Intracranially recorded ictal direct current shifts may precede high frequency oscillations in human epilepsy

[1]  Ayako Ochi,et al.  Dynamic Changes of Ictal High‐Frequency Oscillations in Neocortical Epilepsy: Using Multiple Band Frequency Analysis , 2007, Epilepsia.

[2]  Michel Le Van Quyen,et al.  Analysis of dynamic brain oscillations: methodological advances , 2007, Trends in Neurosciences.

[3]  Jeffery A. Hall,et al.  Interictal high‐frequency oscillations (80–500 Hz) are an indicator of seizure onset areas independent of spikes in the human epileptic brain , 2008, Epilepsia.

[4]  T. Takano,et al.  An astrocytic basis of epilepsy , 2005, Nature Medicine.

[5]  Mohamad Z Koubeissi,et al.  Role of ictal baseline shifts and ictal high‐frequency oscillations in stereo‐electroencephalography analysis of mesial temporal lobe seizures , 2014, Epilepsia.

[6]  R. Gumnit,et al.  CHANGES IN DIRECT CURRENT ACTIVITY DURING EXPERIMENTAL FOCAL SEIZURES. , 1965, Electroencephalography and clinical neurophysiology.

[7]  H. Luders DC recordings to localize the ictal onset zone A Ikeda , 2008 .

[8]  A. Flisberg,et al.  Infraslow EEG activity in burst periods from post asphyctic full term neonates , 2005, Clinical Neurophysiology.

[9]  H. Stefan,et al.  Ictal Onset Baseline Shifts and Infraslow Activity , 2012, Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society.

[10]  H. Parri,et al.  Spontaneous astrocytic Ca2+ oscillations in situ drive NMDAR-mediated neuronal excitation , 2001, Nature Neuroscience.

[11]  J. R. Hughes,et al.  A Newly Described lctal Pattern: The Initial lctal Slow Shift , 2005 .

[12]  E. Rodin,et al.  Optimal Evaluation of Digital Electroencephalograms , 2006, Clinical EEG and neuroscience.

[13]  B. Fisch,et al.  Ictal onset slow potential shifts recorded with hippocampal depth electrodes. , 2005, Neurology & clinical neurophysiology : NCN.

[14]  J. Gotman,et al.  Intracranial EEG with Very Low Frequency Activity Fails to Demonstrate an Advantage Over Conventional Recordings , 1999, Epilepsia.

[15]  E. Rodin,et al.  Ictal intracranial infraslow EEG activity , 2008, Clinical Neurophysiology.

[16]  Ernst Fernando Lopes Da Silva Niedermeyer,et al.  Electroencephalography, basic principles, clinical applications, and related fields , 1982 .

[17]  H. Lüders,et al.  Functional connectivity in the human language system: a cortico-cortical evoked potential study. , 2004, Brain : a journal of neurology.

[18]  Eishi Asano,et al.  Ictal high‐frequency oscillations at 80–200 Hz coupled with delta phase in epileptic spasms , 2011, Epilepsia.

[19]  Oliver Braganza,et al.  Albumin is taken up by hippocampal NG2 cells and astrocytes and decreases gap junction coupling , 2012, Epilepsia.

[20]  E.-J. Speckmann,et al.  Introduction of the neurophysiological basis of the EEG and DC potentials , 1993 .

[21]  T Hori,et al.  Focal ictal direct current shifts in human epilepsy as studied by subdural and scalp recording. , 1999, Brain : a journal of neurology.

[22]  J. Gotman,et al.  High frequency oscillations in intracranial EEGs mark epileptogenicity rather than lesion type. , 2009, Brain : a journal of neurology.

[23]  Mark R. Bower,et al.  Spatiotemporal neuronal correlates of seizure generation in focal epilepsy , 2012, Epilepsia.

[24]  G. Buzsáki,et al.  High-frequency network oscillation in the hippocampus. , 1992, Science.

[25]  Jerome Engel,et al.  Voltage Depth Profiles of High‐frequency Oscillations after Kainic Acid‐induced Status Epilepticus , 2007, Epilepsia.

[26]  B. Litt,et al.  High-frequency oscillations in human temporal lobe: simultaneous microwire and clinical macroelectrode recordings. , 2008, Brain : a journal of neurology.

