- 444 pages
- English
- PDF
- Only available on web
Topographic Mapping of Brain Electrical Activity
About This Book
Topographic Mapping of Brain Electrical Activity presents the state of topographic mapping. It discusses its contributions to brain research. It addresses its research and clinical applications. It also explains completely the brain electrical activity mapping as a tool used in the diagnosis and treatment of neurological dysfunction Some of the topics covered in the book are the color imaging of scalp somatosensory evoked potential fields; visual evoked potential topography; spatial analysis of EEG and evoked potential data; intra-individual changes in EEG during mental performance; and changes in transversal coherence. The event-related desynchronization mapping of visualization of cortical activation patterns is fully covered. The spatiotemporal mapping display is discussed in detail. The text describes in depth the physical aspects of EEG data as a basis for topographic mapping. The human scalp field injection experiments are presented completely. A chapter is devoted to the classification strategies for topographic mapping data. Another section focuses on the topological factors. The book can provide useful information to radiologists, neurologists, students, and researchers.
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Table of contents
- Front Cover
- Topographic Mapping of Brain Electrical Activity
- Copyright Page
- Table of Contents
- Contributing Authors
- Preface
- Chapter 1. Color Imaging of Scalp Somatosensory Evoked Potential Fields
- Chapter 2. Visual Evoked Potential Topography: Methods and Results
- Chapter 3. Spatial Analysis of EEG and Evoked Potential Data
- Chapter 4. EEG Topography and Mental Performance
- Chapter 5. Event-Related Desynchronization Mapping: Visualization of Cortical Activation Patterns
- Chapter 6. Applications and Perspectives of EEG Cartography
- Chapter 7. Selected Applications of a Topographic Approach to Event-Related Potentials
- Chapter 8. EEG Modifications during Visual and Motor Reactions Observed by Beta, Alpha, and Theta Quantification and Topographic Mapping
- Chapter 9. Physical Aspects of EEG Data as a Basis for Topographic Mapping
- Chapter 10. EEG Topography: Experience and Comments
- Chapter 11. A Simple Add-on Personal Computer Procedure for Color Displays of Electrophysiological Data: Advantages and Pitfalls
- Chapter 12. From Entertainment to Education, from Education to Enlightenment
- Chapter 13. Classification Strategies for Topographic Mapping Data
- Chapter 14. Single-Trial Event-Related Potentials: Statistical Classification and Topography
- Chapter 15. Spatiotemporal Analysis of Cerebral Evoked Potentials
- Chapter 16. Geometric and Scaling Issues in Topographic Electroencephalography
- Chapter 17. Issues in Topographie Analysis of EEG Activity
- Chapter 18. Clinical Application of Computed EEG Topography
- Chapter 19. Topographic EEG Correlates of Cerebral Blood Flow and Oxygen Consumption in Patients with Neuropsychological Disorders
- Chapter 20. Focal Cortical Arousal in the Schizophrenias
- Chapter 21. The Use of Topographic Mapping Techniques in Clinical Studies in Psychiatry
- Chapter 22. Topographic Mapping in Depressed Patients
- Chapter 23. Progress in Topographic Mapping of Neurophysiological Data: Comments
- Chapter 24. Progress in Topographic Mapping of Neurophysiological Data: A Critique
- Chapter 25. Brain Electrical Activity Mapping: Issues and Answers
- Index