| | Models |
| 1. |
A gap junction network of Amacrine Cells controls Nitric Oxide release (Jacoby et al 2018)
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| 2. |
A mathematical model of a neurovascular unit (Dormanns et al 2015, 2016) (Farrs & David 2011)
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| 3. |
A Model of Multiple Spike Initiation Zones in the Leech C-interneuron (Crisp 2009)
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| 4. |
A model of working memory for encoding multiple items (Ursino et al, in press)
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| 5. |
A multilayer cortical model to study seizure propagation across microdomains (Basu et al. 2015)
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| 6. |
A network model of the vertebrate retina (Publio et al. 2009)
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| 7. |
A network of AOB mitral cells that produces infra-slow bursting (Zylbertal et al. 2017)
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| 8. |
A single column thalamocortical network model (Traub et al 2005)
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| 9. |
A unified thalamic model of multiple distinct oscillations (Li, Henriquez and Fröhlich 2017)
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| 10. |
Action potential of mouse urinary bladder smooth muscle (Mahapatra et al 2018)
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| 11. |
Alpha rhythm in vitro visual cortex (Traub et al 2020)
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| 12. |
Arteriolar networks: Spread of potential (Crane et al 2001)
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| 13. |
Axonal gap junctions produce fast oscillations in cerebellar Purkinje cells (Traub et al. 2008)
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| 14. |
Basket cell extrasynaptic inhibition modulates network oscillations (Proddutur et al., 2013)
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| 15. |
Biophysically Realistic Network Model of the Wild-Type and Degenerate Retina (Ly et al 2022)
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| 16. |
Boundary effects influence velocity in transverse propagation of cardiac APs (Sperelakis et al 2005)
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| 17. |
CA1 oriens alveus interneurons: signaling properties (Minneci et al. 2007)
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| 18. |
CA1 pyramidal cell: reconstructed axonal arbor and failures at weak gap junctions (Vladimirov 2011)
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| 19. |
Central Nervous System tadpole model in Matlab and NEURON-Python (Ferrario et al, 2021)
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| 20. |
Cerebellar cortex oscil. robustness from Golgi cell gap jncs (Simoes de Souza and De Schutter 2011)
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| 21. |
Collection of simulated data from a thalamocortical network model (Glabska, Chintaluri, Wojcik 2017)
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| 22. |
Competing oscillator 5-cell circuit and Parameterscape plotting (Gutierrez et al. 2013)
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| 23. |
Computational analysis of NN activity and spatial reach of sharp wave-ripples (Canakci et al 2017)
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| 24. |
Computational model of the distributed representation of operant reward memory (Costa et al. 2020)
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| 25. |
Conductance-based model of Layer-4 in the barrel cortex (Argaman et Golomb 2017)
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| 26. |
Deconstruction of cortical evoked potentials generated by subthalamic DBS (Kumaravelu et al 2018)
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| 27. |
Disentangling astroglial physiology with a realistic cell model in silico (Savtchenko et al 2018)
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| 28. |
Distance-dependent inhibition in the hippocampus (Strüber et al. 2017)
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| 29. |
Dynamic cortical interlaminar interactions (Carracedo et al. 2013)
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| 30. |
Earthworm medial giant fiber conduction velocity across electrical synapses (Heller, Crisp 2016)
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| 31. |
Effects of Acetyl-L-carnitine on neural transmission (Lombardo et al 2004)
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| 32. |
Electrically-coupled Retzius neurons (Vazquez et al. 2009)
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| 33. |
Electrodecrements in in vitro model of infantile spasms (Traub et al 2020)
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| 34. |
Enhanced Excitability in Hermissenda: modulation by 5-HT (Cai et al 2003)
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| 35. |
Escape response latency in the Giant Fiber System of Drosophila melanogastor (Augustin et al 2019)
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| 36. |
Extracellular fields for a three-dimensional network of cells using NEURON (Appukuttan et al 2017)
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| 37. |
FHF2KO and Wild-Type Mouse Cardiomyocyte Strands (Park et al 2020)
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| 38. |
Firing patterns in stuttering fast-spiking interneurons (Klaus et al. 2011)
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| 39. |
Fronto-parietal visuospatial WM model with HH cells (Edin et al 2007)
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| 40. |
Functional properties of dendritic gap junctions in Cerebellar Golgi cells (Szoboszlay et al. 2016)
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| 41. |
Gamma genesis in the basolateral amygdala (Feng et al 2019)
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| 42. |
Gamma oscillations in hippocampal interneuron networks (Bartos et al 2002)
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| 43. |
Gap junction coupled network of striatal fast spiking interneurons (Hjorth et al. 2009)
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| 44. |
Gap junction plasticity as a mechanism to regulate network-wide oscillations (Pernelle et al 2018)
