2012
DOI: 10.1523/jneurosci.5853-11.2012
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A Candidate Mechanism Underlying the Variance of Interictal Spike Propagation

Abstract: Synchronous activation of neural networks is an important physiological mechanism, and dysregulation of synchrony forms the basis of epilepsy. We analyzed the propagation of synchronous activity through chronically epileptic neural networks. Electrocortigraphic recordings from epileptic patients demonstrate remarkable variance in the pathways of propagation between sequential interictal spikes (IIS). Calcium imaging in chronically epileptic slice cultures demonstrates that pathway variance depends on the prese… Show more

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Cited by 70 publications
(65 citation statements)
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“…The topology of network synchronization remains hypothetical. For example, seizures could coalesce from smaller scattered nodes of physiological (Ikegaya et al, 2004;Bonifazi et al, 2009) or pathological (Huberfeld et al, 2011;Sabolek et al, 2012) synchrony. Alternatively, the fraction of neurons in the network participating could increase regardless of spatial constraints.…”
Section: Introductionmentioning
confidence: 99%
“…The topology of network synchronization remains hypothetical. For example, seizures could coalesce from smaller scattered nodes of physiological (Ikegaya et al, 2004;Bonifazi et al, 2009) or pathological (Huberfeld et al, 2011;Sabolek et al, 2012) synchrony. Alternatively, the fraction of neurons in the network participating could increase regardless of spatial constraints.…”
Section: Introductionmentioning
confidence: 99%
“…Instead, the pattern of cluster recruitment was nonuniform, showing large heterogeneity between macroscopically "recurrent" epileptiform events at the scale of microcircuits (Feldt Muldoon et al 2013). This heterogeneity is not limited to laboratory models, as patients have shown nonuniform recruitment of neuronal populations during initiation and progression of epileptiform events (Keller et al 2010;Truccolo et al 2011;Sabolek et al 2012). Even between sequential seizures, the fraction of active neurons was highly variable, with different populations of neurons participating in sequential events; this appeared independent of neuronal class type, as it was evident for interneurons and principal neurons (Keller et al 2010;Truccolo et al 2011).…”
Section: Heterogeneity In Epileptiform Activity: Examining Seizures Amentioning
confidence: 99%
“…Even between sequential seizures, the fraction of active neurons was highly variable, with different populations of neurons participating in sequential events; this appeared independent of neuronal class type, as it was evident for interneurons and principal neurons (Keller et al 2010;Truccolo et al 2011). Additionally, even among neurons that were frequently active during sei- zures, the spiking patterns of those cells did not repeat between consecutive seizures (Truccolo et al 2011), and the path of propagation during large-scale bursts of activity changed between episodes (Sabolek et al 2012). These results highlight the existence of variable paths of epileptiform synchronization dynamics in the recruitment of pathological neuronal clusters.…”
Section: Heterogeneity In Epileptiform Activity: Examining Seizures Amentioning
confidence: 99%
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“…Recently, it has been proposed that this lack of progress is a consequence of the method by which compounds are screened 3, 4. To date, initial screening is based on acute application of convulsant conditions to normal brain tissue,2, 4 but this produces patterns of epileptic activity that are substantially different from spontaneous epileptiform activity in chronically epileptic brain tissue 5. Thus, we considered the hypothesis that screening for anticonvulsants in chronically epileptic tissue would uncover agents that may be uniquely effective in medically intractable epilepsy 6…”
Section: Introductionmentioning
confidence: 99%