Niedermeyers Electroencephalography:: Basic Principles, Clinical Applications, and Related Fields, Seventh Edition keeps the clinical neurophysiologist on the forefront of medical advancements. This authoritative text covers basic neurophysiology, neuroanatomy, and neuroimaging to provide a better understanding of clinical neurophysiological findings. This edition further delves into current state-of-the-art recording EEG activity both in the normal clinical environment and uniquesituations such as the intensive care unit, operating rooms, and epilepsy monitoring suites. As computer technology evolves, so does the integration of analytical methods that significantly affect the readers interpretations of waveforms and trends that are occurring on long-term monitoring sessions. Compiled and edited by Donald L. Schomer and Fernando H. Lopes da Silva, along with a global team of experts, they collectively bring insight to crucial sections including basic principles of EEG and MEG, normal EEG, EEG in a clinical setting, clinical EEG in seizures and epilepsy, complementary and special techniques, event-related EEG phenomena, and shed light on the future of EEG and clinical neurophysiology. Akin to an encyclopedia of everything EEG, this comprehensive work is perfect forneurophysiology fellows, as well as neurology, neurosurgery, and general medical residents, and for the interns and medical students, and is a one-stop-shop for anyone training in EEG or preparing for neurophysiology or epilepsy board exams.
Contributors List; Part I:: Basic Principles; Chapter 1:: Historical Aspects of Electroencephalography; Raoul Sutter, MD, Peter W. Kaplan, MB, BS, FRCP, and Donald L. Schomer, MD; Chapter 2:: Cellular Substrates of Brain Rhythms; Florin Amzica, PhD and Fernando H. Lopes da Silva, MD, PhD; Chapter 3:: Dynamics of EEGs as Signals of Neuronal Populations:: Models and Theoretical Considerations; Fabrice Wendling, MD, PhD and Fernando H. Lopes da Silva, MD, PhD; Chapter 4:: Biophysical Aspects of EEG and MEG Generation; Wytse J. Wadman PhD and Fernando H. Lopes da Silva, MD, PhD; Chapter 5:: Recording Principles:: Analog and Digital Principles; Polarity and Field Determinations; Multimodal Monitoring, Polygraphy (EOG, EMG, ECG, SaO2); Donald L. Schomer, MD, Charles M. Epstein, MD, Susan T. Herman, MD, and Bruce J. Fisch, MD; Chapter 6:: Anterotemporal, Basal Temporal, Nasopharyngeal and Sphenoidal Electrodes and High-Density Arrays; Andrew Schomer, MD, Margitta Seeck, MD, Andres M. Kanner, MD, FANA, and Donald L. Schomer, MD; Part II:: Normal EEG; Chapter 7:: Normal EEG and Sleep:: Preterm; Term; Infant; Adolescent; Phillip L. Pearl, MD, Jules Beal, MD, Monika Eisermann, MD, Sunita Misra, MD, PhD, Perrine Plouin, MD, Solomon L. Moshe, MD, James J. Riviello, Jr., MD, Douglas R. Nordli, Jr., MD, and Eli M. Mizrahi, MD; Chapter 9:: Validating Biomarkers and Diagnostic Tests in Clinical Neurophysiology:: Developing Strong Experimental Designs and Recognizing Confounds; Joshua B. Ewen, MD and Sandor Beniczky, MD, PhD; Chapter 10:: EEG Activation Methods; Mouhsin M. Shafi, MD, PhD and M. Brandon Westover, MD, PhD; Chapter 11:: Artifacts of Recording and Common Errors in Interpretation; William O. Tatum, DO, Claus Reinsberger, MD, PhD, and Barbara A. Dworetzky, MD; Part III:: Clinical EEG:: General Topics; Chapter 12:: Patterns of Unclear Significance; Jonathan Charles Edwards, MD and Ekrem Kutluay, MD; Chapter 13:: The EEG in Degenerative Disorders of the CNS:: Congenital Malformations, Neurocutaneous Disorders, Inherited Disorders of Metabolism, Cerebral Palsy, and Autism Spectrum Disorders; John Gaitanis, MD, Phillip L. Pearl, MD, and Howard Goodkin, MD; Chapter 14:: Brain Tumors and Other Space-Occupying Lesions; Adam L. Hartman, MD and Ronald P. Lesser, MD; Chapter 15:: EEG in Inflammatory Disorders, Cerebrovascular Diseases, Trauma and Migraine.; Marian Galovic, MD, Bettina Schmitz, MD, and Barbara Tettenborn, MD; Chapter 16:: EEG In Dementing Disorders; Claudio Babiloni, MD, Claudio Del Percio, MD, and Ana Bujan, MD; Chapter 17:: Electroencephalography in Metabolic Disorders, Intoxications, and Epileptic Encephalopathies; Raoul Sutter, MD, Trudy Pang, MD, and Peter W. Kaplan, MB, BS, FRCP; Part IV:: Clinical EEG in the Evaluation of Seizures, Epilepsy, Acute Brain Insults and Related Disorders; Chapter 18:: Seizures and Epilepsy in Preterm and term Neonates, infants, children