Triggering up states in all-to-all coupled neurons

H. V.V. Ngo; J. Köhler; J. Mayer; J. C. Claussen; H. G. Schuster

doi:10.1209/0295-5075/89/68002

Triggering up states in all-to-all coupled neurons

H. V.V. Ngo, J. Köhler, J. Mayer, J. C. Claussen, H. G. Schuster

University of Kiel

4 Citations (Scopus)

Abstract

Slow-wave sleep in mammalians is characterized by a change of large-scale cortical activity currently paraphrased as cortical Up/Down states. A recent experiment demonstrated a bistable collective behaviour in ferret slices, with the remarkable property that the Up states can be switched on and off with pulses, or excitations, of same polarity; whereby the effect of the second pulse significantly depends on the time interval between the pulses. Here we present a simple time-discrete model of a neural network that exhibits this type of behaviour, as well as quantitatively reproduces the time dependence found in the experiments.

Original language	English
Journal	EPL
Volume	89
Issue number	6
Pages (from-to)	68002- 68007
Number of pages	6
ISSN	0295-5075
DOIs	https://doi.org/10.1209/0295-5075/89/68002
Publication status	Published - 13.04.2010

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AU - Ngo, H. V.V.

AU - Köhler, J.

AU - Mayer, J.

AU - Claussen, J. C.

AU - Schuster, H. G.

PY - 2010/4/13

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N2 - Slow-wave sleep in mammalians is characterized by a change of large-scale cortical activity currently paraphrased as cortical Up/Down states. A recent experiment demonstrated a bistable collective behaviour in ferret slices, with the remarkable property that the Up states can be switched on and off with pulses, or excitations, of same polarity; whereby the effect of the second pulse significantly depends on the time interval between the pulses. Here we present a simple time-discrete model of a neural network that exhibits this type of behaviour, as well as quantitatively reproduces the time dependence found in the experiments.

AB - Slow-wave sleep in mammalians is characterized by a change of large-scale cortical activity currently paraphrased as cortical Up/Down states. A recent experiment demonstrated a bistable collective behaviour in ferret slices, with the remarkable property that the Up states can be switched on and off with pulses, or excitations, of same polarity; whereby the effect of the second pulse significantly depends on the time interval between the pulses. Here we present a simple time-discrete model of a neural network that exhibits this type of behaviour, as well as quantitatively reproduces the time dependence found in the experiments.

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ER -

Triggering up states in all-to-all coupled neurons

Abstract

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