| | Models |
| 1. |
3D model of the olfactory bulb (Migliore et al. 2014)
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| 2. |
A bistable model of Spike-Wave seizure and background activity (Taylor et al. 2014)
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| 3. |
A computational model of action selection in the basal ganglia (Suryanarayana et al 2019)
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| 4. |
A cortical sheet mesoscopic model for investigating focal seizure onset dynamics (Wang et al. 2014)
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| 5. |
A cortico-cerebello-thalamo-cortical loop model under essential tremor (Zhang & Santaniello 2019)
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| 6. |
A dynamical model of the basal ganglia (Leblois et al 2006)
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| 7. |
A mathematical model of evoked calcium dynamics in astrocytes (Handy et al 2017)
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| 8. |
A multiscale approach to analyze circadian rhythms (Vasalou & Henson, 2010) (CellML)
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| 9. |
A multiscale approach to analyze circadian rhythms (Vasalou & Henson, 2010) (SBML)
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| 10. |
A network of AOB mitral cells that produces infra-slow bursting (Zylbertal et al. 2017)
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| 11. |
A phantom bursting mechanism for episodic bursting (Bertram et al 2008)
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| 12. |
A single column thalamocortical network model (Traub et al 2005)
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| 13. |
A spiking neural network model of the Lateral Geniculate Nucleus (Sen-Bhattacharya et al 2017)
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| 14. |
A two networks model of connectivity-dependent oscillatory activity (Avella OJ et al. 2014)
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| 15. |
A unified thalamic model of multiple distinct oscillations (Li, Henriquez and Fröhlich 2017)
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| 16. |
ACh modulation in olfactory bulb and piriform cortex (de Almeida et al. 2013;Devore S, et al. 2014)
|
| 17. |
Afferent Integration in the NAcb MSP Cell (Wolf et al. 2005)
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| 18. |
Alcohol action in a detailed Purkinje neuron model and an efficient simplified model (Forrest 2015)
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| 19. |
Ambiguous Encoding and Distorted Perception (Carlson and Kawasaki 2006)
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| 20. |
An attractor network model of grid cells and theta-nested gamma oscillations (Pastoll et al 2013)
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| 21. |
An oscillatory neural autoencoder based on frequency modulation and multiplexing (Soman et al 2018)
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| 22. |
An oscillatory neural model of multiple object tracking (Kazanovich and Borisyuk 2006)
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| 23. |
Axonal gap junctions produce fast oscillations in cerebellar Purkinje cells (Traub et al. 2008)
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| 24. |
Basket cell extrasynaptic inhibition modulates network oscillations (Proddutur et al., 2013)
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| 25. |
Beta-cell hubs maintain Ca2+ oscillations in human and mouse islet simulations (Lei et al 2018)
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| 26. |
Biologically-plausible models for spatial navigation (Cannon et al 2003)
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| 27. |
Biophysically detailed model of somatosensory thalamocortical circuit
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| 28. |
Biophysically detailed model of the mouse sino-atrial node cell (Kharche et al. 2011)
