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Research team demonstrates cortex’s self-organizing abilities in neural development

by Medical Xpress
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Uniform optogenetic stimulation evokes diverse patterns of modular activity. Credit: Nature Communications (2024). DOI: 10.1038/s41467-024-48341-x

Published in Nature Communications, an international collaboration between researchers at the University of Minnesota and the Frankfurt Institute for Advanced Studies investigated how highly organized patterns of neural activity emerge during development. They found the cortex of the brain can transform unorganized inputs into highly organized patterns of activity—demonstrating self-organization.

“What makes this transformation so important is that it appears to occur entirely within the cortex itself, indicating that the brain is able to organize its own function during development,” said Gordon Smith, Ph.D., an assistant professor at the U of M Medical School.

“This suggests that any perturbations to these small-scale interactions can dramatically change the function of the brain, which may impact sensory perception and possibly contribute to like autism.”

In a self-organizing system, small-scale interactions combine to generate large-scale organization. By closely combining theory and experiment, the research team was able to show that mathematical rules similar to those found to govern the patterns in a broad range of living and non-living systems, such as the spots on certain fish and the spacing of sand dunes, also guide the development of the brain.

“Our results suggest that neural activity patterns in the early cortex arise dynamically through that involve a balance between local activation and lateral suppression, confirming a theoretical hypothesis of brain development dating back decades,” said Matthias Kaschube, Ph.D., professor at the Frankfurt Institute for Advanced Studies and co-investigator of the study.

The research team used optical tools recently developed at the U of M to directly demonstrate how the large-scale structure of developing brain networks emerges from the networks themselves, rather than being imprinted from an external source.

“By utilizing cutting-edge , these experiments allowed us to test a long-held scientific theory and show that the brain organizes its own activity during ,” said Dr. Smith, who is also a member of the Medical Discovery Team on Optical Imaging and Brain Science.

Ongoing research is exploring how alterations in these self-organized neural activity patterns early in development impact sensory perception later in development.

More information:
Haleigh N. Mulholland et al, Self-organization of modular activity in immature cortical networks, Nature Communications (2024). DOI: 10.1038/s41467-024-48341-x

Citation:
Research team demonstrates cortex’s self-organizing abilities in neural development (2024, May 21)
retrieved 21 May 2024
from https://medicalxpress.com/news/2024-05-team-cortex-abilities-neural.html

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