Atlas of Brain Mapping
Topographic Mapping of EEG and Evoked Potentials
Published on 19. January 2012
Book
Paperback/Softback
XI, 103 pages
978-3-642-76045-7 (ISBN)
Description
From its discovery in 1929 by Hans Berger until the late 1960s, when sensory visual and auditory evoked potentials were dis covered and became popular, the EEG was the most important method of neurophysiological examination. W-ith the advent of computer technology in the 1980s, it became possible to plot the potential fields of the EEG onto models of the scalp. This plot ting of information as neuroimages followed the structural and functional techniques of Cf, MRI, PET and SPECf. The success of this method, which began in the early 1980s, has led to the brain mapping of EEGs and EPs being increasingly used for di agnosistic purposes in neurology, psychiatry and psychopharma cology. The pioneers of this method believed in it and were commit ted to its success. However, many traditionalists felt that it gave no new information and so regarded the method with scepticism. Some found both the coloured maps and the mapping technique misleading, which led to unnecessary conflict between mappers and their chromophobic oponents. Emotions have run so high that some professional bodies have justifiably adopted guidelines and warned of the misuse of the method.
More details
Edition
Softcover reprint of the original 1st ed. 1991
Language
English
Place of publication
Berlin
Germany
Publishing group
Springer Berlin
Target group
Professional and scholarly
Research
Illustrations
11 s/w Abbildungen
XI, 103 p. 11 illus.
Dimensions
Height: 242 mm
Width: 170 mm
Thickness: 7 mm
Weight
221 gr
ISBN-13
978-3-642-76045-7 (9783642760457)
DOI
10.1007/978-3-642-76043-3
Schweitzer Classification
Other editions
Additional editions
Konrad Maurer | Thomas Dierks
Atlas of Brain Mapping
Topographic Mapping of EEG and Evoked Potentials
Book
09/1991
Springer
€85.55
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Content
1 Introduction.- 2 History.- 3 Definition and Terminology.- 4 Methodology.- 4.1 Introduction.- 4.2 General Conditions.- 4.3 Calibration.- 4.4 Electrodes.- 4.5 References.- 4.6 Baseline.- 4.7 Artifacts.- 5 Data Acquisition and Signal Analysis.- 5.1 Analog to Digital Conversion.- 5.2 Aliasing.- 5.3 Amplitude Mapping (Time Domain).- 5.4 Frequency Mapping (Frequency Domain).- 5.5 Map Construction (Spatial Domain).- 5.6 Map Features.- 5.7 Mapping of Evoked Potentials.- 6 Storing of Data.- 7 Statistical Procedures.- 8 Practical Application: Findings in Normal Subjects.- 8.1 Introduction.- 8.2 EEG Features in the Time Domain.- 8.3 EEG Features in the Frequency Domain.- 8.4 EP Features.- 8.5 EEG Mapping After Sensory, Motor, and Mental Activation and due to Psychotherapeutic Interventions.- 8.6 Sleep Features.- 9 Findings in Diseases.- 9.1 Introduction.- 9.2 Evaluation of EEG and EP Maps.- 9.3 Clinical Examples.- 9.4 EEG and EP Mapping During Normal Aging.- 9.5 EEG and P300 Topography in Dementia of Alzheimer Type.- 9.6 EEG and EP Mapping in Psychoses.- 9.7 EEG and EP Mapping in Clinical Psychopharmacology.- 10 Advanced Methods.- 10.1 Dipole Source Estimation.- 10.2 Neurometrics.- 10.3 Determining Differences Between Maps.- References.