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| 29. |
Bursting activity of neuron R15 in Aplysia (Canavier et al 1991, Butera et al 1995)
|
| 30. |
Bursting and oscillations in RD1 Retina driven by AII Amacrine Neuron (Choi et al. 2014)
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| 31. |
Bursting and resonance in cerebellar granule cells (D'Angelo et al. 2001)
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| 32. |
Bursting in dopamine neurons (Li YX et al 1996)
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| 33. |
Ca(2+) oscillations based on Ca-induced Ca-release (Dupont et al 1991)
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| 34. |
Ca+/HCN channel-dependent persistent activity in multiscale model of neocortex (Neymotin et al 2016)
|
| 35. |
CA1 pyramidal cell: reconstructed axonal arbor and failures at weak gap junctions (Vladimirov 2011)
|
| 36. |
CA1 pyramidal cells, basket cells, ripples (Malerba et al 2016)
|
| 37. |
CA1 pyramidal neuron: h channel-dependent deficit of theta oscill. resonance (Marcelin et al. 2008)
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| 38. |
Ca2+ oscillations in single astrocytes (Lavrentovich and Hemkin 2008) (python) (Manninen et al 2017)
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| 39. |
Ca2+ Oscillations in Sympathetic neurons (Friel 1995)
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| 40. |
Ca2+-activated I_CAN and synaptic depression promotes network-dependent oscil. (Rubin et al. 2009)
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| 41. |
CA3 Network Model of Epileptic Activity (Sanjay et. al, 2015)
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| 42. |
Caffeine-induced electrical oscillations in Aplysia neurons (Komendantov, Kononenko 2000)
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| 43. |
Calcium influx during striatal upstates (Evans et al. 2013)
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| 44. |
Cardiac models of circadian rhythms in early afterdepolarizations & arrhythmias (Diekman & Wei 2021)
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| 45. |
Cellular classes revealed by heartbeat-related modulation of extracellular APs (Mosher et al 2020)
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| 46. |
Cerebellar cortex oscil. robustness from Golgi cell gap jncs (Simoes de Souza and De Schutter 2011)
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| 47. |
Cerebellar Golgi cell (Solinas et al. 2007a, 2007b)
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| 48. |
Cerebellar granular layer (Maex and De Schutter 1998)
|
| 49. |
Cerebellar purkinje cell: interacting Kv3 and Na currents influence firing (Akemann, Knopfel 2006)
|
| 50. |
Cerebellar stellate cells: changes in threshold, latency and frequency of firing (Mitry et al 2020)
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| 51. |
Circadian clock model based on protein sequestration (simple version) (Kim & Forger 2012)
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| 52. |
Circadian clock model in mammals (detailed version) (Kim & Forger 2012)
|
| 53. |
Circadian clock model in mammals (PK/PD model) (Kim & Forger 2013)
|
| 54. |
Classic model of the Tritonia Swim CPG (Getting, 1989)
|
| 55. |
Collection of simulated data from a thalamocortical network model (Glabska, Chintaluri, Wojcik 2017)
|
| 56. |
Complex dynamics: reproducing Golgi cell electroresponsiveness (Geminiani et al 2018, 2019ab)
|
| 57. |
Composite spiking network/neural field model of Parkinsons (Kerr et al 2013)
|
| 58. |
Computational analysis of NN activity and spatial reach of sharp wave-ripples (Canakci et al 2017)
|
| 59. |
Computational Model of a Central Pattern Generator (Cataldo et al 2006)
|
| 60. |
Computational model of the distributed representation of operant reward memory (Costa et al. 2020)
|
| 61. |
Continuous lateral oscillations as a mechanism for taxis in Drosophila larvae (Wystrach et al 2016)
