scholarly article | Q13442814 |
P50 | author | Rüdiger Köhling | Q38547408 |
Marco de Curtis | Q42775975 | ||
P2093 | author name string | Massimo Avoli | |
P2860 | cites work | Interictal spikes in focal epileptogenesis. | Q31870561 |
On the origin of interictal activity in human temporal lobe epilepsy in vitro. | Q34159227 | ||
Genesis of epileptic interictal spikes. New knowledge of cortical feedback systems suggests a neurophysiological explanation of brief paroxysms | Q34213185 | ||
Brain stimulation for epilepsy | Q35640561 | ||
Synchronous GABA-receptor-dependent potentials in limbic areas of the in-vitro isolated adult guinea pig brain | Q36917602 | ||
Relationships Between Interictal Spiking and Seizures: Human and Experimental Evidence | Q36928578 | ||
Independent epileptiform discharge patterns in the olfactory and limbic areas of the in vitro isolated Guinea pig brain during 4-aminopyridine treatment | Q36932134 | ||
High-frequency changes during interictal spikes detected by time-frequency analysis | Q37176011 | ||
GABAergic synchronization in the limbic system and its role in the generation of epileptiform activity. | Q37908500 | ||
Hippocampal resections and the use of human tissue in defining temporal lobe epilepsy syndromes | Q40583155 | ||
The relationship between interictal and ictal paroxysms in an in vitro model of focal hippocampal epilepsy | Q41337643 | ||
Interneuron and pyramidal cell interplay during in vitro seizure-like events | Q41790633 | ||
Convulsive status epilepticus duration as determinant for epileptogenesis and interictal discharge generation in the rat limbic system | Q41842500 | ||
In vitro ictogenesis and parahippocampal networks in a rodent model of temporal lobe epilepsy | Q42255460 | ||
The direct relationship between inhibitory currents and local field potentials. | Q43231759 | ||
Limbic network interactions leading to hyperexcitability in a model of temporal lobe epilepsy | Q43850163 | ||
Masking synchronous GABA-mediated potentials controls limbic seizures | Q44235093 | ||
Physiology and pharmacology of epileptiform activity induced by 4-aminopyridine in rat hippocampal slices | Q44267443 | ||
Epileptiform ictal discharges are prevented by periodic interictal spiking in the olfactory cortex. | Q44325283 | ||
Mechanism of mu-opioid receptor-mediated presynaptic inhibition in the rat hippocampus in vitro | Q44339520 | ||
High-frequency oscillations after status epilepticus: epileptogenesis and seizure genesis | Q45030225 | ||
Fast activity at seizure onset is mediated by inhibitory circuits in the entorhinal cortex in vitro | Q46194754 | ||
Activity-dependent pH shifts and periodic recurrence of spontaneous interictal spikes in a model of focal epileptogenesis. | Q46604819 | ||
Distinct types of ionic modulation of GABA actions in pyramidal cells and interneurons during electrical induction of hippocampal seizure-like network activity | Q48188883 | ||
High-frequency oscillations in human brain | Q48221065 | ||
Effect of interictal spikes on single-cell firing patterns in the hippocampus | Q48281342 | ||
Modular propagation of epileptiform activity: evidence for an inhibitory veto in neocortex. | Q48352784 | ||
Neural networks underlying hyperkinetic seizures of "temporal lobe" origin | Q48394115 | ||
Suppression of interictal bursting in hippocampus unleashes seizures in entorhinal cortex: a proepileptic effect of lowering [K+]o and raising [Ca2+]o | Q48432287 | ||
Low-frequency electric cortical stimulation decreases interictal and ictal activity in human epilepsy | Q48447597 | ||
Long-term amygdalohippocampal stimulation for refractory temporal lobe epilepsy | Q48459296 | ||
Electroencephalographic spiking activity, drug levels, and seizure occurrence in epileptic patients | Q48483503 | ||
CA3-driven hippocampal-entorhinal loop controls rather than sustains in vitro limbic seizures | Q48579668 | ||
4-aminopyridine-induced epileptiform activity and a GABA-mediated long- lasting depolarization in the rat hippocampus | Q48602703 | ||
Transition to seizure: ictal discharge is preceded by exhausted presynaptic GABA release in the hippocampal CA3 region. | Q48625795 | ||
Ictal-interictal unit firing pattern differences in penicillin-induced primary and secondary epileptogenic foci | Q48673373 | ||
Temporo-spatial patterns of pre-ictal spike activity in human temporal lobe epilepsy | Q48712621 | ||
Changes in extracellular K+ evoked by GABA, THIP and baclofen in the guinea-pig hippocampal slice | Q48831088 | ||
Entorhinal cortex involvement in human mesial temporal lobe epilepsy: an electrophysiologic and volumetric study | Q48909962 | ||
