| | Models |
| 1. |
A Model Circuit of Thalamocortical Convergence (Behuret et al. 2013)
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| 2. |
A multilayer cortical model to study seizure propagation across microdomains (Basu et al. 2015)
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| 3. |
A single column thalamocortical network model (Traub et al 2005)
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| 4. |
A two-layer biophysical olfactory bulb model of cholinergic neuromodulation (Li and Cleland 2013)
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| 5. |
A unified thalamic model of multiple distinct oscillations (Li, Henriquez and Fröhlich 2017)
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| 6. |
Activity constraints on stable neuronal or network parameters (Olypher and Calabrese 2007)
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| 7. |
Activity patterns in a subthalamopallidal network of the basal ganglia model (Terman et al 2002)
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| 8. |
Axonal gap junctions produce fast oscillations in cerebellar Purkinje cells (Traub et al. 2008)
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| 9. |
Basal ganglia-thalamic network model for deep brain stimulation (So et al. 2012)
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| 10. |
Biophysically realistic neural modeling of the MEG mu rhythm (Jones et al. 2009)
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| 11. |
Ca+/HCN channel-dependent persistent activity in multiscale model of neocortex (Neymotin et al 2016)
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| 12. |
Collection of simulated data from a thalamocortical network model (Glabska, Chintaluri, Wojcik 2017)
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| 13. |
Computer model of clonazepam`s effect in thalamic slice (Lytton 1997)
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| 14. |
Convergence regulates synchronization-dependent AP transfer in feedforward NNs (Sailamul et al 2017)
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| 15. |
Cortex-Basal Ganglia-Thalamus network model (Kumaravelu et al. 2016)
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| 16. |
Cortical Basal Ganglia Network Model during Closed-loop DBS (Fleming et al 2020)
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| 17. |
Current Dipole in Laminar Neocortex (Lee et al. 2013)
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| 18. |
Deconstruction of cortical evoked potentials generated by subthalamic DBS (Kumaravelu et al 2018)
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| 19. |
Dentate gyrus network model (Santhakumar et al 2005)
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| 20. |
Dentate gyrus network model (Tejada et al 2014)
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| 21. |
Engaging distinct oscillatory neocortical circuits (Vierling-Claassen et al. 2010)
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| 22. |
Failure of Deep Brain Stimulation in a basal ganglia neuronal network model (Dovzhenok et al. 2013)
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| 23. |
High frequency stimulation of the Subthalamic Nucleus (Rubin and Terman 2004)
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| 24. |
Inferior Olive, subthreshold oscillations (Torben-Nielsen, Segev, Yarom 2012)
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| 25. |
Investigation of different targets in deep brain stimulation for Parkinson`s (Pirini et al. 2009)
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| 26. |
Knox implementation of Destexhe 1998 spike and wave oscillation model (Knox et al 2018)
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| 27. |
Long time windows from theta modulated inhib. in entorhinal–hippo. loop (Cutsuridis & Poirazi 2015)
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| 28. |
MEG of Somatosensory Neocortex (Jones et al. 2007)
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| 29. |
Microcircuits of L5 thick tufted pyramidal cells (Hay & Segev 2015)
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| 30. |
Model of the cerebellar granular network (Sudhakar et al 2017)
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| 31. |
Multitarget pharmacology for Dystonia in M1 (Neymotin et al 2016)
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| 32. |
Optimal deep brain stimulation of the subthalamic nucleus-a computational study (Feng et al. 2007)
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| 33. |
Pyramidal neuron, fast, regular, and irregular spiking interneurons (Konstantoudaki et al 2014)
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| 34. |
Self-organized olfactory pattern recognition (Kaplan & Lansner 2014)
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| 35. |
Sleep-wake transitions in corticothalamic system (Bazhenov et al 2002)
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| 36. |
Spikes,synchrony,and attentive learning by laminar thalamocort. circuits (Grossberg & Versace 2007)
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| 37. |
Study of augmented Rubin and Terman 2004 deep brain stim. model in Parkinsons (Pascual et al. 2006)
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| 38. |
Synchronization by D4 dopamine receptor-mediated phospholipid methylation (Kuznetsova, Deth 2008)
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| 39. |
Systematic integration of data into multi-scale models of mouse primary V1 (Billeh et al 2020)
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| 40. |
Thalamic quiescence of spike and wave seizures (Lytton et al 1997)
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| 41. |
Thalamic Reticular Network (Destexhe et al 1994)
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| 42. |
Thalamic transformation of pallidal input (Hadipour-Niktarash 2006)
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| 43. |
Thalamocortical and Thalamic Reticular Network (Destexhe et al 1996)
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| 44. |
Thalamocortical augmenting response (Bazhenov et al 1998)
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| 45. |
The microcircuits of striatum in silico (Hjorth et al 2020)
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| 46. |
The origin of different spike and wave-like events (Hall et al 2017)
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| 47. |
Two-cell inhibitory network bursting dynamics captured in a one-dimensional map (Matveev et al 2007)
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| 48. |
Unbalanced peptidergic inhibition in superficial cortex underlies seizure activity (Hall et al 2015)
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| 49. |
Visual physiology of the layer 4 cortical circuit in silico (Arkhipov et al 2018)
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