SummaryModels of cortical dynamics often assume a homogeneous connectivity structure. However, we show that heterogeneous input connectivity can prevent the dynamic balance between excitation and inhibition, a hallmark of cortical dynamics, and yield unrealistically sparse and temporally regular firing. Anatomically based estimates of the connectivity of layer 4 (L4) rat barrel cortex and numerical simulations of this circuit indicate that the local network possesses substantial heterogeneity in input connectivity, sufficient to disrupt excitation-inhibition balance. We show that homeostatic plasticity in inhibitory synapses can align the functional connectivity to compensate for structural heterogeneity. Alternatively, spike-frequency adap...
The brain consists of complex interacting networks of excitatory and inhibitory neurons. The spatio-...
Cortical processing reflects the interplay of synaptic excitation and synaptic inhibition. Rapidly a...
Repetitive activation of subpopulations of neurons leads to the formation of neuronal assemblies, wh...
SummaryModels of cortical dynamics often assume a homogeneous connectivity structure. However, we sh...
Models of cortical dynamics often assume a homogeneous connectivity structure. However, we show that...
Traditional analysis of cortical network dynamics has most commonly treated simple random graph stru...
The purpose of this research is to study the implications of Excitation/Inhibition balance and imbal...
Cortical networks are thought to operate in a state of tightly balanced excitation and inhibition....
The connectivity of cortical neuronal networks is complex, exhibiting clustered network motifs and e...
<div><p>Understanding the relationship between external stimuli and the spiking activity of cortical...
Cortical networks both in vivo and in vitro sustain asynchronous irregular firings with extremely lo...
The principal function of neurons in the cortex is to communicate and process information. A charact...
A dynamic balance between strong excitatory and inhibitory neuronal inputs is hypothesized to play a...
Balanced networks of inhibitory and excitatory neurons with homogeneously random recurrent connectiv...
Pas de résuméThe local cortical network connectivity significantly deviates from a random network, g...
The brain consists of complex interacting networks of excitatory and inhibitory neurons. The spatio-...
Cortical processing reflects the interplay of synaptic excitation and synaptic inhibition. Rapidly a...
Repetitive activation of subpopulations of neurons leads to the formation of neuronal assemblies, wh...
SummaryModels of cortical dynamics often assume a homogeneous connectivity structure. However, we sh...
Models of cortical dynamics often assume a homogeneous connectivity structure. However, we show that...
Traditional analysis of cortical network dynamics has most commonly treated simple random graph stru...
The purpose of this research is to study the implications of Excitation/Inhibition balance and imbal...
Cortical networks are thought to operate in a state of tightly balanced excitation and inhibition....
The connectivity of cortical neuronal networks is complex, exhibiting clustered network motifs and e...
<div><p>Understanding the relationship between external stimuli and the spiking activity of cortical...
Cortical networks both in vivo and in vitro sustain asynchronous irregular firings with extremely lo...
The principal function of neurons in the cortex is to communicate and process information. A charact...
A dynamic balance between strong excitatory and inhibitory neuronal inputs is hypothesized to play a...
Balanced networks of inhibitory and excitatory neurons with homogeneously random recurrent connectiv...
Pas de résuméThe local cortical network connectivity significantly deviates from a random network, g...
The brain consists of complex interacting networks of excitatory and inhibitory neurons. The spatio-...
Cortical processing reflects the interplay of synaptic excitation and synaptic inhibition. Rapidly a...
Repetitive activation of subpopulations of neurons leads to the formation of neuronal assemblies, wh...