Experimental Platform to Study Spiking Pattern Propagation in Modular Networks In Vitro

Experimental Platform to Study Spiking Pattern Propagation in Modular Networks In Vitro

The structured organization of connectivity in neural networks is associated with highly efficient information propagation and processing in the brain, in contrast with disordered homogeneous network architectures. Using microfluidic methods, we engineered modular networks of cultures using dissocia...

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Bibliographic Details
Main Authors: Yana Pigareva, Arseniy Gladkov, Vladimir Kolpakov, Irina Mukhina, Anton Bukatin, Victor B. Kazantsev, Alexey Pimashkin
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Brain Sciences
Subjects:
microfluidics
dissociated culture
modular neural networks
microelectrode array
synaptic plasticity
Online Access:https://www.mdpi.com/2076-3425/11/6/717
Description
Summary:The structured organization of connectivity in neural networks is associated with highly efficient information propagation and processing in the brain, in contrast with disordered homogeneous network architectures. Using microfluidic methods, we engineered modular networks of cultures using dissociated cells with unidirectional synaptic connections formed by asymmetric microchannels. The complexity of the microchannel geometry defined the strength of the synaptic connectivity and the properties of spiking activity propagation. In this study, we developed an experimental platform to study the effects of synaptic plasticity on a network level with predefined locations of unidirectionally connected cellular assemblies using multisite extracellular electrophysiology.
ISSN:2076-3425

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