| 1 |
A computational model of a small DRG neuron to explore pain (Verma et al. 2019, 2020) |
| 2 |
A Computational Model of Bidirectional Plasticity Regulation by betaCaMKII (Pinto et al. 2019) |
| 3 |
A mathematical model of evoked calcium dynamics in astrocytes (Handy et al 2017) |
| 4 |
A model for early afterdepolarizations in the cardiomyocyte action potential (Kimrey et al., 2022) |
| 5 |
A model for pituitary GH(3) lactotroph (Wu and Chang 2005) |
| 6 |
A model for recurrent spreading depolarizations (Conte et al. 2017) |
| 7 |
A simplified model of NMDA oscillations in lamprey locomotor neurons (Huss et al. 2008) |
| 8 |
A theory of ongoing activity in V1 (Goldberg et al 2004) |
| 9 |
Action potential of adult rat ventricle (Wang et al. 2008) |
| 10 |
Action potential of striated muscle fiber (Adrian et al 1970) |
| 11 |
Actions of Rotenone on ionic currents and MEPPs in Mouse Hippocampal Neurons (Huang et al 2018) |
| 12 |
Activity patterns in a subthalamopallidal network of the basal ganglia model (Terman et al 2002) |
| 13 |
Allosteric gating of K channels (Horrigan et al 1999) |
| 14 |
An ion-based model for swelling of neurons and astrocytes (Hubel & Ullah 2016) |
| 15 |
Anoxic depolarization, recovery: effect of brain regions and extracellular space (Hubel et al. 2016) |
| 16 |
Aplysia LTF model (Liu et al, 2020; Zhang et al, 2021; Liu et al 2022) |
| 17 |
Basal ganglia-corticothalamic (BGCT) network (Chen et al., 2014) |
| 18 |
Biophysical models of AWCon and RMD C. elegans neurons (M. Nicoletti at al. 2019) |
| 19 |
Ca(2+) oscillations based on Ca-induced Ca-release (Dupont et al 1991) |
| 20 |
Ca-dependent K Channel: kinetics from rat muscle (Moczydlowski, Latorre 1983) XPP |
| 21 |
CA1 pyramidal cell: I_NaP and I_M contributions to somatic bursting (Golomb et al 2006) |
| 22 |
CA3 pyramidal cell: rhythmogenesis in a reduced Traub model (Pinsky, Rinzel 1994) |
| 23 |
CaMKII system exhibiting bistability with respect to calcium (Graupner and Brunel 2007) |
| 24 |
Cardiac action potential based on Luo-Rudy phase 1 model (Luo and Rudy 1991), (Wu 2004) |
| 25 |
Circadian clock model based on protein sequestration (simple version) (Kim & Forger 2012) |
| 26 |
Circadian clock model in mammals (detailed version) (Kim & Forger 2012) |
| 27 |
ClC-2 channels regulate neuronal excitability, not intracellular Cl- levels (Ratte & Prescott 2011) |
| 28 |
Consequences of HERG mutations in the long QT syndrome (Clancy, Rudy 2001) |
| 29 |
Contribution of ATP-sensitive potassium channels in the neuronal network (Huang et al. 2009) |
| 30 |
Control of vibrissa motoneuron firing (Harish and Golomb 2010) |
| 31 |
Criticality,degeneracy in injury-induced changes in primary afferent excitability (Ratte et al 2014) |
| 32 |
Deterministic chaos in a mathematical model of a snail neuron (Komendantov and Kononenko 1996) |
| 33 |
Dopaminergic cell bursting model (Kuznetsov et al 2006) |
| 34 |
Dorsal root ganglion (primary somatosensory) neurons (Rho & Prescott 2012) |
| 35 |
Double boundary value problem (A. Bose and J.E. Rubin, 2015) |
| 36 |
Drosophila 3rd instar larval aCC motoneuron (Gunay et al. 2015) |
| 37 |
Dynamics of ramping bursts in a respiratory pre-Botzinger Complex model (Abdulla et al, 2021) |
| 38 |
Dynamics of Spike Initiation (Prescott et al. 2008) |
| 39 |
Effect of riluzole on action potential in cultured human skeletal muscle cells (Wang YJ et al. 2008) |
| 40 |
Effect of slowly inactivating IKdr to delayed firing of action potentials (Wu et al. 2008) |
| 41 |
Effect of trp-like current on APs during exposure to sinusoidal voltage (Chen et al. 2010) |
