Clinical Magnetoencephalography and Magnetic Source Imaging
Cambridge University Press, 8/13/2009
EAN 9780521873758, ISBN10: 0521873754
Hardcover, 220 pages, 24.8 x 15.6 x 1.8 cm
Language: English
This is the first volume to explore the field of clinical magnetoencephalography (MEG) and magnetic source imaging (MSI), the techniques measuring the magnetic fields generated by neuronal activity in the brain. Describing the empirical knowledge gained during the last two decades, this book will serve as a basis for the training of clinicians and scientists entering this new and exciting field. The book covers the methods for recording MEG and performing MSI in a clinical setting and includes practical examples of data collection and analysis. It explains why MEG should be used in the evaluation and treatment of patients being considered for epilepsy surgery, concluding with a section describing the potential for future applications of these methods. This is essential reading for graduate students in clinical neuroscience, residents in neurology and psychiatry, neuroradiology and neurosurgery, specialists in neurophysiology and epilepsy, and clinicians in a wide range of related brain sciences.
Preface
Part I. The Method
1. Basic concepts
2. The nature and origin of magnetic signals
3. Recording the magnetic flux
4. Overview of MSI using the single equivalent current dipole (ECD) model as an example
5. The fundamental problems of MSI
6. Head models
7. Source models - discrete source models
8. Source models - distributed source models
9. Source models - beamformers
10. Pragmatic features of the clinical use of MEG/MSI
References
Part II. Spontaneous Brain Activity
11. MEG recordings of spontaneous brain activity - general considerations
12. Normal spontaneous MEG frequently encountered artefacts
13. Spontaneous MEG morphology
14. Abnormal spontaneous MEG
15. Contributions of MEG to the surgical management of epilepsy - general considerations
16. MEG investigations in lesional epilepsies
17. MEG investigations in nonlesional epilepsies
18. Pediatric nonlesional epilepsy surgery
References
Part III. Evoked Magnetic Fields
19. Recording evoked magnetic fields (EMFs)
20. Somatosensory evoked fields (SEFs)
21. Movement-related magnetic fields (MRFs) - motor evoked fields (MEFs)
22. Auditory evoked magnetic fields (AEFs)
23. Visual evoked magnetic fields (VEFs)
24. Language-related brain magnetic fields (LRFs)
25. Alternative techniques for evoked magnetic field data - future directions
References
Postscript
Future applications of clinical MEG
Overview
Normal aging and neurodegenerative disorders
Neurodevelopmental disorders
Psychiatric disorders
Neurological disorders
Functional reorganization
References
Index.