|
| 62. |
Convergence regulates synchronization-dependent AP transfer in feedforward NNs (Sailamul et al 2017)
|
| 63. |
Core respiratory network organization: Insights from optogenetics and modeling (Ausborn et al 2018)
|
| 64. |
Cortex-Basal Ganglia-Thalamus network model (Kumaravelu et al. 2016)
|
| 65. |
Cortical oscillations and the basal ganglia (Fountas & Shanahan 2017)
|
| 66. |
Cortico - Basal Ganglia Loop (Mulcahy et al 2020)
|
| 67. |
Current Dipole in Laminar Neocortex (Lee et al. 2013)
|
| 68. |
Determinants of the intracellular and extracellular waveforms in DA neurons (Lopez-Jury et al 2018)
|
| 69. |
Distinct current modules shape cellular dynamics in model neurons (Alturki et al 2016)
|
| 70. |
Dopaminergic cell bursting model (Kuznetsov et al 2006)
|
| 71. |
Double boundary value problem (A. Bose and J.E. Rubin, 2015)
|
| 72. |
Dynamic cortical interlaminar interactions (Carracedo et al. 2013)
|
| 73. |
Dynamical model of olfactory bulb mitral cell (Rubin, Cleland 2006)
|
| 74. |
Dynamics of sleep oscillations coupled to brain temperature on multiple scales (Csernai et al 2019)
|
| 75. |
Emergence of physiological oscillation frequencies in neocortex simulations (Neymotin et al. 2011)
|
| 76. |
Engaging distinct oscillatory neocortical circuits (Vierling-Claassen et al. 2010)
|
| 77. |
Entrainment and divisive inhibition in a neocortical neural mass model (Papasavvas et al 2020)
|
| 78. |
ERG current in repolarizing plateau potentials in dopamine neurons (Canavier et al 2007)
|
| 79. |
Excessive beta oscillations in Parkinson's disease (Pavlides et al. 2015)
|
| 80. |
Fast global oscillations in networks of I&F neurons with low firing rates (Brunel and Hakim 1999)
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| 81. |
Fast oscillations in inhibitory networks (Maex, De Schutter 2003)
|
| 82. |
Functional consequences of cortical circuit abnormalities on gamma in schizophrenia (Spencer 2009)
|
| 83. |
Gamma and theta rythms in biophysical models of hippocampus circuits (Kopell et al. 2011)
|
| 84. |
Gamma genesis in the basolateral amygdala (Feng et al 2019)
|
| 85. |
Gamma oscillations in hippocampal interneuron networks (Bartos et al 2002)
|
| 86. |
Gamma oscillations in hippocampal interneuron networks (Wang, Buzsaki 1996)
|
| 87. |
Gating of steering signals through phasic modulation of reticulospinal neurons (Kozlov et al. 2014)
|
| 88. |
Generating coherent patterns of activity from chaotic neural networks (Sussillo and Abbott 2009)
|
| 89. |
Generating oscillatory bursts from a network of regular spiking neurons (Shao et al. 2009)
|
| 90. |
Glutamate-evoked Ca2+ oscillations in single astrocytes (De Pitta et al. 2009) (Manninen et al 2017)
|
| 91. |
Glutamate-evoked Ca2+ oscillations in single astrocytes (Modified from Dupont et al. 2011)
|
| 92. |
GP Neuron, somatic and dendritic phase response curves (Schultheiss et al. 2011)
|
| 93. |
Grid cell oscillatory interference with noisy network oscillators (Zilli and Hasselmo 2010)
|
| 94. |
Grid cell spatial firing models (Zilli 2012)
|
| 95. |
Half-center oscillator database of leech heart interneuron model (Doloc-Mihu & Calabrese 2011)
|
| 96. |
HH model of SCN neurons including a transient K+ channel (Bano-Otalora et al 2021)
|
| 97. |
High frequency oscillations in a hippocampal computational model (Stacey et al. 2009)
|
| 98. |
Hippocampal basket cell gap junction network dynamics (Saraga et al. 2006)
|
| 99. |
Hippocampal CA1 NN with spontaneous theta, gamma: full scale & network clamp (Bezaire et al 2016)
|
| 100. |
Hippocampal CA3 network and circadian regulation (Stanley et al. 2013)
|
| 101. |
Hippocampus CA1 Interneuron Specific 3 (IS3) in vivo-like virtual NN simulations (Luo et al 2020)
|
| 102. |
Homeostatic mechanisms may shape oscillatory modulations (Peterson & Voytek 2020)
|
| 103. |
Hyperconnectivity, slow synapses in PFC mental retardation and autism model (Testa-Silva et al 2011)
