• Emory Dept. of Physics

Physicists develop theoretical model for neural activity of mouse brain

The dynamics of the neural activity of a mouse brain behave in a peculiar, unexpected way that can be theoretically modeled without any fine tuning, suggests a new paper by physicists at Emory University. Physical Review Letters published the research, which adds to the evidence that theoretical physics frameworks may aid in the understanding of large-scale brain activity.




Read below for an expert by Carol Clark:

For the current paper, the Emory researchers wanted to test whether fine-tuning of particular parameters were necessary for the observation of criticality in the mouse brain experiments, or whether the critical correlations in the brain could be achieved simply through the process of it receiving external stimuli. The idea came from previous work that Nemenman’s group collaborated on, explaining how biological systems can exhibit Zipf’s law — a unique pattern of activity found in disparate systems.
“We previously created a model that showed Zipf’s law in a biological system, and that model did not require fine tuning,” Nemenman says. “Zipf’s law is a particular form of criticality. For this paper, we wanted to make that model a bit more complicated, to see if could predict the specific critical correlations observed in the mouse experiments.”

Continue reading at: https://news.emory.edu/stories/2021/04/esc_theoretical_model_neural_activity_mouse_brain/campus.html



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https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.126.118302

https://news.emory.edu/stories/2021/04/esc_theoretical_model_neural_activity_mouse_brain/campus.html

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