 2005, Science.
[189] D. Norris,et al. Layer‐specific BOLD activation in human V1 , 2010, Human brain mapping.