Sharp wave ripples (SPW‐Rs) represent the most synchronous population pattern in the
mammalian brain. Their excitatory output affects a wide area of the cortex and several …

Synchronous rhythms represent a core mechanism for sculpting temporal coordination of
neural activity in the brain-wide network. This review focuses on oscillations in the cerebral …

Different brain rhythms, with both low-frequency and fast-frequency, are grouped within
complex wave-sequences. Instead of dissecting various frequency bands of the major …

An increasingly large body of data exists which demonstrates that oscillations of frequency
12–80 Hz are a consequence of, or are inextricably linked to, the behaviour of inhibitory …

When the local field potential of a cortical network displays coherent fast oscillations (∼ 40-
Hz gamma or∼ 200-Hz sharp-wave ripples), the spike trains of constituent neurons are …

High frequency oscillations (HFO) have a variety of characteristics: band-limited or broad-
band, transient burst-like phenomenon or steady-state. HFOs may be encountered under …

Neurons that Fire Together Also Conspire Together: Is Normal Sleep Circuitry Hijacked to
Generate Epilepsy?: Neuron Skip to Main Content Advertisement Neuron This journal offers …

We reviewed computer models that have been developed to reproduce and explain
epileptiform activity. Unlike other already-published reviews on computer models of …

To better understand population phenomena in thalamocortical neuronal ensembles, we
have constructed a preliminary network model with 3,560 multicompartment neurons …

In vitro models of rhythms of cognitive relevance, such as gamma (30–80 Hz) and theta (5–
12 Hz) rhythms in the hippocampus, demonstrate an absolute requirement for phasic …