Homeostatic mechanisms in the temporal organization of neuronal avalanches

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• Lucilla de Arcangelis, Department of Information Engineering and CNISM, Second University of Naples, 81031 Aversa (CE), Italy
• Tuesday 23 October 2012, 12:00-13:00
• Dennis Gabor Seminar Room (611), EEE Department.

If you have a question about this talk, please contact Henrik J Jensen.

Neuronal avalanches are a novel mode of activity in neuronal networks, experimentally found in vitro and in vivo, and exhibit a robust critical behaviour. Avalanche activity can be modelled within the self-organized criticality framework, including threshold firing, refractory period and activity-dependent synaptic plasticity. The size and duration distributions confirm that the system acts in a critical state, whose scaling behaviour is very robust. Moreover, the model is able to learn Boolean rules via plastic adaptation of synaptic strengths by a non-uniform negative feedback mechanism. Learning is a truly collective process and the learning dynamics exhibits universal features.

The temporal organization of neuronal avalanches can be characterized by the distribution of waiting times between successive events. Experimental measurements in the rat cortex in vitro exhibit a non-monotonic behavior not usually found in other natural processes. Numerical simulations provide evidence that this behavior is a consequence of the alternation between states of high and low activity, named up and down states, leading to a balance between excitation and inhibition controlled by a single parameter. During these periods, both the single neuron state and the network excitability level, keeping memory of past activity, are tuned by homeostatic mechanisms.

References

L. de Arcangelis, C. Perrone Capano, H.J. Herrmann, PRL 96 , 028107 (2006)

L. de Arcangelis and H.J. Herrmann, PNAS 107 , 3977 (2010)

F. Lombardi, H. J. Herrmann, C. Perrone-Capano, D. Plenz, L. de Arcangelis, PRL 108 , 228703 (2012)

This talk is part of the Complexity & Networks Group series.

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• Complexity & Networks Group
• Dennis Gabor Seminar Room (611), EEE Department

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