and Adolescents; Jules C. Beal, MD, Monika Eisermann, MD, Sunita Misra, MD, PhD, Phillip L. Pearl, MD, Perrine Plouin, MD, Eli M. Mizrahi, MD, and Solomon L. Moshe, MD; Chapter 19:: The Application of EEG to Epilepsy in Adults and the Elderly; Vaishnav Krishnan MD, PhD, Bernard S. Chang, MD, MMSc, and Donald L. Schomer, MD; Chapter 20:: Convulsive Status Epilepticus; Frank W. Drislane, MD, Susan T. Herman, MD, and Peter W. Kaplan, MB, FRCP; Chapter 21:: Nonconvulsive Status Epilepticus; Frank W. Drislane, MD, Susan T. Herman, MD, and Peter W. Kaplan, MB, FRCP; Chapter 22:: EEG in the ICU:: Anoxia, Coma, Brain Death, and Related Disorders; Gamaleldin M. Osman, MD, James J Riviello, Jr, MD, and Lawrence J. Hirsch, MD; Chapter 23:: EEG Based Anticipation and Control of Seizures; Stiliyan Kalitzin, PhD and Fernando Lopes da Silva, MD, PhD; Chapter 24:: Non-Epileptic Events; David K. Chen, MD and W. Curt LaFrance, Jr., MD, MPH; Chapter 25:: EEG in Psychiatric Disorders; Andres M. Kanner, MD, FANA and Adriana Bermeo-Ovalle, MD; Chapter 26:: Standardizing EEG Interpretation and Reporting; Sandor Beniczky, MD, PhD, Harald Aurlien, MD, PhD, Jan Br?gger, MD, PhD, Ronit Pressler, MD, PhD, MRCPCH, and Lawrence J. Hirsch MD; Chapter 27:: Automatic Integrated EEG Interpretation and Reporting; Masatoshi Nakamura, MD and Hiroshi Shibasaki, MD; Part V:: Complementary and Special Techniques; Chapter 28:: Transcranial Electrical and Magnetic and Stimulation; Alexander Rotenberg, MD, PhD, Alvaro Pascual-Leone, MD, PhD, and Alan D. Legatt, MD, PhD; Chapter 29:: Intracranial EEG Monitoring:: Depth, Subdural, Foramen Ovale, and Microarrays; Margitta Seeck, MD and Donald L. Schomer, MD; Chapter 30:: Electrocorticography; Marc R. Nuwer, MD, PhD and Stephan Schuele, MD, MPH; Chapter 31:: Principles and Techniques for Long-Term EEG Recording (EMU, ICU, Ambulatory); Marc R. Nuwer, MD, PhD, Ronald Emerson, MD, and Cecil D. Hahn, MD, MPH; Chapter 32:: Infraslow EEG activity; Sampsa Vanhatalo, MD and J.Matias Palva, MD; Chapter 33:: High Frequency EEG Activity; Jean Gotman, PhD and Nathan E. Crone, MD; Chapter 34:: Intraoperative Monitoring of Central Neurophysiology; Alan D. Legatt, MD, PhD, Marc R. Nuwer, MD, PhD, and Ronald G. Emerson, MD; Chapter 35:: Magnetoencephalography:: Methods and Clinical Aspects; Riitta Hari, MD, PhD; Chapter 36:: Polysomnography:: Technical and Clinical Aspects; Sudhansu Chokroverty, MD and Robert Vertugno, MD; Chapter 37:: The Neurophysiological Basis of Myoclonus; Phillip D. Thompson, MD, Hiroshi Shibasaki, MD, and Mark Hallett, MD; Chapter 38:: Recording Techniques related to Deep Brain Stimulation for Movement Disorders and Responsive Stimulation for Epilepsy; Jay L. Shils, PhD, DABNM, FASNM, FACNS, Sepehr Sani, MD, Ryan Kochanski, MD, Mena Kerolus, MD, and Jeffrey E. Arle MD, PhD; Part VI:: Evoked Potentials and Event-Related EEG Phenomena; Chapter 39:: Event-Related Potentials:: General Aspects of Methodology and Quantification; Marco Congendo, PhD and Fernando H. Lopes da Silva, MD, PhD; Chapter 40:: EEG Event-Related Desynchronization (ERD) and Event-Related Synchronization; Gert Pfurtscheller, MD, PhD and Fernando Lopes da Silva, MD, PhD; Chapter 41:: Visual Evoked Potentials and Electroretinograms; Gastone G. Celesia, MD and Neal S. Peachey, MD; Chapter 42:: Brainstem Auditory Evoked Potentials and Other Auditory Evoked Potentials; Abeer J. Hani, MD and Aatif M. Husain, MD; Chapter 43:: Somatosensory and Pain Evoked Potentials:: Normal Responses, Abnormal Waveforms, and Clinical Applications in Neurological Diseases; Francois Maugui?re, MD and Luis Garcia-Larrea, MD; Part VII:: New Frontiers in Clinical Neurophysiology/EEG; Chapter 44:: EEG Analysis:: Theory and Practice; Fabrice Wendling, Eng, PhD, Marco Congendo, PhD, and Fernando H. Lopes da Silva, MD, PhD; Chapter 45:: EEG Mapping and Source Imaging; Christoph M. Michel, PhD and Bin He, PhD; Chapter 46:: Combination of Brain Functional Imaging Techniques:: EEG/MEG, fMRI, PET, SPECT - Clinical Applications in Neurology; Margitta Seeck, MD, L. Spinelli, PhD, Jean Gotman, PhD, and Fernando H. Lopes da Silva, MD; Chapter 47:: EEG-Based Brain-Computer Interfaces; Gert Pfurtscheller, MD, PhD, Clemens Brunner, MD, and Christa Neuper, MD; Chapter 48:: Neurocognitive Processes; Fernando H. Lopes da Silva, MD, PhD and Eric Halgren, PhD;
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