| | Models |
| 1. |
3D model of the olfactory bulb (Migliore et al. 2014)
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| 2. |
A model for focal seizure onset, propagation, evolution, and progression (Liou et al 2020)
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| 3. |
A network of AOB mitral cells that produces infra-slow bursting (Zylbertal et al. 2017)
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| 4. |
ACh modulation in olfactory bulb and piriform cortex (de Almeida et al. 2013;Devore S, et al. 2014)
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| 5. |
Cerebellar cortex oscil. robustness from Golgi cell gap jncs (Simoes de Souza and De Schutter 2011)
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| 6. |
Cerebellar granular layer (Maex and De Schutter 1998)
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| 7. |
Changes of ionic concentrations during seizure transitions (Gentiletti et al. 2016)
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| 8. |
Computing with neural synchrony (Brette 2012)
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| 9. |
Convergence regulates synchronization-dependent AP transfer in feedforward NNs (Sailamul et al 2017)
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| 10. |
Dentate Gyrus Feed-forward inhibition (Ferrante et al. 2009)
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| 11. |
Different roles for inhibition in the rhythm-generating respiratory network (Harris et al 2017)
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| 12. |
Dynamics in random NNs with multiple neuron subtypes (Pena et al 2018, Tomov et al 2014, 2016)
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| 13. |
Emergence of physiological oscillation frequencies in neocortex simulations (Neymotin et al. 2011)
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| 14. |
Failure of Deep Brain Stimulation in a basal ganglia neuronal network model (Dovzhenok et al. 2013)
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| 15. |
Fast oscillations in inhibitory networks (Maex, De Schutter 2003)
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| 16. |
Gamma oscillations in hippocampal interneuron networks (Bartos et al 2002)
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| 17. |
Gamma oscillations in hippocampal interneuron networks (Wang, Buzsaki 1996)
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| 18. |
Gap junction coupled network of striatal fast spiking interneurons (Hjorth et al. 2009)
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| 19. |
Gating of steering signals through phasic modulation of reticulospinal neurons (Kozlov et al. 2014)
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| 20. |
Grid cell oscillatory interference with noisy network oscillators (Zilli and Hasselmo 2010)
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| 21. |
Homosynaptic plasticity in the tail withdrawal circuit (TWC) of Aplysia (Baxter and Byrne 2006)
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| 22. |
Hopfield and Brody model (Hopfield, Brody 2000)
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| 23. |
Hopfield and Brody model (Hopfield, Brody 2000) (NEURON+python)
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| 24. |
Ketamine disrupts theta modulation of gamma in a computer model of hippocampus (Neymotin et al 2011)
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| 25. |
Large scale model of the olfactory bulb (Yu et al., 2013)
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| 26. |
Lateral dendrodenditic inhibition in the Olfactory Bulb (David et al. 2008)
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| 27. |
Loss of phase-locking in non-weakly coupled inhib. networks of type-I neurons (Oh and Matveev 2009)
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| 28. |
Microsaccades and synchrony coding in the retina (Masquelier et al. 2016)
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| 29. |
Model of the cerebellar granular network (Sudhakar et al 2017)
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| 30. |
Modeling the effects of dopamine on network synchronization (Komek et al. 2012)
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| 31. |
Multi-area layer-resolved spiking network model of resting-state dynamics in macaque visual cortex
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| 32. |
Network bursts in cultured NN result from different adaptive mechanisms (Masquelier & Deco 2013)
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| 33. |
Network model of the granular layer of the cerebellar cortex (Maex, De Schutter 1998)
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| 34. |
Neural model of frog ventilatory rhythmogenesis (Horcholle-Bossavit and Quenet 2009)
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| 35. |
Olfactory bulb mitral cell gap junction NN model: burst firing and synchrony (O`Connor et al. 2012)
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| 36. |
Olfactory bulb mitral cell: synchronization by gap junctions (Migliore et al 2005)
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| 37. |
Olfactory Bulb Network (Davison et al 2003)
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| 38. |
Orientation selectivity in inhibition-dominated recurrent networks (Sadeh and Rotter, 2015)
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| 39. |
Oscillations, phase-of-firing coding and STDP: an efficient learning scheme (Masquelier et al. 2009)
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| 40. |
Pallidostriatal projections promote beta oscillations (Corbit, Whalen, et al 2016)
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| 41. |
Parallel odor processing by mitral and middle tufted cells in the OB (Cavarretta et al 2016, 2018)
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| 42. |
Persistent synchronized bursting activity in cortical tissues (Golomb et al 2005)
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| 43. |
Phase precession through acceleration of local theta rhythm (Castro & Aguiar 2011)
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| 44. |
Purkinje neuron network (Zang et al. 2020)
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| 45. |
Pyramidal neuron, fast, regular, and irregular spiking interneurons (Konstantoudaki et al 2014)
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| 46. |
Rapid desynchronization of an electrically coupled Golgi cell network (Vervaeke et al. 2010)
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| 47. |
Relative spike time coding and STDP-based orientation selectivity in V1 (Masquelier 2012)
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| 48. |
Reverberatory bursts propagation and synchronization in developing cultured NNs (Huang et al 2016)
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| 49. |
Sensory feedback in an oscillatory interference model of place cell activity (Monaco et al. 2011)
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| 50. |
Single neuron properties shape chaos and signal transmission in random NNs (Muscinelli et al 2019)
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| 51. |
Sleep-wake transitions in corticothalamic system (Bazhenov et al 2002)
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| 52. |
Small world networks of Type I and Type II Excitable Neurons (Bogaard et al. 2009)
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| 53. |
Spike-Timing-Based Computation in Sound Localization (Goodman and Brette 2010)
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| 54. |
Spikes,synchrony,and attentive learning by laminar thalamocort. circuits (Grossberg & Versace 2007)
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| 55. |
Striatal GABAergic microcircuit, dopamine-modulated cell assemblies (Humphries et al. 2009)
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| 56. |
Striatal NN model of MSNs and FSIs investigated effects of dopamine depletion (Damodaran et al 2015)
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| 57. |
Structure-dynamics relationships in bursting neuronal networks revealed (Mäki-Marttunen et al. 2013)
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| 58. |
Synaptic gating at axonal branches, and sharp-wave ripples with replay (Vladimirov et al. 2013)
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| 59. |
Synchronization by D4 dopamine receptor-mediated phospholipid methylation (Kuznetsova, Deth 2008)
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| 60. |
Synchrony by synapse location (McTavish et al. 2012)
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| 61. |
Thalamocortical and Thalamic Reticular Network (Destexhe et al 1996)
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| 62. |
Thalamocortical augmenting response (Bazhenov et al 1998)
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