| 1 |
A 1000 cell network model for Lateral Amygdala (Kim et al. 2013) |
| 2 |
A biophysical model of vestibular ganglion neurons (Hight & Kalluri 2016, Ventura & Kalluri 2018) |
| 3 |
A computational approach/model to explore NMDA receptors functions (Keller et al 2017) |
| 4 |
A Computational Model of Bidirectional Plasticity Regulation by betaCaMKII (Pinto et al. 2019) |
| 5 |
A computational model of systems memory consolidation and reconsolidation (Helfer & Shultz 2019) |
| 6 |
A dendritic disinhibitory circuit mechanism for pathway-specific gating (Yang et al. 2016) |
| 7 |
A dual-Ca2+-sensor model for neurotransmitter release in a central synapse (Sun et al. 2007) |
| 8 |
A fast model of voltage-dependent NMDA Receptors (Moradi et al. 2013) |
| 9 |
A kinetic model of dopamine- and calcium-dependent striatal synaptic plasticity (Nakano et al. 2010) |
| 10 |
A kinetic model unifying presynaptic short-term facilitation and depression (Lee et al. 2009) |
| 11 |
A mathematical model of a neurovascular unit (Dormanns et al 2015, 2016) (Farrs & David 2011) |
| 12 |
A Method for Prediction of Receptor Activation in the Simulation of Synapses (Montes et al. 2013) |
| 13 |
A model for focal seizure onset, propagation, evolution, and progression (Liou et al 2020) |
| 14 |
A model of ASIC1a and synaptic cleft pH modulating wind-up in wide dynamic range neurons (Delrocq) |
| 15 |
A model of cerebellar LTD including RKIP inactivation of Raf and MEK (Hepburn et al 2017) |
| 16 |
A model of the femur-tibia control system in stick insects (Stein et al. 2008) |
| 17 |
A model of unitary responses from A/C and PP synapses in CA3 pyramidal cells (Baker et al. 2010) |
| 18 |
A model of working memory for encoding multiple items (Ursino et al, in press) |
| 19 |
A neural mass model for critical assessment of brain connectivity (Ursino et al 2020) |
| 20 |
A state-space model to quantify common input to motor neurons (Feeney et al 2017) |
| 21 |
A synapse model for developing somatosensory cortex (Manninen et al 2020) |
| 22 |
Action potential-evoked Ca2+ signals in CA1 pyramidal cell presynaptic terminals (Hamid et al 2019) |
| 23 |
Active dendrites shape signaling microdomains in hippocampal neurons (Basak & Narayanan 2018) |
| 24 |
Active dendritic integration in robust and precise grid cell firing (Schmidt-Hieber et al 2017) |
| 25 |
Active zone model of Ca2+ secretion coupling (Keller et al. 2015) |
| 26 |
Adaptation of Short-Term Plasticity parameters (Esposito et al. 2015) |
| 27 |
Ambient glutamate shapes AMPA receptor responses to simulated transients (Balmer et al. 2021) |
| 28 |
AMPA receptor trafficking and its role in heterosynaptic plasticity (Antunes et al 2018) |
| 29 |
Amyloid-beta effects on release probability and integration at CA3-CA1 synapses (Romani et al. 2013) |
| 30 |
Analytical modelling of temperature effects on an AMPA-type synapse (Kufel & Wojcik 2018) |
| 31 |
Application of a common kinetic formalism for synaptic models (Destexhe et al 1994) |
| 32 |
BCM-like synaptic plasticity with conductance-based models (Narayanan Johnston, 2010) |
| 33 |
Behavioral time scale synaptic plasticity underlies CA1 place fields (Bittner et al. 2017) |
| 34 |
Biochemically detailed model of LTP and LTD in a cortical spine (Maki-Marttunen et al 2020) |
| 35 |
Biophysical basis of Subthalamic LFPs Recorded from DBS electrodes (Maling et al 2018) |
| 36 |
Biophysically detailed model of somatosensory thalamocortical circuit |
| 37 |
Ca+/HCN channel-dependent persistent activity in multiscale model of neocortex (Neymotin et al 2016) |
| 38 |
CA1 pyr cell: phenomenological NMDAR-based model of synaptic plasticity (Dainauskas et al 2023) |
| 39 |
CA1 pyramidal neuron dendritic spine with plasticity (O`Donnell et al. 2011) |
| 40 |
CA1 pyramidal neuron: Dendritic Na+ spikes are required for LTP at distal synapses (Kim et al 2015) |
