2018
DOI: 10.3389/fninf.2018.00088
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Complex Dynamics in Simplified Neuronal Models: Reproducing Golgi Cell Electroresponsiveness

Abstract: Brain neurons exhibit complex electroresponsive properties – including intrinsic subthreshold oscillations and pacemaking, resonance and phase-reset – which are thought to play a critical role in controlling neural network dynamics. Although these properties emerge from detailed representations of molecular-level mechanisms in “realistic” models, they cannot usually be generated by simplified neuronal models (although these may show spike-frequency adaptation and bursting). We report here that this whole set o… Show more

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Cited by 32 publications
(52 citation statements)
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“…Secondly, the scaffold could be used to evaluate the trade-off between computational efficiency and precision. Therefore, the present LIF single point neurons could be substituted by others (extended generalized LIF, E-GLIF) embedding non-linear firing properties (e.g., Brette and Gerstner, 2005; Geminiani et al, 2018) and accounting for synaptic dendritic location by modifying the transmission weight depending on the distance of synapses from the soma (Rössert et al, 2016) or based on experimental data when available.…”
Section: Discussionmentioning
confidence: 99%
“…Secondly, the scaffold could be used to evaluate the trade-off between computational efficiency and precision. Therefore, the present LIF single point neurons could be substituted by others (extended generalized LIF, E-GLIF) embedding non-linear firing properties (e.g., Brette and Gerstner, 2005; Geminiani et al, 2018) and accounting for synaptic dendritic location by modifying the transmission weight depending on the distance of synapses from the soma (Rössert et al, 2016) or based on experimental data when available.…”
Section: Discussionmentioning
confidence: 99%
“…In previous work, E-GLIF proved able to generate the complete set of GoC spiking responses to different inputs, with a minimum number of equations and free parameters. This makes it the best candidate to be used in SNNs to optimize the compromise between biological plausibility and computational load (Geminiani et al, 2018).…”
Section: Methodsmentioning
confidence: 99%
“…The endogenous current, I e , accounts for autorhythm and regulation of the intrinsic steady-state membrane potential; the adaptive current, I adap , coupled with V m accounts for intrinsic sub-threshold oscillations of the membrane potential and represents the slow hyperpolarizing sub-cellular currents, e.g., the K + channel currents; the spike-triggered current, I dep , accounts for fast depolarizing mechanisms, e.g., the Na + and low threshold voltage activated Ca 2+ channel currents. For neuron connections within SNNs, conductance-based synapses are used, with spike-triggered change of synaptic conductance, g syn , according to an alpha function (Cavallari et al, 2014; Geminiani et al, 2018):…”
Section: Methodsmentioning
confidence: 99%
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