|
| 104. |
Ih tunes oscillations in an In Silico CA3 model (Neymotin et al. 2013)
|
| 105. |
Inferior Olive, subthreshold oscillations (Torben-Nielsen, Segev, Yarom 2012)
|
| 106. |
Infraslow intrinsic rhythmogenesis in a subset of AOB projection neurons (Gorin et al 2016)
|
| 107. |
Inverse stochastic resonance of cerebellar Purkinje cell (Buchin et al. 2016)
|
| 108. |
Ion concentration dynamics as a mechanism for neuronal bursting (Barreto & Cressman 2011)
|
| 109. |
Irregular oscillations produced by cyclic recurrent inhibition (Friesen, Friesen 1994)
|
| 110. |
Ketamine disrupts theta modulation of gamma in a computer model of hippocampus (Neymotin et al 2011)
|
| 111. |
Knox implementation of Destexhe 1998 spike and wave oscillation model (Knox et al 2018)
|
| 112. |
Large cortex model with map-based neurons (Rulkov et al 2004)
|
| 113. |
Large scale model of the olfactory bulb (Yu et al., 2013)
|
| 114. |
Large scale neocortical model for PGENESIS (Crone et al 2019)
|
| 115. |
Large-scale laminar model of macaque cortex (Mejias et al 2016)
|
| 116. |
Layer-specific pyramidal cell props underlie diverse ACC motor + limbic networks (Medalla et al '21)
|
| 117. |
Leech Heart Interneuron model (Sharma et al 2020)
|
| 118. |
Leech heart interneuron network model (Hill et al 2001, 2002)
|
| 119. |
LIP and FEF rhythmic attention model (Aussel et al. 2023)
|
| 120. |
Low dose of dopamine may stimulate prolactin secretion by increasing K currents (Tabak et al. 2006)
|
| 121. |
M1 and M4 intrinsically photosensitive retinal ganglion cells (Stinchcombe et al. 2021)
|
| 122. |
MDD: the role of glutamate dysfunction on Cingulo-Frontal NN dynamics (Ramirez-Mahaluf et al 2017)
|
| 123. |
Mean-field models of neural populations under electrical stimulation (Cakan & Obermayer 2020)
|
| 124. |
MEC layer II stellate cell: Synaptic mechanisms of grid cells (Schmidt-Hieber & Hausser 2013)
|
| 125. |
Mechanisms of very fast oscillations in axon networks coupled by gap junctions (Munro, Borgers 2010)
|
| 126. |
Mechanisms underlying different onset patterns of focal seizures (Wang Y et al 2017)
|
| 127. |
Medial vestibular neuron models (Quadroni and Knopfel 1994)
|
| 128. |
Midbrain dopamine neuron: firing patterns (Canavier 1999)
|
| 129. |
Minimal model of interictal and ictal discharges “Epileptor-2” (Chizhov et al 2018)
|
| 130. |
Mitral cell activity gating by respiration and inhibition in an olfactory bulb NN (Short et al 2016)
|
| 131. |
Mixed mode oscillations as a mechanism for pseudo-plateau bursting (Vo et al. 2010)
|
| 132. |
Model of calcium oscillations in olfactory cilia (Reidl et al. 2006)
|
| 133. |
Model of long range transmission of gamma oscillation (Murray 2007)
|
| 134. |
Model of SK current`s influence on precision in Globus Pallidus Neurons (Deister et al. 2009)
|
| 135. |
Model of the cerebellar granular network (Sudhakar et al 2017)
|
| 136. |
Model of the hippocampus over the sleep-wake cycle using Hodgkin-Huxley neurons (Aussel et al 2018)
|
| 137. |
Model of the Xenopus tadpole swimming spinal network (Roberts et al. 2014)
|
| 138. |
Modeling interactions in Aplysia neuron R15 (Yu et al 2004)
|
| 139. |
Models for cortical UP-DOWN states in a bistable inhibitory-stabilized network (Jercog et al 2017)
|
| 140. |
Modulation of cortical Up-Down state switching by astrocytes (Moyse & Berry, 2022)
|
| 141. |
Modulation of septo-hippocampal theta activity by GABAA receptors (Hajos et al. 2004)
|
| 142. |
Morris-Lecar model of the barnacle giant muscle fiber (Morris, Lecar 1981)
|
| 143. |
Motor cortex microcircuit simulation based on brain activity mapping (Chadderdon et al. 2014)
|
| 144. |
Multiple dynamical modes of thalamic relay neurons (Wang XJ 1994)
|
| 145. |
Multiscale model of olfactory receptor neuron in mouse (Dougherty 2009)
|
| 146. |
Multitarget pharmacology for Dystonia in M1 (Neymotin et al 2016)
|
| 147. |
MyFirstNEURON (Houweling, Sejnowski 1997)
|
| 148. |
