Multiscale Modeling of Cortical Neural Networks

In this study, we describe efforts at modeling the electrophysiological dynamics of cortical networks in a multi‐scale manner. Specifically, we describe the implementation of a network model composed of simple single‐compartmental neuron models, in which a single complex multi‐compartmental model of a pyramidal neuron is embedded. The network is capable of generating Δ (2 Hz, observed during deep sleep states) and γ (40 Hz, observed during wakefulness) oscillations, which are then imposed onto the multi‐compartmental model, thus providing realistic, dynamic boundary conditions. We furthermore discuss the challenges and chances involved in multi‐scale modeling of neural function.