<div><p>Striatal projection neurons form a sparsely-connected inhibitory network, and this arrangement may be essential for the appropriate temporal organization of behavior. Here we show that a simplified, sparse inhibitory network of Leaky-Integrate-and-Fire neurons can reproduce some key features of striatal population activity, as observed in brain slices. In particular we develop a new metric to determine the conditions under which sparse inhibitory networks form anti-correlated cell assemblies with time-varying activity of individual cells. We find that under these conditions the network displays an input-specific sequence of cell assembly switching, that effectively discriminates similar inputs. Our results support the proposal that ...
The basal ganglia are a set of subcortical nuclei that are thought to play important roles in motor ...
<div><p>Unraveling the interplay between connectivity and spatio-temporal dynamics in neuronal netwo...
Network oscillations are ubiquitous across many brain regions. In the basal ganglia, oscillations ar...
22 pages, 9 figuresInternational audienceStriatal projection neurons form a sparsely-connected inhib...
Here we show that a simple inhibitory network model, made of sparsely connected Leaky Integrate and ...
Cell assemblies exhibiting episodes of recurrent coherent activity have been observed in several bra...
The striatal medium spiny neuron (MSN) network is sparsely connected with fairly weak GABAergic coll...
Inhibition is a key aspect of neural dynamics playing a fundamental role for the emergence of neural...
Neurons form transiently stable assemblies that may underlie cognitive functions, including memory f...
The striatum is the main input nucleus of the basal ganglia. Characterizing striatal activity dynami...
We have simulated a network of 10,000 two-compartment cells, spatially distributed on a two-dimensio...
Network oscillations are ubiquitous across many brain regions. In the basal ganglia, oscillations ar...
Balanced networks of inhibitory and excitatory neurons with homogeneously random recurrent connectiv...
The striatum, the principal input structure of the basal ganglia, is crucial to both motor control a...
Neural circuits in the brain have distinct and highly conserved ratios of excitatory and inhibitory ...
The basal ganglia are a set of subcortical nuclei that are thought to play important roles in motor ...
<div><p>Unraveling the interplay between connectivity and spatio-temporal dynamics in neuronal netwo...
Network oscillations are ubiquitous across many brain regions. In the basal ganglia, oscillations ar...
22 pages, 9 figuresInternational audienceStriatal projection neurons form a sparsely-connected inhib...
Here we show that a simple inhibitory network model, made of sparsely connected Leaky Integrate and ...
Cell assemblies exhibiting episodes of recurrent coherent activity have been observed in several bra...
The striatal medium spiny neuron (MSN) network is sparsely connected with fairly weak GABAergic coll...
Inhibition is a key aspect of neural dynamics playing a fundamental role for the emergence of neural...
Neurons form transiently stable assemblies that may underlie cognitive functions, including memory f...
The striatum is the main input nucleus of the basal ganglia. Characterizing striatal activity dynami...
We have simulated a network of 10,000 two-compartment cells, spatially distributed on a two-dimensio...
Network oscillations are ubiquitous across many brain regions. In the basal ganglia, oscillations ar...
Balanced networks of inhibitory and excitatory neurons with homogeneously random recurrent connectiv...
The striatum, the principal input structure of the basal ganglia, is crucial to both motor control a...
Neural circuits in the brain have distinct and highly conserved ratios of excitatory and inhibitory ...
The basal ganglia are a set of subcortical nuclei that are thought to play important roles in motor ...
<div><p>Unraveling the interplay between connectivity and spatio-temporal dynamics in neuronal netwo...
Network oscillations are ubiquitous across many brain regions. In the basal ganglia, oscillations ar...