Neocort. pyramidal cells subthreshold somatic voltage controls spike propagation (Munro Kopell 2012)
|
| 149. |
Network model of movement disorders (Yousif et al 2020)
|
| 150. |
Network model of the granular layer of the cerebellar cortex (Maex, De Schutter 1998)
|
| 151. |
Network recruitment to coherent oscillations in a hippocampal model (Stacey et al. 2011)
|
| 152. |
Neural mass model of spindle generation in the isolated thalamus (Schellenberger Costa et al. 2016)
|
| 153. |
Neural mass model of the neocortex under sleep regulation (Costa et al 2016)
|
| 154. |
Neural mass model of the sleeping thalamocortical system (Schellenberger Costa et al 2016)
|
| 155. |
Neural model of frog ventilatory rhythmogenesis (Horcholle-Bossavit and Quenet 2009)
|
| 156. |
Normal ripples, abnormal ripples, and fast ripples in a hippocampal model (Fink et al. 2015)
|
| 157. |
Norns - Neural Network Studio (Visser & Van Gils 2014)
|
| 158. |
O-LM interneuron model (Lawrence et al. 2006)
|
| 159. |
Olfactory bulb mitral cell gap junction NN model: burst firing and synchrony (O`Connor et al. 2012)
|
| 160. |
Olfactory Bulb mitral-granule network generates beta oscillations (Osinski & Kay 2016)
|
| 161. |
Olfactory Bulb Network (Davison et al 2003)
|
| 162. |
Olfactory bulb network model of gamma oscillations (Bathellier et al. 2006; Lagier et al. 2007)
|
| 163. |
Olfactory receptor neuron model (Dougherty et al 2005)
|
| 164. |
Online learning model of olfactory bulb external plexiform layer network (Imam & Cleland 2020)
|
| 165. |
Orientation selectivity in inhibition-dominated recurrent networks (Sadeh and Rotter, 2015)
|
| 166. |
Oscillation and coding in a proposed NN model of insect olfaction (Horcholle-Bossavit et al. 2007)
|
| 167. |
Oscillations emerging from noise-driven NNs (Tchumatchenko & Clopath 2014)
|
| 168. |
Oscillations, phase-of-firing coding and STDP: an efficient learning scheme (Masquelier et al. 2009)
|
| 169. |
Oxytocin and VIP involvement in prolactin secretion (Egli et al. 2004,2006, Bertram et al. 2006)
|
| 170. |
Pacemaker neurons and respiratory rhythm generation (Purvis et al 2007)
|
| 171. |
Pallidostriatal projections promote beta oscillations (Corbit, Whalen, et al 2016)
|
| 172. |
Parametric computation and persistent gamma in a cortical model (Chambers et al. 2012)
|
| 173. |
Persistent synchronized bursting activity in cortical tissues (Golomb et al 2005)
|
| 174. |
Phase oscillator models for lamprey central pattern generators (Varkonyi et al. 2008)
|
| 175. |
Phase precession through acceleration of local theta rhythm (Castro & Aguiar 2011)
|
| 176. |
Phasic ACh promotes gamma oscillations in E-I networks (Lu et al, 2020)
|
| 177. |
Purkinje neuron network (Zang et al. 2020)
|
| 178. |
Pyramidal neurons switch from integrators to resonators (Prescott et al. 2008)
|
| 179. |
Quantitative model of sleep-wake dynamics (Phillips & Robinson 2007)
|
| 180. |
Rapid desynchronization of an electrically coupled Golgi cell network (Vervaeke et al. 2010)
|
| 181. |
Reconstrucing sleep dynamics with data assimilation (Sedigh-Sarvestani et al., 2012)
|
| 182. |
Regulation of firing frequency in a midbrain dopaminergic neuron model (Kuznetsova et al. 2010)
|
| 183. |
Reproducibility and comparability of models for astrocyte Ca2+ excitability (Manninen et al 2017)
|
| 184. |
Reproducing infra-slow oscillations with dopaminergic modulation (Kobayashi et al 2017)
|
| 185. |
Retinal ganglion cells responses and activity (Tsai et al 2012, Guo et al 2016)
|
| 186. |
Role of Ih in firing patterns of cold thermoreceptors (Orio et al., 2012)
|
| 187. |
Role of the AIS in the control of spontaneous frequency of dopaminergic neurons (Meza et al 2017)
|
| 188. |
SCZ-associated variant effects on L5 pyr cell NN activity and delta osc. (Maki-Marttunen et al 2018)
|
| 189. |
Sensory feedback in an oscillatory interference model of place cell activity (Monaco et al. 2011)
|
| 190. |