[27]  M. Scherg,et al.  Intracranial broadband EEG analysis and surgical outcome: Case report , 2009, Clinical Neurophysiology.

[28]  Charles L. Wilson,et al.  Hippocampal and Entorhinal Cortex High‐Frequency Oscillations (100–500 Hz) in Human Epileptic Brain and in Kainic Acid‐Treated Rats with Chronic Seizures , 1999, Epilepsia.

[29]  Fabrice Wendling,et al.  Mechanisms of physiological and epileptic HFO generation , 2012, Progress in Neurobiology.

[30]  H. Sontheimer,et al.  Electrophysiological Changes That Accompany Reactive GliosisIn Vitro , 1997, The Journal of Neuroscience.

[31]  池田 昭夫 Subdural recording of ictal DC shifts in neocortical seizures in humans. , 1997 .

[32]  K. Miller,et al.  Ictal Localization by Invasive Recording of Infraslow Activity with DC-Coupled Amplifiers , 2009, Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society.

[33]  G. Buzsáki,et al.  Sharp wave-associated high-frequency oscillation (200 Hz) in the intact hippocampus: network and intracellular mechanisms , 1995, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[34]  Charles L. Wilson,et al.  High‐frequency oscillations in human brain , 1999, Hippocampus.

[35]  A. Bordey,et al.  Electrophysiological characteristics of reactive astrocytes in experimental cortical dysplasia. , 2001, Journal of neurophysiology.

[36]  A. Palmini,et al.  Terminology and classification of the cortical dysplasias , 2004, Neurology.

[37]  P. House,et al.  EEG Infraslow Activity in Absence and Partial Seizures , 2008, Clinical EEG and neuroscience.

[38]  H. Matsumoto,et al.  DC activity in the depth of an experimental epileptic focus. , 1970, Electroencephalography and clinical neurophysiology.

[39]  U. Heinemann,et al.  Peri-infarct blood–brain barrier dysfunction facilitates induction of spreading depolarization associated with epileptiform discharges , 2012, Neurobiology of Disease.

[40]  Ictal very low frequency oscillation in human epilepsy patients , 2011, Annals of neurology.

[41]  J. Shih,et al.  Signal Characteristics of Intraventricular Electrodes Recordings in Human Epilepsy , 2012, Clinical EEG and neuroscience.

[42]  E. Benarroch Astrocyte-neuron interactions , 2009, Neurology.

[43]  G F Ayala,et al.  Excitability changes and inhibitory mechanisms in neocortical neurons during seizures. , 1970, Journal of neurophysiology.

[44]  W. Bell,et al.  Surgical treatment of the epilepsies—Second edition , 1994 .

[45]  Song Zhang,et al.  Ictal high‐frequency oscillations in neocortical epilepsy: implications for seizure localization and surgical resection , 2011, Epilepsia.

[46]  S. W. Kuffler,et al.  Physiological properties of glial cells in the central nervous system of amphibia. , 1966, Journal of neurophysiology.

[47]  Song Zhang,et al.  Seizure Localization Using Broadband EEG: Comparison of Conventional Frequency Activity, High-Frequency Oscillations, and Infraslow Activity , 2012, Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society.

[48]  Akio Ikeda,et al.  Ictal wideband ECoG: Direct comparison between ictal slow shifts and high frequency oscillations , 2011, Clinical Neurophysiology.

[49]  Stefan Rampp,et al.  Seizure Onset Determination , 2009, Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society.

[50]  Hisako Fujiwara,et al.  Resection of ictal high‐frequency oscillations leads to favorable surgical outcome in pediatric epilepsy , 2012, Epilepsia.

[51]  Eishi Asano,et al.  Statistical mapping of ictal high‐frequency oscillations in epileptic spasms , 2011, Epilepsia.

[52]  E. Rodin,et al.  Peri-Ictal and Interictal, Intracranial Infraslow Activity , 2012, Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society.

[53]  Itzhak Fried,et al.  Analysis of Seizure Onset on the Basis of Wideband EEG Recordings , 2005, Epilepsia.

[54]  E. Rodin,et al.  Interictal infraslow activity in patients with epilepsy , 2014, Clinical Neurophysiology.