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| 45. |
Gap junction subtypes (Appukuttan et al 2016)
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| 46. |
Gap-junction coupled network activity depends on coupled dendrites diameter (Gansert et al. 2007)
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| 47. |
Grid cell oscillatory interference with noisy network oscillators (Zilli and Hasselmo 2010)
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| 48. |
High frequency oscillations in a hippocampal computational model (Stacey et al. 2009)
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| 49. |
High frequency oscillations induced in three gap-junction coupled neurons (Tseng et al. 2008)
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| 50. |
Hippocampal basket cell gap junction network dynamics (Saraga et al. 2006)
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| 51. |
Hyperpolarization-activated inward current and dynamic range of electrical synapse (Stein et al '22)
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| 52. |
Inferring connection proximity in electrically coupled networks (Cali et al. 2007)
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| 53. |
Inhibitory microcircuits for top-down plasticity of sensory representations (Wilmes & Clopath 2019)
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| 54. |
Leech Heart (HE) Motor Neuron conductances contributions to NN activity (Lamb & Calabrese 2013)
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| 55. |
LIP and FEF rhythmic attention model (Aussel et al. 2023)
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| 56. |
MEC PV-positive fast-spiking interneuron network generates theta-nested fast oscillations
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| 57. |
Mechanisms of very fast oscillations in axon networks coupled by gap junctions (Munro, Borgers 2010)
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| 58. |
Model of arrhythmias in a cardiac cells network (Casaleggio et al. 2014)
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| 59. |
Model of the cerebellar granular network (Sudhakar et al 2017)
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| 60. |
Model of the Xenopus tadpole swimming spinal network (Roberts et al. 2014)
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| 61. |
Multiscale modeling of epileptic seizures (Naze et al. 2015)
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| 62. |
Neocort. pyramidal cells subthreshold somatic voltage controls spike propagation (Munro Kopell 2012)
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| 63. |
Network dynamics of electrically coupled pituitary cells (Fazli and Bertram, 2022)
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| 64. |
Network recruitment to coherent oscillations in a hippocampal model (Stacey et al. 2011)
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| 65. |
Neuromuscular network model of gut motility (Barth et al 2017)
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| 66. |
Neuroprotective Role of Gap Junctions in a Neuron Astrocyte Network Model (Huguet et al 2016)
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| 67. |
Normal ripples, abnormal ripples, and fast ripples in a hippocampal model (Fink et al. 2015)
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| 68. |
Olfactory bulb mitral cell gap junction NN model: burst firing and synchrony (O`Connor et al. 2012)
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| 69. |
Olfactory bulb mitral cell: synchronization by gap junctions (Migliore et al 2005)
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| 70. |
Parallel odor processing by mitral and middle tufted cells in the OB (Cavarretta et al 2016, 2018)
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| 71. |
Parametric computation and persistent gamma in a cortical model (Chambers et al. 2012)
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| 72. |
Principles of Computational Modelling in Neuroscience (Book) (Sterratt et al. 2011)
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| 73. |
Rapid desynchronization of an electrically coupled Golgi cell network (Vervaeke et al. 2010)
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| 74. |
Regulation of a slow STG rhythm (Nadim et al 1998)
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| 75. |
S cell network (Moss et al 2005)
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| 76. |
SCZ-associated variant effects on L5 pyr cell NN activity and delta osc. (Maki-Marttunen et al 2018)
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| 77. |
Spike propagation and bouton activation in terminal arborizations (Luscher, Shiner 1990)
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| 78. |
Striatal FSI and SPN oscillation model (Chartove et al. 2020)
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| 79. |
Striatal GABAergic microcircuit, dopamine-modulated cell assemblies (Humphries et al. 2009)
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| 80. |
Striatal GABAergic microcircuit, spatial scales of dynamics (Humphries et al, 2010)
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| 81. |
Striatal NN model of MSNs and FSIs investigated effects of dopamine depletion (Damodaran et al 2015)
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| 82. |
Survey of electrically evoked responses in the retina (Tsai et al 2017)
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| 83. |
Synaptic gating at axonal branches, and sharp-wave ripples with replay (Vladimirov et al. 2013)
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| 84. |
Synchronicity of fast-spiking interneurons balances medium-spiny neurons (Damodaran et al. 2014)
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| 85. |
Synchronized oscillations of clock gene expression in the choroid plexus (Myung et al 2018)
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| 86. |
The origin of different spike and wave-like events (Hall et al 2017)
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| 87. |
Unbalanced peptidergic inhibition in superficial cortex underlies seizure activity (Hall et al 2015)
|
| 88. |
Vertical System (VS) tangential cells network model (Trousdale et al. 2014)
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