Parvalbumin-expressing (PV+) GABAergic interneurons mediate feedforward and feedback
inhibition and have a key role in gamma oscillations and information processing. The …

Data-driven models of neurons and circuits are important for understanding how the
properties of membrane conductances, synapses, dendrites, and the anatomical …

Scientists have observed local field potential theta rhythms (3–12 Hz) in the hippocampus
for decades, but understanding the mechanisms underlying their generation is complicated …

Hippocampal theta is a 4–12 Hz rhythm associated with episodic memory, and although it
has been studied extensively, the cellular mechanisms underlying its generation are …

Determining the biological details and mechanisms that are essential for the generation of
population rhythms in the mammalian brain is a challenging problem. This problem cannot …

Computational models of neural circuits with varying levels of biophysical detail have been
generated in pursuit of an underlying mechanism explaining the ubiquitous hippocampal …

Neuron types (eg, pyramidal cells) within one area of the brain are often considered
homogeneous, despite variability in their biophysical properties. Here we review literature …

Modeling brain dynamics to better understand and control complex behaviors underlying
various cognitive brain functions have been of interest to engineers, mathematicians and …

Mean-field systems have been previously derived for networks of coupled, two-dimensional,
integrate-and-fire neurons such as the Izhikevich, adapting exponential, and quartic …

The wide variety of cell types and their biophysical complexities pose a challenge in our
ability to understand oscillatory activities produced by cellular‐based computational network …