Model Concept: Dendritic Action Potentials

The model is used to investigate action potential propagation in dendrites.

  1. 3D olfactory bulb: operators (Migliore et al, 2015)
  2. A simplified cerebellar Purkinje neuron (the PPR model) (Brown et al. 2011)
  3. Acetylcholine Boosts Dendritic NMDA Spikes in a CA3 Pyramidal Neuron Model (Humphries et al., 2021)
  4. Action potential initiation in the olfactory mitral cell (Shen et al 1999)
  5. Active dendrites and spike propagation in a hippocampal interneuron (Saraga et al 2003)
  6. Active dendritic action potential propagation (Casale & McCormick 2011)
  7. Active dendritic integration in robust and precise grid cell firing (Schmidt-Hieber et al 2017)
  8. Alcohol action in a detailed Purkinje neuron model and an efficient simplified model (Forrest 2015)
  9. Alpha rhythm in vitro visual cortex (Traub et al 2020)
  10. Amyloid beta (IA block) effects on a model CA1 pyramidal cell (Morse et al. 2010)
  11. AP initiation and propagation in type II cochlear ganglion cell (Hossain et al 2005)
  12. Apical Length Governs Computational Diversity of Layer 5 Pyramidal Neurons (Galloni et al 2020)
  13. CA1 pyramidal neuron (Migliore et al 1999)
  14. CA1 pyramidal neuron: as a 2-layer NN and subthreshold synaptic summation (Poirazi et al 2003)
  15. CA1 pyramidal neuron: action potential backpropagation (Gasparini & Migliore 2015)
  16. CA1 pyramidal neuron: conditional boosting of dendritic APs (Watanabe et al 2002)
  17. CA1 pyramidal neuron: dendritic Ca2+ inhibition (Muellner et al. 2015)
  18. CA1 pyramidal neuron: Dendritic Na+ spikes are required for LTP at distal synapses (Kim et al 2015)
  19. CA1 pyramidal neuron: dendritic spike initiation (Gasparini et al 2004)
  20. CA1 pyramidal neuron: effects of Ih on distal inputs (Migliore et al 2004)
  21. CA1 pyramidal neuron: rebound spiking (Ascoli et al.2010)
  22. CA1 pyramidal neuron: schizophrenic behavior (Migliore et al. 2011)
  23. CA1 pyramidal neuron: signal propagation in oblique dendrites (Migliore et al 2005)
  24. CA1 Pyramidal Neuron: slow Na+ inactivation (Migliore 1996)
  25. CA1 pyramidal neuron: synaptically-induced bAP predicts synapse location (Sterratt et al. 2012)
  26. CA1 pyramidal neurons: binding properties and the magical number 7 (Migliore et al. 2008)
  27. CA1 pyramidal neurons: effect of external electric field from power lines (Cavarretta et al. 2014)
  28. CA1 stratum radiatum interneuron multicompartmental model (Katona et al. 2011)
  29. CA3 pyramidal neuron (Lazarewicz et al 2002)
  30. CA3 pyramidal neuron (Safiulina et al. 2010)
  31. CA3 pyramidal neurons: Kv1.2 mediates modulation of cortical inputs (Hyun et al., 2015)
  32. Calcium spikes in basal dendrites (Kampa and Stuart 2006)
  33. Cancelling redundant input in ELL pyramidal cells (Bol et al. 2011)
  34. Cerebellar purkinje cell (De Schutter and Bower 1994)
  35. Cerebellar purkinje cell: K and Ca channels regulate APs (Miyasho et al 2001)
  36. Compartmentalization of GABAergic inhibition by dendritic spines (Chiu et al. 2013)
  37. Cortical Layer 5b pyr. cell with [Na+]i mechanisms, from Hay et al 2011 (Zylbertal et al 2017)
  38. Dendritic action potentials and computation in human layer 2/3 cortical neurons (Gidon et al 2020)
  39. Dendritic action potentials and computation in human layer 2/3 cortical neurons (Gidon et al 2020)
  40. Dendritic Na inactivation drives a decrease in ISI (Fernandez et al 2005)
  41. Dendritic Na+ spike initiation and backpropagation of APs in active dendrites (Nevian et al. 2007)
  42. Dendritic properties control energy efficiency of APs in cortical pyramidal cells (Yi et al 2017)
  43. Dendritic signals command firing dynamics in a Cerebellar Purkinje Cell model (Genet et al. 2010)
  44. Dendritic spikes enhance stimulus selectivity in cortical neurons in vivo (Smith et al 2013)
  45. Dichotomy of action-potential backpropagation in CA1 pyramidal neuron dendrites (Golding et al 2001)
  46. Dynamical assessment of ion channels during in vivo-like states (Guet-McCreight & Skinner 2020)
