Mechanisms of physiological and epileptic HFO generation

Jefferys, John G. R.; Prida, Liset Menéndez de la; Wendling, Fabrice; Bragin, Anatol; Avoli, Massimo; Timofeev, Igor; Silva, Fernando H. Lopes da

doi:10.1016/j.pneurobio.2012.02.005

Cited by 261 publications

(246 citation statements)

References 234 publications

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“…HFOs are categorized as ripples and fast ripples (250 -500 Hz) (Jefferys et al 2012a), and it has been proposed that ripples represent inhibitory postsynaptic potentials (IPSPs) generated by principal neurons entrained by synchronously active interneuron networks (Ylinen et al 1995), whereas fast ripples reflect synchronous in-phase or out-ofphase firing of abnormally active (Jefferys et al 2012) principal cells, thus being independent of inhibitory neurotransmission (Dzhala and Staley 2004;Foffani et al 2007;Engel et al 2009;Ibarz et al 2010;Bragin et al 2011). According to the findings reported by Avoli and colleagues (Levesque et al 2012), low-voltage fast activity seizures are mainly associated with increased ripple rates, whereas hypersynchronous seizures are mostly accompanied by fast ripples.…”

Section: Seizure Onsetmentioning

confidence: 99%

Initiation, Propagation, and Termination of Partial (Focal) Seizures

Curtis

Avoli

2015

Cold Spring Harb Perspect Med

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The neurophysiological patterns that correlate with partial (focal) seizures are well defined in humans by standard electroencephalogram (EEG) and presurgical depth electrode recordings. Seizure patterns with similar features are reproduced in animal models of partial seizures and epilepsy. However, the network determinants that support interictal spikes, as well as the initiation, progression, and termination of seizures, are still elusive. Recent findings show that inhibitory networks are prominently involved at the onset of these seizures, and that extracellular changes in potassium contribute to initiate and sustain seizure progression. The end of a partial seizure correlates with an increase in network synchronization, which possibly involves both excitatory and inhibitory mechanisms.

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Section: Seizure Onsetmentioning

confidence: 99%

Initiation, Propagation, and Termination of Partial (Focal) Seizures

Curtis

Avoli

2015

Cold Spring Harb Perspect Med

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“…High-frequency oscillations (HFOs, Hz, fast ripples: 250-500 Hz) are recorded in the EEG of epileptic patients and in animal models of temporal lobe epilepsy (Engel and da Silva, 2012;Jefferys et al, 2012). HFOs occur in limbic structures such as the hippocampus and entorhinal cortex as well as in the neocortex, they are thought to reflect the activity of dysfunctional neural networks, and they are used to localize seizure onset zones (Bragin et al, 2004;Jacobs et al, 2009Jacobs et al, , 2010Ibarz et al, 2010;Jiruska et al, 2010;Wu et al, 2010;Lévesque et al, 2011Lévesque et al, , 2012.…”

Section: Introductionmentioning

confidence: 99%

Neurosteroids modulate epileptiform activity and associated high-frequency oscillations in the piriform cortex

Herrington

Lévesque

2014

Neuroscience

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Allotetrahydrodeoxycorticosterone (THDOC) belongs to a class of pregnane neurosteroidal compounds that enhance brain inhibition by interacting directly with GABA A signaling, mainly through an increase in tonic inhibitory current. Here, we addressed the role of THDOC in the modulation of interictal-and ictal-like activity and associated high-frequency oscillations (HFOs, 80-500 Hz; ripples: 80-200 Hz, fast ripples: 250-500 Hz) recorded in vitro in the rat piriform cortex, a highly excitable brain structure that is implicated in seizure generation and maintenance. We found that THDOC: (i) increased the duration of interictal discharges in the anterior piriform cortex while decreasing ictal discharge duration in both anterior and posterior piriform cortices; (ii) reduced the occurrence of HFOs associated to both interictal and ictal discharges; and (iii) prolonged the duration of 4-aminopyridine-induced, glutamatergic independent synchronous field potentials that are known to mainly result from the activation of GABA A receptors. Our results indicate that THDOC can modulate epileptiform synchronization in the piriform cortex presumably by potentiating GABA A receptor-mediated signaling. This evidence supports the view that neurosteroids regulate neuronal excitability and thus control the occurrence of seizures.

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“…In addition, we established the occurrence of high frequency oscillations (HFOs, 80-500 Hz) during these different patterns of interictal and ictal epileptiform activity. HFOs occur in limbic structures such as the EC and hippocampus, and are thought to reflect the activity of dysfunctional neural networks (Bragin et al, 2004; see for review Jefferys et al, 2012;Engel and Lopes da Silva, 2012).…”

Section: Introductionmentioning

confidence: 99%

Two different interictal spike patterns anticipate ictal activity in vitro

Avoli

Panuccio

Herrington

et al. 2013

Neurobiology of Disease

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Abstract4-Aminopyridine (4AP, 50 μM) induces interictal-and ictal-like discharges in brain slices including parahippocampal areas such as the entorhinal cortex (EC) but the relation between these two types of epileptiform activity remains undifined. Here, by employing field potential recordings in rat EC slices during 4AP application, we found that: (i) interictal events have a wide range of duration (0.4-3.3 s) and interval of occurrence (1.4-84 s); (ii) ictal discharges are either preceded by an isolated "slow" interictal discharge (ISID; duration=1.5±0.1 s, interval of occurrence=33.8±1.8 s) or suddenly initiate from a pattern of frequent polispike interictal discharge (FPID; duration=0.8±0.1 s; interval of occurrence=2.7±0.2 s); and (iii) ISID-triggered ictal events have longer duration (116±7.3 s) and interval of occurrence (425.8±42.3 s) than those initiating suddenly during FPID (58.3±7.8 s and 202.1±21.8 s, respectively). Glutamatergic receptor antagonists abolished ictal discharges in all experiments, markedly reduced FPIDs but did not influence ISIDs. We also discovered that high-frequency oscillations (HFOs, 80-500 Hz) occur more frequently during ISIDs as compared to FPIDs, and mainly coincide with the onset of ISID-triggered ictal discharges. These findings indicate that interictal events may define ictal onset features resembling those seen in vivo in low-voltage fast activity onset seizures. We propose a similar condition to occur in vivo in temporal lobe epileptic patients and animal models.

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Mechanisms of physiological and epileptic HFO generation

Cited by 261 publications

References 234 publications

Initiation, Propagation, and Termination of Partial (Focal) Seizures

Initiation, Propagation, and Termination of Partial (Focal) Seizures

Neurosteroids modulate epileptiform activity and associated high-frequency oscillations in the piriform cortex

Two different interictal spike patterns anticipate ictal activity in vitro

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