| 42 |
Effects of eugenol on the firing of action potentials in NG108-15 neurons (Huang et al. 2011) |
| 43 |
Efffect of propofol on potassium current in cardiac H9c2 cells (Liu et al. 2008) |
| 44 |
Exact mean-field models for Izhikevich networks (Chen and Campbell 2022) |
| 45 |
Excitability of DA neurons and their regulation by synaptic input (Morozova et al. 2016a, 2016b) |
| 46 |
Excitatory and inhibitory interactions in populations of model neurons (Wilson and Cowan 1972) |
| 47 |
Explaining pathological changes in axonal excitability by dynamical analysis (Coggan et al. 2011) |
| 48 |
External Tufted Cell Model (Ryan Viertel, Alla Borisyuk 2019) |
| 49 |
Failure of Deep Brain Stimulation in a basal ganglia neuronal network model (Dovzhenok et al. 2013) |
| 50 |
Fast-spiking cortical interneuron (Golomb et al. 2007) |
| 51 |
Fully continuous Pinsky-Rinzel model for bifurcation analysis (Atherton et al. 2016) |
| 52 |
Glial voltage dynamics driven by Kir & K2P currents (Janjic et al 2023) |
| 53 |
HERG K+ channels spike-frequency adaptation (Chiesa et al 1997) |
| 54 |
HH-type model of fast-spiking parvalbumin interneurons in spinal dorsal horn (Ma et al, 2023) |
| 55 |
High frequency stimulation of the Subthalamic Nucleus (Rubin and Terman 2004) |
| 56 |
Hippocampus CA1: Temporal sensitivity of signaling pathways underlying LTP (Kim et al. 2010) |
| 57 |
Hodgkin-Huxley simplifed 2D and 3D models (Lundstrom et al. 2009) |
| 58 |
Hodgkin-Huxley with dynamic ion concentrations (Hubel and Dahlem, 2014) |
| 59 |
How adaptation makes low firing rates robust (Sherman & Ha 2017) |
| 60 |
Human sleep/wake cycle (Rempe et al. 2010) |
| 61 |
Inhibitory control by an integral feedback signal in prefrontal cortex (Miller and Wang 2006) |
| 62 |
Inhibitory control of motoneuron excitability (Venugopal et al 2011) |
| 63 |
Initiation of spreading depolarization by GABAergic neuron hyperactivity & NaV 1.1 (Chever et al 21) |
| 64 |
Integrated Oscillator Model for pancreatic islet beta-cells (Marinelli et al., 2022) |
| 65 |
Interactions among kinase cascades underlying LTP in Aplysia sensory neurons (Zhang et al 2021) |
| 66 |
Inverse stochastic resonance of cerebellar Purkinje cell (Buchin et al. 2016) |
| 67 |
Ion concentration dynamics as a mechanism for neuronal bursting (Barreto & Cressman 2011) |
| 68 |
Kv4.3, Kv1.4 encoded K(+) channel in heart cells (Greenstein et al 2000) (XPP) |
| 69 |
Locational influence of dendritic PIC on input-output properties of spinal motoneurons (Kim 2017) |
| 70 |
Markovian model for cardiac sodium channel (Clancy, Rudy 2002) |
| 71 |
Markovian model for SCN8A-encoded channel (Kuo et al 2020) |
| 72 |
Markovian model for single-channel recordings of Ik_1 in ventricular cells (Matsuoka et al 2003) |
| 73 |
Mauthner cell with two pre-synaptic cells, an inhibitory and an excitatory cell (Orr et al 2021) |
| 74 |
Model for pancreatic beta-cells (Law et al. 2020) |
| 75 |
Model for pancreatic beta-cells with two isoforms of PFK (Marinelli et al., 2022) |
| 76 |
Model for pusatile insulin secretion at basal levels of glucose (Fletcher et al, 2022) |
| 77 |
Model of a BDNF feedback loop (Zhang et al 2016) |
| 78 |
Model of DARPP-32 phosphorylation in striatal medium spiny neurons (Lindskog et al. 2006) |
| 79 |
Modeling interactions in Aplysia neuron R15 (Yu et al 2004) |
| 80 |
Modeling the effects of dopamine on network synchronization (Komek et al. 2012) |
| 81 |
Motoneuron model of self-sustained firing after spinal cord injury (Kurian et al. 2011) |
| 82 |
Multiscale model of olfactory receptor neuron in mouse (Dougherty 2009) |
| 83 |
