| 1 |
3D model of the olfactory bulb (Migliore et al. 2014) |
| 2 |
3D olfactory bulb: operators (Migliore et al, 2015) |
| 3 |
A cardiac cell simulator (Puglisi and Bers 2001), applied to the QT interval (Busjahn et al 2004) |
| 4 |
A detailed and fast model of extracellular recordings (Camunas-Mesa & Qurioga 2013) |
| 5 |
A detailed Purkinje cell model (Masoli et al 2015) |
| 6 |
A dynamic model of the canine ventricular myocyte (Hund, Rudy 2004) |
| 7 |
A Fast Rhythmic Bursting Cell: in vivo cell modeling (Lee 2007) |
| 8 |
A model for pituitary GH(3) lactotroph (Wu and Chang 2005) |
| 9 |
A Model of Multiple Spike Initiation Zones in the Leech C-interneuron (Crisp 2009) |
| 10 |
A model of neuronal bursting using three coupled first order diff. eqs. (Hindmarsh & Rose 1984) |
| 11 |
A multiphysics neuron model for cellular volume dynamics (Lee et al. 2011) |
| 12 |
A multiscale approach to analyze circadian rhythms (Vasalou & Henson, 2010) (CellML) |
| 13 |
A multiscale approach to analyze circadian rhythms (Vasalou & Henson, 2010) (SBML) |
| 14 |
A set of reduced models of layer 5 pyramidal neurons (Bahl et al. 2012) |
| 15 |
A simple integrative electrophysiological model of bursting GnRH neurons (Csercsik et al. 2011) |
| 16 |
A state-space model to quantify common input to motor neurons (Feeney et al 2017) |
| 17 |
Action potential of adult rat ventricle (Wang et al. 2008) |
| 18 |
Action potential of mouse urinary bladder smooth muscle (Mahapatra et al 2018) |
| 19 |
Action potential of striated muscle fiber (Adrian et al 1970) |
| 20 |
Action potential reconstitution from measured current waveforms (Alle et al. 2009) |
| 21 |
Action potential-evoked Na+ influx are similar in axon and soma (Fleidervish et al. 2010) |
| 22 |
Action potential-evoked Na+ influx similar in axon and soma (Fleidervish et al. 2010) (Python) |
| 23 |
Actions of Rotenone on ionic currents and MEPPs in Mouse Hippocampal Neurons (Huang et al 2018) |
| 24 |
Active dendrites and spike propagation in a hippocampal interneuron (Saraga et al 2003) |
| 25 |
Adaptive robotic control driven by a versatile spiking cerebellar network (Casellato et al. 2014) |
| 26 |
Anoxic depolarization, recovery: effect of brain regions and extracellular space (Hubel et al. 2016) |
| 27 |
AP initiation, propagation, and cortical invasion in a Layer 5 pyramidal cell (Anderson et 2018) |
| 28 |
Artificial neuron model (Izhikevich 2003, 2004, 2007) |
| 29 |
BDNF morphological contributions to AP enhancement (Galati et al. 2016) |
| 30 |
Behavioral time scale synaptic plasticity underlies CA1 place fields (Bittner et al. 2017) |
| 31 |
Biophysically detailed model of the mouse sino-atrial node cell (Kharche et al. 2011) |
| 32 |
Boundary effects influence velocity in transverse propagation of cardiac APs (Sperelakis et al 2005) |
| 33 |
Breakdown of accmmodation in nerve: a possible role for INAp (Hennings et al 2005) |
| 34 |
Burst induced synaptic plasticity in Apysia sensorimotor neurons (Phares et al 2003) |
| 35 |
Bursting and oscillations in RD1 Retina driven by AII Amacrine Neuron (Choi et al. 2014) |
| 36 |
Bursting in dopamine neurons (Li YX et al 1996) |
| 37 |
CA1 oriens alveus interneurons: signaling properties (Minneci et al. 2007) |
| 38 |
CA1 PV+ fast-firing hippocampal interneuron (Ferguson et al. 2013) |
| 39 |
CA1 pyramidal neuron: as a 2-layer NN and subthreshold synaptic summation (Poirazi et al 2003) |
| 40 |
CA1 pyramidal neuron: action potential backpropagation (Gasparini & Migliore 2015) |
