Investigating the interplay between segregation and integration in developing cortical assemblies
Valerio Barabino, Ilaria Donati della Lunga, Francesca Callegari, Letizia Cerutti, Fabio Poggio, Mariateresa Tedesco, Paolo Massobrio, Martina Brofiga

TL;DR
This study explores how the balance between segregation and integration affects the development of cortical networks using a controllable in vitro model.
Contribution
The study introduces a novel in vitro model to investigate the segregation/integration balance in cortical network development.
Findings
Early mask removal (5 DIVs) led to integration levels similar to homogeneous controls.
Late mask removal (15 DIVs) resulted in more segregated and clustered assemblies.
A critical balance was observed when the mask was removed at 10 DIVs.
Abstract
The human brain is an intricate structure composed of interconnected modular networks, whose organization is known to balance the principles of segregation and integration, enabling rapid information exchange and the generation of coherent brain states. Segregation involves the specialization of brain regions for specific tasks, while integration facilitates communication among these regions, allowing for efficient information flow. Several factors influence this balance, including maturation, aging, and the insurgence of neurological disorders like epilepsy, stroke, or cancer. To gain insights into information processing and connectivity recovery, we devised a controllable in vitro model to mimic and investigate the effects of different segregation and integration ratios over time. We designed a cross-shaped polymeric mask to initially establish four independent sub-populations of…
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Taxonomy
TopicsNeural dynamics and brain function · Neuroscience and Neural Engineering · Functional Brain Connectivity Studies
