Schultheiss, Nathan W.
Phase Response Curves in Neuroscience
1. The Theory of Weakly Coupled Oscillators
Michael A. Schwemmer, Timothy J. Lewis
2. Phase Resetting Neural Oscillators: Topological Theory Versus the RealWorld
Trine Krogh-Madsen, Robert Butera, G. Bard Ermentrout, Leon Glass
3. A Theoretical Framework for the Dynamics of Multiple Intrinsic Oscillators in Single Neurons
Michiel W. H. Remme, Máté Lengyel, Boris S. Gutkin
4. History of the Application of the Phase Resetting Curve to Neurons Coupled in a Pulsatile Manner
Carmen C. Canavier, Srisairam Achuthan
5. Experimentally Estimating Phase Response Curves of Neurons: Theoretical and Practical Issues
Theoden Netoff, Michael A. Schwemmer, Timothy J. Lewis
6. A Geometric Approach to Phase Resetting Estimation Based on Mapping Temporal to Geometric Phase
Sorinel Adrian Oprisan
7. PRC Estimation with Varying Width Intervals
Daniel G. Polhamus, Charles J. Wilson, Carlos A. Paladini
8. Bayesian Approach to Estimating Phase Response Curves
Keisuke Ota, Toru Aonishi
9. Phase Response Curves to Measure Ion Channel Effects on Neurons
G. Bard Ermentrout, Bryce Beverlin, Theoden Netoff
10. Cellular Mechanisms Underlying Spike-Time Reliability and Stochastic Synchronization: Insights and Predictions from the Phase-Response Curve
Roberto F. Galán
11. Recovery of Stimuli Encoded with a Hodgkin–Huxley Neuron Using Conditional PRCs
Anmo J. Kim, Aurel A. Lazar
12. Cholinergic Neuromodulation Controls PRC Type in Cortical Pyramidal Neurons
Klaus M. Stiefel, Boris S. Gutkin
13. Continuum of Type I Somatic to Type II Dendritic PRCs; Phase Response Properties of a Morphologically Reconstructed Globus Pallidus Neuron Model
Nathan W. Schultheiss
14. Understanding Activity in Electrically Coupled Networks Using PRCs and the Theory of Weakly Coupled Oscillators
Timothy J. Lewis, Frances K. Skinner
15. The Role of Intrinsic Cell Properties in Synchrony of Neurons Interacting via Electrical Synapses
David Hansel, Germán Mato, Benjamin Pfeuty
16. A PRC Description of How Inhibitory Feedback Promotes Oscillation Stability
Farzan Nadim, Shunbing Zhao, Amitabha Bose
17. Existence and Stability Criteria for Phase-Locked Modes in Ring Networks Using Phase-Resetting Curves and Spike Time Resetting Curves
Sorinel Adrian Oprisan
18. Phase Resetting Curve Analysis of Global Synchrony, the Splay Mode and Clustering in
Srisairam Achuthan, Lakshmi Chandrasekaran, Carmen C. Canavier
19. Effects of the Frequency Dependence of Phase Response Curves on Network Synchronization
Christian G. Fink, Victoria Booth, Michal Zochowski
20. Phase-Resetting Analysis of Gamma-Frequency Synchronization of Cortical Fast-Spiking Interneurons Using Synaptic-like Conductance Injection
Hugo Zeberg, Nathan W. Gouwens, Kunichika Tsumoto, Takashi Tateno, Kazuyuki Aihara, Hugh P. C. Robinson
Avainsanat: Biomedicine, Neurosciences, Neurology
- Tekijä(t)
- Schultheiss, Nathan W.
- Prinz, Astrid A.
- Butera, Robert J.
- Julkaisija
- Springer
- Julkaisuvuosi
- 2012
- Kieli
- en
- Painos
- 1
- Sarja
- Springer Series in Computational Neuroscience
- Sivumäärä
- 13 sivua
- Kategoria
- Terveys, kauneus, muoti
- Tiedostomuoto
- E-kirja
- eISBN (PDF)
- 9781461407393