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Beneficial Noise and Perilous Oscillations in the Nervous System: Noise-enhanced Inter-celullular Communication in Neuronal Networks and Oscillation Synchrony in Epileptic Tissue Frank Moss
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Beneficial Noise and Perilous Oscillations in the Nervous System: Noise-enhanced Inter-celullular Communication in Neuronal Networks and Oscillation Synchrony in Epileptic Tissue
Frank Moss
Computational modeling of cooperative dynamics in excitable systems is important for uncovering mechanisms that underlie perturbation propagation in the nervous system. In this dissertation, two spatially extended networks of FitzHugh-Nagumo neurons operating in the subexcitable and hyperexcitable regime are studied by computational methods, leading to two key conclusions. First, the length and speed of perturbation propagation in the subexcitable FitzHugh-Nagumo system is maximized by spatiotemporal noise of optimal intensity. This indicates that random fluctuations in neuronal excitability can enhance perturbation propagation in the nervous system. Second, defining novel measures to characterize the synchronization of hyperexcitable FitzHugh-Nagumo oscillator networks for various strengths of phase- attractive and phase-repulsive coupling, significant differences in calcium dynamics can be shown between astrocyte cultures originating from epileptic and normal brain tissue.
| Médias | Livres Paperback Book (Livre avec couverture souple et dos collé) |
| Validé | 24 juin 2010 |
| ISBN13 | 9783838342276 |
| Éditeurs | LAP Lambert Academic Publishing |
| Pages | 104 |
| Dimensions | 225 × 6 × 150 mm · 173 g |
| Langue et grammaire | Allemand |
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