Networks of spiking neurons: a review of tools and strategies (Brette et al. 2007) |
| 84 |
Neuroprotective Role of Gap Junctions in a Neuron Astrocyte Network Model (Huguet et al 2016) |
| 85 |
Nicotinic control of dopamine release in nucleus accumbens (Maex et al. 2014) |
| 86 |
Pallidostriatal projections promote beta oscillations (Corbit, Whalen, et al 2016) |
| 87 |
Persistent Spiking in ACC Neurons (Ratte et al 2018) |
| 88 |
PreBotzinger Complex inspiratory neuron with NaP and CAN currents (Park and Rubin 2013) |
| 89 |
Prediction for the presence of voltage-gated Ca2+ channels in myelinated central axons (Brown 2003) |
| 90 |
Properties of aconitine-induced block of KDR current in NG108-15 neurons (Lin et al. 2008) |
| 91 |
Pyramidal neurons switch from integrators to resonators (Prescott et al. 2008) |
| 92 |
Relating anatomical and biophysical properties to motoneuron excitabilty (Moustafa et al. 2023) |
| 93 |
Reliability of Morris-Lecar neurons with added T, h, and AHP currents (Zeldenrust et al. 2013) |
| 94 |
Rescue of plasticity by a computationally predicted protocol (Liu et al. 2013) |
| 95 |
Respiratory central pattern generator (mammalian brainstem) (Rubin & Smith 2019) |
| 96 |
Respiratory central pattern generator including Kolliker-Fuse nucleus (Wittman et al 2019) |
| 97 |
Respiratory central pattern generator network in mammalian brainstem (Rubin et al. 2009) |
| 98 |
Respiratory control model with brainstem CPG and sensory feedback (Diekman, Thomas, and Wilson 2017) |
| 99 |
Role of active dendrites in rhythmically-firing neurons (Goldberg et al 2006) |
| 100 |
Role of KCNQ1 and IKs in cardiac repolarization (Silva, Rudy 2005) (XPP) |
| 101 |
Roles of I(A) and morphology in AP prop. in CA1 pyramidal cell dendrites (Acker and White 2007) |
| 102 |
Signal fidelity in the rostral nucleus of the solitary tract (Boxwell et al 2018) |
| 103 |
Simulation of calcium signaling in fine astrocytic processes (Denizot et al 2019) |
| 104 |
Simulation studies on mechanisms of levetiracetam-mediated inhibition of IK(DR) (Huang et al. 2009) |
| 105 |
Single neuron with dynamic ion concentrations (Cressman et al. 2009) |
| 106 |
Spike trains in Hodgkin–Huxley model and ISIs of acupuncture manipulations (Wang et al. 2008) |
| 107 |
Spontaneous calcium oscillations in astrocytes (Lavrentovich and Hemkin 2008) |
| 108 |
Spreading depression model for FHM3 with Nav1.1 mutation (Dahlem et al. 2014) |
| 109 |
Study of augmented Rubin and Terman 2004 deep brain stim. model in Parkinsons (Pascual et al. 2006) |
| 110 |
Subiculum network model with dynamic chloride/potassium homeostasis (Buchin et al 2016) |
| 111 |
Synchronization by D4 dopamine receptor-mediated phospholipid methylation (Kuznetsova, Deth 2008) |
| 112 |
Synergistic inhibitory action of oxcarbazepine on INa and IK (Huang et al. 2008) |
| 113 |
Tapered whiskers are required for active tactile sensation (Hires et al. 2013) |
| 114 |
Thalamocortical loop with delay for investigation of absence epilepsy (Liu et al 2019) |
| 115 |
The activity phase of postsynaptic neurons (Bose et al 2004) |
| 116 |
The role of ATP-sensitive potassium channels in a hippocampal neuron (Huang et al. 2007) |
| 117 |
The role of glutamate in neuronal ion homeostasis: spreading depolarization (Hubel et al 2017) |
| 118 |
Two-neuron conductance-based model with dynamic ion concentrations to study NaV1.1 channel mutations |
| 119 |
Ventricular cell model (Luo Rudy dynamic model) (Luo Rudy 1994) used in (Wang et al 2006) (XPP) |
| 120 |
Zonisamide-induced inhibition of the firing of APs in hippocampal neurons (Huang et al. 2007) |
