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Temperature effects on neuronal synchronization in seizures.

Rosangela FollmannTwinkle JaswalGeorge JacobJonas Ferreira de OliveiraCarter B HerbertElbert E N MacauEpaminondas Rosa
Published in: Chaos (Woodbury, N.Y.) (2024)
We present a computational model of networked neurons developed to study the effect of temperature on neuronal synchronization in the brain in association with seizures. The network consists of a set of chaotic bursting neurons surrounding a core tonic neuron in a square lattice with periodic boundary conditions. Each neuron is reciprocally coupled to its four nearest neighbors via temperature dependent gap junctions. Incorporating temperature in the gap junctions makes the coupling stronger when temperature rises, resulting in higher likelihood for synchrony in the network. Raising the temperature eventually makes the network elicit waves of synchronization in circular ripples that propagate from the center outwardly. We suggest this process as a possible underlying mechanism for seizures induced by elevated brain temperatures.
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