Multilevel computational models for predicting the cellular effects of noninvasive brain stimulation
Since 2000, there has been rapid acceleration in the use of tDCS in both clinical and
cognitive neuroscience research, encouraged by the simplicity of the technique (two …
cognitive neuroscience research, encouraged by the simplicity of the technique (two …
Direct current stimulation alters neuronal input/output function
Background Direct current stimulation (DCS) affects both neuronal firing rate and synaptic
efficacy. The neuronal input/output (I/O) function determines the likelihood that a neuron …
efficacy. The neuronal input/output (I/O) function determines the likelihood that a neuron …
Estimate the electrical activity in a neuron under depolarization field
Z Hou, J Ma, X Zhan, L Yang, Y Jia - Chaos, Solitons & Fractals, 2021 - Elsevier
The physical electric variable is included into the known Hindmarsh-Rose (HR) model for
estimating the depolarization field effect and then external current forcing is applied to detect …
estimating the depolarization field effect and then external current forcing is applied to detect …
[HTML][HTML] Effects of neuronal morphology and time delay on inverse stochastic resonance in two-compartment neuron model
C Liu, D Yu, T Li, X Wang, Y Xie, Y Jia - Physics Letters A, 2024 - Elsevier
Inverse stochastic resonance (ISR) is a depression phenomenon of firing activity of neuron
with respect to noise, and the characteristics of neural systems are determined by neuronal …
with respect to noise, and the characteristics of neural systems are determined by neuronal …
Bifurcations underlying different excitability transitions modulated by excitatory and inhibitory memristor and chemical autapses
F Wu, H Gu, Y Jia - Chaos, Solitons & Fractals, 2021 - Elsevier
Memristor is an emerging modulation factor to mimic neuronal synapse, and the switch or
transition between neuronal excitability classes is an important topic in nonlinear dynamics …
transition between neuronal excitability classes is an important topic in nonlinear dynamics …
Dynamic response of the e-HR neuron model under electromagnetic induction
S Qiao, XL An - Pramana, 2021 - Springer
Due to the fluctuation of membrane potential of neuron, there are complex time-varying
electromagnetic fields in nervous systems, and the exciting electromagnetic field will further …
electromagnetic fields in nervous systems, and the exciting electromagnetic field will further …
[HTML][HTML] Morphology controls how hippocampal CA1 pyramidal neuron responds to uniform electric fields: a biophysical modeling study
Responses of different neurons to electric field (EF) are highly variable, which depends on
intrinsic properties of cell type. Here we use multi-compartmental biophysical models to …
intrinsic properties of cell type. Here we use multi-compartmental biophysical models to …
Principles of transcranial direct current stimulation (tDCS): introduction to the biophysics of tDCS
This chapter summarizes the current knowledge about the biophysics of transcranial direct
current stimulation (tDCS). It begins by illustrating the basic physical principles by which …
current stimulation (tDCS). It begins by illustrating the basic physical principles by which …
[HTML][HTML] Dendritic properties control energy efficiency of action potentials in cortical pyramidal cells
Neural computation is performed by transforming input signals into sequences of action
potentials (APs), which is metabolically expensive and limited by the energy available to the …
potentials (APs), which is metabolically expensive and limited by the energy available to the …
Spike-frequency adaptation of a two-compartment neuron modulated by extracellular electric fields
Spike-frequency adaptation has been shown to play an important role in neural coding.
Based on a reduced two-compartment model, here we investigate how two common …
Based on a reduced two-compartment model, here we investigate how two common …