Simulated light response in rod photoreceptors (Liu and Kourennyi 2004)
|
| 191. |
Simulations of oscillations in piriform cortex (Wilson & Bower 1992)
|
| 192. |
Single neuron properties shape chaos and signal transmission in random NNs (Muscinelli et al 2019)
|
| 193. |
Single-cell comprehensive biophysical model of SN pars compacta (Muddapu & Chakravarthy 2021)
|
| 194. |
Sleep deprivation in the ascending arousal system (Phillips & Robinson 2008)
|
| 195. |
Sleep-wake transitions in corticothalamic system (Bazhenov et al 2002)
|
| 196. |
Slow wave propagation in the guinea-pig gastric antrum (Hirst et al. 2006, Edwards and Hirst 2006)
|
| 197. |
Software for teaching neurophysiology of neuronal circuits (Grisham et al. 2008)
|
| 198. |
Sparsely connected networks of spiking neurons (Brunel 2000)
|
| 199. |
Spike trains in Hodgkin–Huxley model and ISIs of acupuncture manipulations (Wang et al. 2008)
|
| 200. |
Spikes,synchrony,and attentive learning by laminar thalamocort. circuits (Grossberg & Versace 2007)
|
| 201. |
Spiking GridPlaceMap model (Pilly & Grossberg, PLoS One, 2013)
|
| 202. |
Spiking neuron model of the basal ganglia (Humphries et al 2006)
|
| 203. |
Spontaneous calcium oscillations in astrocytes (Lavrentovich and Hemkin 2008)
|
| 204. |
Spontaneous calcium oscillations in single astrocytes (Riera et al. 2011) (Manninen et al 2017)
|
| 205. |
State-dependent rhythmogenesis in a half-center locomotor CPG (Ausborn et al 2017)
|
| 206. |
Stochastic and periodic inputs tune ongoing oscillations (Hutt et al. 2016)
|
| 207. |
Striatal FSI and SPN oscillation model (Chartove et al. 2020)
|
| 208. |
Subiculum network model with dynamic chloride/potassium homeostasis (Buchin et al 2016)
|
| 209. |
Survey of electrically evoked responses in the retina (Tsai et al 2017)
|
| 210. |
Synaptic gating at axonal branches, and sharp-wave ripples with replay (Vladimirov et al. 2013)
|
| 211. |
Synaptic plasticity can produce and enhance direction selectivity (Carver et al, 2008)
|
| 212. |
Synaptic strengths are critical in creating the proper output phasing in a CPG (Gunay et al 2019)
|
| 213. |
Synchronization by D4 dopamine receptor-mediated phospholipid methylation (Kuznetsova, Deth 2008)
|
| 214. |
Synchronized oscillations of clock gene expression in the choroid plexus (Myung et al 2018)
|
| 215. |
Systems-level modeling of neuronal circuits for leech swimming (Zheng et al. 2007)
|
| 216. |
T-type Ca current in thalamic neurons (Wang et al 1991)
|
| 217. |
Temporal decorrelation by intrinsic cellular dynamics (Wang et al 2003)
|
| 218. |
Thalamic interneuron multicompartment model (Zhu et al. 1999)
|
| 219. |
Thalamic quiescence of spike and wave seizures (Lytton et al 1997)
|
| 220. |
Thalamic Reticular Network (Destexhe et al 1994)
|
| 221. |
Thalamocortical and Thalamic Reticular Network (Destexhe et al 1996)
|
| 222. |
Thalamocortical control of propofol phase-amplitude coupling (Soplata et al 2017)
|
| 223. |
Thalamocortical model of spike and wave seizures (Suffczynski et al. 2004)
|
| 224. |
The activity phase of postsynaptic neurons (Bose et al 2004)
|
| 225. |
The APP in C-terminal domain alters CA1 neuron firing (Pousinha et al 2019)
|
| 226. |
The relationship between two fast/slow analysis techniques for bursting oscill. (Teka et al. 2012)
|
| 227. |
The role of ATP-sensitive potassium channels in a hippocampal neuron (Huang et al. 2007)
|
| 228. |
Theta phase precession in a model CA3 place cell (Baker and Olds 2007)
|
| 229. |
Theta-gamma phase amplitude coupling in a hippocampal CA1 microcircuit (Ponzi et al. 2023)
|
| 230. |
TRPM8-dependent dynamic response in cold thermoreceptors (Olivares et al. 2015)
|
| 231. |
Two-cell inhibitory network bursting dynamics captured in a one-dimensional map (Matveev et al 2007)
|
| 232. |
Understanding how fast activating K+ channels promote bursting in pituitary cells (Vo et al 2014)
|
| 233. |
Updated Tritonia Swim CPG (Calin-Jagemann et al. 2007)
|
