图书简介

Section 1: General overview; 1 Hans O. Luders: History of invasive EEG; 2 Samden D. Lhatoo, Nuria Lacuey, and Philippe Ryvlin: Principles of invasive EEG; 3 Gholam K. Motamedi, Jean Gotman, and Ronald P. Lesser: Technical and practical aspects of invasive recordings and brain stimulation; 4 Robert A. McGovern and Guy M. McKhann II: Subdural grid electrode placement: Approaches and complications; 5 Thomas Ostergard and Jonathan P. Miller: Depth electrodes: Approaches and complications; Section 2: Identifying and mapping epileptiform and non-epileptiform activity; 6 Birgit Frauscher and Francois Dubeau: Physiological activity and artifacts in the human epileptic brain studied with intracerebral depth electrodes EEG; 7 Beate Diehl and Catherine A. Scott: Physiological activity and artefacts in epileptic brain in subdural EEG; 8 Sebastian Bauer and Felix Rosenow: The irritative zone and seizure onset zone in subdural EEG; 9 Fabrice Bartolomei: The irritative, epileptogenic and ictal onset zones in depth EEG; 10 Andre Palmini and Eliseu Paglioli: The irritative zone and seizure onset zone in acute ECoG: The quest for relevant epileptogenic tissue; 11 Julia Jacobs: High frequency oscillations (HFO); 12 Shasha Wu, Vernon L. Towle, Jonathan P. Miller, and Hans O. Luders: Direct current shift recordings; 13 Patrick Landazuri and Lorella Minotti: Electrical stimulation for the mapping of the epileptogenic zone; 14 Jerome Engel, Jr., Richard Staba, and Itzhak Fried: Invasive EEG and hippocampal sclerosis; 15 Laura Tassi and Roberto Mai: Invasive EEG in cortical dysplasia; 16 Francine Chassoux, Elisabeth Landre, and Bertrand Devaux: Invasive EEG in tumoral epilepsy; 17 A. Simon Harvey: Invasive EEG in tuberous sclerosis; 18 Roberto Mai and Laura Tassi: Invasive EEG in gray matter heterotopia; 19 Louis Maillard and Georgia Ramantani: SEEG in polymicrogyria: When and how?; 20 Julia Scholly, Fabrice Bartolomei, and Edouard Hirsch: Invasive EEG in hypothalamic hamartoma; Section 3: Invasive EEG approaches in specific clinical situations; 21 Anne-Sophie Job-Chapron, Lorella Minotti, Dominique Hoffmann, and Philippe Kahane: SEEG in temporal lobe epilepsy; 22 Stephan U. Schuele: Subdural EEG in temporal lobe epilepsy; 23 Aileen McGonigal and Patrick Chauvel: SEEG in frontal lobe epilepsy; 24 Akio Ikeda: Subdural EEG in frontal lobe epilepsy; 25 Stefano Francione, Alexandra Liava, and Francesco Cardinale: SEEG in the posterior cortex epilepsies; 26 Americo C. Sakamoto, Tonicarlo R. Velasco, and Jorge Gonzalez-Martinez: Subdural EEG in posterior cortex epilepsy; 27 Philippe Ryvlin and Fabienne Picard: Invasive EEG investigation of the insula; 28 Bertrand Devaux, Francine Chassoux, Elisabeth Landre, and Baris Turak: Depth EEG in sensorimotor cortex epilepsy; 29 Jonathan Edwards, Ekrem Kutluay, and William A. Vandergrift: Invasive studies of sensory motor cortex epilepsy; Section 4: Human brain mapping; 30 Stephanie Gollwitzer and Hajo M. Hamer: Human brain mapping using subdural electrodes; 31 Milan Brazdil, Pavel Jurak, and Ivan Rektor: Intracranial event-related potentials; 32 Riki Matsumoto and Takeharu Kunieda: Cortico-cortical evoked potential mapping; 33 Jean-Philippe Lachaux: Dynamic spectral imaging: Online and offline functional brain mapping using high-frequency activity [50 Hz - 150 Hz] in SEEG; Section 5: Therapy using invasive EEG; 34 Marc Guenot and Pierre Bourdillon: Thermocoagulation of the ictal onset zone using SEEG (thermo-SEEG); 35 Mathieu Sprengers, Sofie Carrette, Kristl Vonck, and Paul Boon: Therapeutic stimulation of the ictal onset zone; Section 6: Special techniques and future prospects; 36 Michal T. Kucewicz, B. Michael Berry, and Gregory A. Worrell: Simultaneous macro- and micro-recordings; 37 Michelle L. Humeiden, Jorge E. Quintero, John T. Slevin, and Greg A. Gerhardt: Fast analytical sensing technology: Microelectrode-based recordings of tonic and phasic neurotransmitter signaling in the mamalian brain; 38 Olivier David: Mapping of seizure networks; 39 Fabrice Wendling, Pascal Benquet, and Fabrice Bartolomei: SEEG recordings: From signal processing to models of epileptogenic networks

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