Absolute spike frequency predicts surgical outcome in TLE with unilateral hippocampal atrophy | Q49104811 | ||
Hippocampal epileptic activity induced by localized ventricular perfusion with high-potassium cerebrospinal fluid | Q51197081 | ||
Participation of GABAA-mediated inhibition in ictallike discharges in the rat entorhinal cortex. | Q51530130 | ||
Intractable temporal lobe epilepsy with rare spikes is less severe than with frequent spikes | Q53933118 | ||
Ictal epileptiform activity is facilitated by hippocampal GABAA receptor-mediated oscillations. | Q54036311 | ||
Regional and time dependent variations of low Mg2+ induced epileptiform activity in rat temporal cortex slices | Q56971348 | ||
Extracellular free potassium and calcium during synchronous activity induced by 4-aminopyridine in the juvenile rat hippocampus | Q57043021 | ||
Epileptiform activity induced by pilocarpine in the rat hippocampal-entorhinal slice preparation | Q57043059 | ||
Glutamatergic pre-ictal discharges emerge at the transition to seizure in human epilepsy | Q57762414 | ||
Seizure-like events in brain slices: suppression by interictal activity | Q69053539 | ||
Electrophysiological connections between the hippocampus and entorhinal cortex in patients with complex partial seizures | Q69589863 | ||
A glossary of terms most commonly used by clinical electroencephalographers | Q70025540 | ||
Interictal EEG spikes correlate with decreased, rather than increased, epileptogenicity in amygdaloid kindled rats | Q71179964 | ||
The role of the insular cortex in temporal lobe epilepsy | Q73064713 | ||
Low-frequency repetitive transcranial magnetic stimulation improves intractable epilepsy | Q77958517 | ||
P304 | page(s) | 37-44 | |
P577 | publication date | 2012-07-06 | |
P1433 | published in | Neuropharmacology | Q15332439 |
P1476 | title | Does interictal synchronization influence ictogenesis? | |
P478 | volume | 69 |
Q58608513 | A predictive epilepsy index based on probabilistic classification of interictal spike waveforms |
Q42761623 | Activity-dependent changes in excitability of perirhinal cortex networks in vitro. |
Q41325911 | Blockade of in vitro ictogenesis by low-frequency stimulation coincides with increased epileptiform response latency |
Q26999028 | Electrophysiological biomarkers of epilepsy |
Q62868133 | Epilepsy |
Q35191391 | Evaluation of anticonvulsant actions of dibromophenyl enaminones using in vitro and in vivo seizure models |
Q38350417 | Fingerprints of Interictal Spikes: Can Imprints Deliver a Verdict on Their Role in Epilepsy? |
Q47663203 | GABAergic inhibition shapes interictal dynamics in awake epileptic mice |
Q92598000 | Goldilocks Zone of Ictal Onset: Partially Recovered Synapses Provide the Kindling to Fuel Ictal Activity |
Q53421598 | Initiation and slow propagation of epileptiform activity from ventral to dorsal medial entorhinal cortex is constrained by an inhibitory gradient. |
Q35795541 | Initiation, Propagation, and Termination of Partial (Focal) Seizures. |
Q36932154 | Limbic networks and epileptiform synchronization: the view from the experimental side. |
Q60623551 | Loss of neuronal network resilience precedes seizures and determines the ictogenic nature of interictal synaptic perturbations |
Q38164040 | Mechanisms of epileptiform synchronization in cortical neuronal networks |
Q94410222 | Meet Our Editorial Board Member |
Q47797850 | Optogenetic Low-Frequency Stimulation of Specific Neuronal Populations Abates Ictogenesis |
Q34674356 | Optogenetically induced seizure and the longitudinal hippocampal network dynamics |
Q37502509 | Propagation of epileptiform activity can be independent of synaptic transmission, gap junctions, or diffusion and is consistent with electrical field transmission. |
Q39002675 | Regulating hippocampal hyperexcitability through GABAB Receptors |
Q38609381 | Spatiotemporal changes in regularity of gamma oscillations contribute to focal ictogenesis. |
Q38807654 | Specific imbalance of excitatory/inhibitory signaling establishes seizure onset pattern in temporal lobe epilepsy |
Q55006538 | The Sub-Regional Functional Organization of Neocortical Irritative Epileptic Networks in Pediatric Epilepsy. |
Q49091688 | The effect of high and low frequency cortical stimulation with a fixed or a poisson distributed interpulse interval on cortical excitability in rats |
Q91732773 | The role of interictal discharges in ictogenesis - A dynamical perspective |
Q52639162 | Time and sex dependent effects of magnesium sulphate on post-asphyxial seizures in preterm fetal sheep. |
Search more.