  47. Effects of electric fields on cognitive functions (Migliore et al 2016)
  48. Effects of neural morphology on global and focal NMDA-spikes (Poleg-Polsky 2015)
  49. ELL Medium Ganglion Cell (Mormyrid fish) (Muller et al, 2023)
  50. Excitability of PFC Basal Dendrites (Acker and Antic 2009)
  51. Excitatory synaptic interactions in pyramidal neuron dendrites (Behabadi et al. 2012)
  52. Functional impact of dendritic branch point morphology (Ferrante et al., 2013)
  53. Functional structure of mitral cell dendritic tuft (Djurisic et al. 2008)
  54. Globus pallidus multi-compartmental model neuron with realistic morphology (Gunay et al. 2008)
  55. Globus pallidus neuron models with differing dendritic Na channel expression (Edgerton et al., 2010)
  56. Granule Cells of the Olfactory Bulb (Simoes_De_Souza et al. 2014)
  57. Hippocampal CA1 microcircuit model including somatic and dendritic inhibition
  58. Inhibition of bAPs and Ca2+ spikes in a multi-compartment pyramidal neuron model (Wilmes et al 2016)
  59. Ionic mechanisms of dendritic spikes (Almog and Korngreen 2014)
  60. Kinetics and functional consequences of BK Channels activation by N-type Ca2+ channels in the dendrite of mouse neocortical layer-5 pyramidal neurons (Blömer et al., 2024)
  61. Layer 5 Pyramidal Neuron (Shai et al., 2015)
  62. Layer V pyramidal cell functions and schizophrenia genetics (Mäki-Marttunen et al 2019)
  63. Low Threshold Calcium Currents in TC cells (Destexhe et al 1998)
  64. Low Threshold Calcium Currents in TC cells (Destexhe et al 1998) (Brian)
  65. Mechanisms of fast rhythmic bursting in a layer 2/3 cortical neuron (Traub et al 2003)
  66. Mechanisms underlying subunit independence in pyramidal neuron dendrites (Behabadi and Mel 2014)
  67. Microcircuits of L5 thick tufted pyramidal cells (Hay & Segev 2015)
  68. Modeling conductivity profiles in the deep neocortical pyramidal neuron (Wang K et al. 2013)
  69. Modeling dendritic spikes and plasticity (Bono and Clopath 2017)
  70. Morphological determinants of action potential dynamics in substantia nigra (Moubarak et al 2022)
  71. Multi-comp. CA1 O-LM interneuron model with varying dendritic Ih distributions (Sekulic et al 2015)
  72. Multiplexed coding in Purkinje neuron dendrites (Zang and De Schutter 2021)
  73. Olfactory bulb mitral and granule cell column formation (Migliore et al. 2007)
  74. Olfactory bulb mitral and granule cell: dendrodendritic microcircuits (Migliore and Shepherd 2008)
  75. Olfactory bulb mitral cell: synchronization by gap junctions (Migliore et al 2005)
  76. Olfactory Computations in Mitral-Granule cell circuits (Migliore & McTavish 2013)
  77. Opposing roles for Na+/Ca2+ exchange and Ca2+-activated K+ currents during STDP (O`Halloran 2020)
  78. Rat LGN Thalamocortical Neuron (Connelly et al 2015, 2016)
  79. Reduced-morphology model of CA1 pyramidal cells optimized + validated w/ HippoUnit (Tomko et al '21)
  80. Salamander retinal ganglian cells: morphology influences firing (Sheasby, Fohlmeister 1999)
  81. Sharpness of spike initiation in neurons explained by compartmentalization (Brette 2013)
  82. Spectral method and high-order finite differences for nonlinear cable (Omurtag and Lytton 2010)
  83. Spike Initiation in Neocortical Pyramidal Neurons (Mainen et al 1995)
  84. Spike-timing dependent inhibitory plasticity for gating bAPs (Wilmes et al 2017)
  85. Spine fusion and branching affects synaptic response (Rusakov et al 1996, 1997)
  86. STDP depends on dendritic synapse location (Letzkus et al. 2006)
  87. Stochastic calcium mechanisms cause dendritic calcium spike variability (Anwar et al. 2013)
  88. Stochastic ion channels and neuronal morphology (Cannon et al. 2010)
  89. Synaptic integration in tuft dendrites of layer 5 pyramidal neurons (Larkum et al. 2009)
  90. Thalamic reticular neurons: the role of Ca currents (Destexhe et al 1996)
  91. The subcellular distribution of T-type Ca2+ channels in LGN interneurons (Allken et al. 2014)
  92. Voltage- and Branch-specific Climbing Fiber Responses in Purkinje Cells (Zang et al 2018)
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