To address the issue of extracting useful information from large data-set of large scale networks of neurons, we propose an algorithm that involves both algebraic-statistical and topological tools. We investigate the electrical behavior of in vitro cortical assemblies both during spontaneous and stimulus-evoked activity coupled to Micro-Electrode Arrays (MEAs). Our goal is to identify core sub-networks of repetitive and synchronous patterns of activity and to characterize them. The analysis is performed at different resolution levels using a clustering algorithm that reduces the network dimensionality. To better visualize the results, we provide a graphical representation of the detected sub-networks and characterize them with a topological...
Information in the cortex is thought to be represented by the joint activity of neurons. Here we des...
The analysis of the activity of neuronal cultures is considered to be a good proxy of the functional...
Modular architecture is a hallmark of many brain circuits. In the cerebral cortex, in particular, it...
Abstract Understanding the brain functioning is essential for governing brain processes with the aim...
A recent publication provides the network graph for a neocortical microcircuit comprising 8 million ...
Complex network topologies represent the necessary substrate to support complex brain functions. In ...
Functional-effective connectivity and network topology are nowadays key issues for studying brain ph...
Cultures of dissociated cortical neurons represent a powerful trade-off between more realistic exper...
Neural activation patterns proceed often by schemes or motifs distributed across the involved cortic...
The connectivity of cortical neuronal networks is complex, exhibiting clustered network motifs and e...
In this paper the use of topological clustering for decoding population neuronal responses and reduc...
A lot of methods were created in last decade for the spatio-temporal analysis of multi-electrode arr...
Linking the structural connectivity of brain circuits to their cooperative dynamics and emergent fun...
Neural activation patterns proceed often by schemes or motifs distributed across the involved cortic...
Spontaneous cortical activity can show very complex collective emerging features, with, in some case...
Information in the cortex is thought to be represented by the joint activity of neurons. Here we des...
The analysis of the activity of neuronal cultures is considered to be a good proxy of the functional...
Modular architecture is a hallmark of many brain circuits. In the cerebral cortex, in particular, it...
Abstract Understanding the brain functioning is essential for governing brain processes with the aim...
A recent publication provides the network graph for a neocortical microcircuit comprising 8 million ...
Complex network topologies represent the necessary substrate to support complex brain functions. In ...
Functional-effective connectivity and network topology are nowadays key issues for studying brain ph...
Cultures of dissociated cortical neurons represent a powerful trade-off between more realistic exper...
Neural activation patterns proceed often by schemes or motifs distributed across the involved cortic...
The connectivity of cortical neuronal networks is complex, exhibiting clustered network motifs and e...
In this paper the use of topological clustering for decoding population neuronal responses and reduc...
A lot of methods were created in last decade for the spatio-temporal analysis of multi-electrode arr...
Linking the structural connectivity of brain circuits to their cooperative dynamics and emergent fun...
Neural activation patterns proceed often by schemes or motifs distributed across the involved cortic...
Spontaneous cortical activity can show very complex collective emerging features, with, in some case...
Information in the cortex is thought to be represented by the joint activity of neurons. Here we des...
The analysis of the activity of neuronal cultures is considered to be a good proxy of the functional...
Modular architecture is a hallmark of many brain circuits. In the cerebral cortex, in particular, it...