The dynamics of neuronal firing activity is vital for understanding the pathological respiratory rhythm. Studies on electrophysiology show that the magnetic flow is an essential factor that modulates the firing activities of neurons. By adding the magnetic flow to Butera’s neuron model, we investigate how the electric current and magnetic flow influence neuronal activities under certain parametric restrictions. Using fast-slow decomposition and bifurcation analysis, we show that the variation of external electric current and magnetic flow leads to the change of the bistable structure of the system and hence results in the switch of neuronal firing pattern from one type to another
Issued as final reportAlso Project no. E-21-H42United States. Department of Health and Human Service...
Several firing patterns experimentally observed in neural populations have been successfully correla...
Neural mass models are an appropriate framework to study brain activity, combining a high degree of ...
To investigate the effect of electromagnetic induction on the electrical activity of neuron, the var...
<p>As the principal cell of the striatum, medium spiny neurons (MSNs) are closely associated with va...
Both of astrocytes and electromagnetic induction are magnificent to modulate neuron firing by introd...
To provide insights into the modulation of neuronal activity by extremely low-frequency (ELF) magnet...
A simple neural circuit coupled by magnetic flux-controlled memristor (MFCM) can be controlled to de...
<p>Neurons show diverse firing patterns. Even neurons belonging to a single chemical or morphologica...
Neurons in the brain are known to exhibit diverse bursting patterns. In this work, which combines th...
The pre-Botzinger complex (pBC) is a sub-circuit of the respiratory central pattern generator. The ...
Electrical stimulation of neural systems is a key tool for understanding neural dynamics and ultimat...
Electrical activities are ubiquitous neuronal bioelectric phenomena, which have many different modes...
Several firing patterns experimentally observed in neural populations have been successfully correla...
Motoneuron discharge patterns reflect the interaction of synaptic inputs with intrinsic conductances...
Issued as final reportAlso Project no. E-21-H42United States. Department of Health and Human Service...
Several firing patterns experimentally observed in neural populations have been successfully correla...
Neural mass models are an appropriate framework to study brain activity, combining a high degree of ...
To investigate the effect of electromagnetic induction on the electrical activity of neuron, the var...
<p>As the principal cell of the striatum, medium spiny neurons (MSNs) are closely associated with va...
Both of astrocytes and electromagnetic induction are magnificent to modulate neuron firing by introd...
To provide insights into the modulation of neuronal activity by extremely low-frequency (ELF) magnet...
A simple neural circuit coupled by magnetic flux-controlled memristor (MFCM) can be controlled to de...
<p>Neurons show diverse firing patterns. Even neurons belonging to a single chemical or morphologica...
Neurons in the brain are known to exhibit diverse bursting patterns. In this work, which combines th...
The pre-Botzinger complex (pBC) is a sub-circuit of the respiratory central pattern generator. The ...
Electrical stimulation of neural systems is a key tool for understanding neural dynamics and ultimat...
Electrical activities are ubiquitous neuronal bioelectric phenomena, which have many different modes...
Several firing patterns experimentally observed in neural populations have been successfully correla...
Motoneuron discharge patterns reflect the interaction of synaptic inputs with intrinsic conductances...
Issued as final reportAlso Project no. E-21-H42United States. Department of Health and Human Service...
Several firing patterns experimentally observed in neural populations have been successfully correla...
Neural mass models are an appropriate framework to study brain activity, combining a high degree of ...