Epilepsy as a Dynamic Disease
Epilepsy as a Dynamic Disease
A "brain defibrillator" may be closer than we think. An epileptic seizure involves a paroxysmal change in the activity of millions of neurons. Feedback control of seizures would require an implantable device that could predict seizure occurrence and then deliver a stimulus to abort it. To examine the feasibility of building such a device, this text brings together experts in epilepsy, bio-engineering, and dynamical systems theory. Topics include the development of epileptic systems, seizure prediction, neural synchronization, wave phenomena in excitable media, and the control of complex neural dynamics using brief electrical stimuli.
3 Dynamic Epileptic Systems Versus Static Epileptic Foci?
4 Neuroglia, the Other Brain Cells
5 The Electroencephalogram (EEG): A Measure of Neural Synchrony
6 Electrocorticographic Coherence Patterns of Epileptic Seizures
7 Synchronization of Synaptically-Coupled Neural Oscillators
8 Controling Neural Synchrony with Periodic and Aperiodic Stimuli
9 Modeling Pattern Formation in Excitable Media: The Legacy of Norbert Wiener
10 Are Cardiac Waves Relevant to Epileptic Wave Propagation?
11 Pattern Formation in the Microbial World: Dictyostelium Discoideum
12 Predicting Epileptic Seizures
13 Comparison of Methods for Seizure Detection
14 Direct Deep Brain Stimulation: First Steps Towards the Feedback Control of Seizures
15 Seizure Control Using Feedback and Electric Fields
16 Aborting Seizures with a Single Stimulus: The Case for Multistability
17 Unstable Periodic Orbits (UPOs) and Chaos Control in Neural Systems
18 Prospects for Building a Therapeutic Cortical Stimulator
19 Brain Defibrillators: Synopsis, Problems and Future Directions
Color Plates
References.
1 Medically Intractable Epilepsy
2 Insights into Seizure Propagation from Axonal Conduction Times3 Dynamic Epileptic Systems Versus Static Epileptic Foci?
4 Neuroglia, the Other Brain Cells
5 The Electroencephalogram (EEG): A Measure of Neural Synchrony
6 Electrocorticographic Coherence Patterns of Epileptic Seizures
7 Synchronization of Synaptically-Coupled Neural Oscillators
8 Controling Neural Synchrony with Periodic and Aperiodic Stimuli
9 Modeling Pattern Formation in Excitable Media: The Legacy of Norbert Wiener
10 Are Cardiac Waves Relevant to Epileptic Wave Propagation?
11 Pattern Formation in the Microbial World: Dictyostelium Discoideum
12 Predicting Epileptic Seizures
13 Comparison of Methods for Seizure Detection
14 Direct Deep Brain Stimulation: First Steps Towards the Feedback Control of Seizures
15 Seizure Control Using Feedback and Electric Fields
16 Aborting Seizures with a Single Stimulus: The Case for Multistability
17 Unstable Periodic Orbits (UPOs) and Chaos Control in Neural Systems
18 Prospects for Building a Therapeutic Cortical Stimulator
19 Brain Defibrillators: Synopsis, Problems and Future Directions
Color Plates
References.
ISBN | 978-3-642-07665-7 |
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Artikelnummer | 9783642076657 |
Medientyp | Buch |
Copyrightjahr | 2010 |
Verlag | Springer, Berlin |
Umfang | XXXII, 417 Seiten |
Abbildungen | XXXII, 417 p. |
Sprache | Englisch |