Recent physiological studies have shown that neurons in various regions of the central nervous systems continuously receive noisy excitatory and inhibitory synaptic inputs in a balanced and covaried fashion. While this balanced synaptic input (BSI) is typically described in terms of maintaining the stability of neural circuits, a number of experimental and theoretical studies have suggested that BSI plays a proactive role in brain functions such as top-down modulation for executive control. Two issues have remained unclear in this picture. First, given the noisy nature of neuronal activities in neural circuits, how do the modulatory effects change if the top-down control implements BSI with different ratios between inhibition and excitation...
Excitation-inhibition (EI) balance controls excitability, dynamic range, and input gating in many br...
Excitation-inhibition (EI) balance controls excitability, dynamic range, and input gating in many br...
Humans and animals are remarkable at detecting stimuli that predict rewards. While the underlying ne...
<div><p>Behavioural and neurophysiological studies in primates have increasingly shown the involveme...
<p>The basic model circuit consists of two strongly-recurrent populations of excitatory neurons (Exc...
During perceptual decision-making, the firing rates of cortical neurons reflect upcoming choices. Re...
<div><p>Feedforward inhibition and synaptic scaling are important adaptive processes that control th...
We are surrounded by a world, which makes sense, only because we make sense of it. At every instant ...
The responses of neurons in sensory cortex depend on the summation of excitatory and inhibitory syna...
Inhibitory neurons, which play a critical role in decision-making models, are often simplified as a ...
SummaryUltimately, whether or not a neuron produces a spike determines its contribution to local com...
Inhibition is crucial for brain function, regulating network activity by balancing excitation and im...
Feedback circuitry with conduction and synaptic delays is ubiquitous in the nervous system. Yet the ...
Cortical neurons receive balanced excitatory and inhibitory synaptic currents. Such a balance could ...
Feedforward inhibition and synaptic scaling are important adaptive processes that control the total ...
Excitation-inhibition (EI) balance controls excitability, dynamic range, and input gating in many br...
Excitation-inhibition (EI) balance controls excitability, dynamic range, and input gating in many br...
Humans and animals are remarkable at detecting stimuli that predict rewards. While the underlying ne...
<div><p>Behavioural and neurophysiological studies in primates have increasingly shown the involveme...
<p>The basic model circuit consists of two strongly-recurrent populations of excitatory neurons (Exc...
During perceptual decision-making, the firing rates of cortical neurons reflect upcoming choices. Re...
<div><p>Feedforward inhibition and synaptic scaling are important adaptive processes that control th...
We are surrounded by a world, which makes sense, only because we make sense of it. At every instant ...
The responses of neurons in sensory cortex depend on the summation of excitatory and inhibitory syna...
Inhibitory neurons, which play a critical role in decision-making models, are often simplified as a ...
SummaryUltimately, whether or not a neuron produces a spike determines its contribution to local com...
Inhibition is crucial for brain function, regulating network activity by balancing excitation and im...
Feedback circuitry with conduction and synaptic delays is ubiquitous in the nervous system. Yet the ...
Cortical neurons receive balanced excitatory and inhibitory synaptic currents. Such a balance could ...
Feedforward inhibition and synaptic scaling are important adaptive processes that control the total ...
Excitation-inhibition (EI) balance controls excitability, dynamic range, and input gating in many br...
Excitation-inhibition (EI) balance controls excitability, dynamic range, and input gating in many br...
Humans and animals are remarkable at detecting stimuli that predict rewards. While the underlying ne...