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Spontaneous Epileptiform Activity (spontaneous + epileptiform_activity)

Distribution by Scientific Domains

Medical Sciences	100%

Selected Abstracts

Inhibitory actions of the gamma-aminobutyric acid in pediatric Sturge-Weber syndrome,

ANNALS OF NEUROLOGY, Issue 2 2009
Roman Tyzio PhD
Objective The mechanisms of epileptogenesis in Sturge-Weber syndrome (SWS) are unknown. We explored the properties of neurons from human pediatric SWS cortex in vitro and tested in particular whether gamma-aminobutyric acid (GABA) excites neurons in SWS cortex, as has been suggested for various types of epilepsies. Methods Patch-clamp and field potential recordings and dynamic biphoton imaging were used to analyze cortical tissue samples obtained from four 6- to 14-month-old pediatric SWS patients during surgery. Results Neurons in SWS cortex were characterized by a relatively depolarized resting membrane potential, as was estimated from cell-attached recordings of N-methyl-D-aspartate channels. Many cells spontaneously fired action potentials at a rate proportional to the level of neuronal depolarization. The reversal potential for GABA-activated currents, assessed by cell-attached single channel recordings, was close to the resting membrane potential. All spontaneously firing neurons recorded in cell-attached mode or imaged with biphoton microscopy were inhibited by GABA. Spontaneous epileptiform activity in the form of recurrent population bursts was suppressed by glutamate receptor antagonists, the GABA(A) receptor agonist isoguvacine, and the positive allosteric GABA(A) modulator diazepam. Blockade of GABA(A) receptors aggravated spontaneous epileptiform activity. The NKCC1 antagonist bumetanide had little effect on epileptiform activity. Interpretation SWS cortical neurons have a relatively depolarized resting membrane potential and spontaneously fire action potentials that may contribute to increased network excitability. In contrast to previous data depicting excitatory and proconvulsive actions of GABA in certain pediatric and adult epilepsies, GABA plays mainly an inhibitory and anticonvulsive role in SWS pediatric cortex. Ann Neurol 2009;66:209,218 [source]

,9 -Tetrahydrocannabivarin suppresses in vitro epileptiform and in vivo seizure activity in adult rats

EPILEPSIA, Issue 8 2010
Andrew J. Hill
Summary Purpose:, We assessed the anticonvulsant potential of the phytocannabinoid ,9 -tetrahydrocannabivarin (,9 -THCV) by investigating its effects in an in vitro piriform cortex (PC) brain slice model of epileptiform activity, on cannabinoid CB1 receptor radioligand-binding assays and in a generalized seizure model in rats. Methods:, ,9 -THCV was applied before (10 ,m,9 -THCV) or during (10,50 ,m,9 -THCV) epileptiform activity induced by Mg2+ -free extracellular media in adult rat PC slices and measured using multielectrode array (MEA) extracellular electrophysiologic techniques. The actions of ,9 -THCV on CB1 receptors were examined using [3H]SR141716A competition binding and [35S]GTP,S assays in rat cortical membranes. Effects of ,9 -THCV (0.025,2.5 mg/kg) on pentylenetetrazole (PTZ),induced seizures in adult rats were also assessed. Results:, After induction of stable spontaneous epileptiform activity, acute ,9 -THCV application (,20 ,m) significantly reduced burst complex incidence and the amplitude and frequency of paroxysmal depolarizing shifts (PDSs). Furthermore, slices pretreated with 10 ,m,9 -THCV prior to induction of epileptiform activity exhibited significantly reduced burst complex incidence and PDS peak amplitude. In radioligand-binding experiments, ,9 -THCV acted as a CB1 receptor ligand, displacing 0.5 nm [3H]SR141716A with a Ki,290 nm, but exerted no agonist stimulation of [35S]GTP,S binding. In PTZ-induced seizures in vivo, 0.25 mg/kg ,9 -THCV significantly reduced seizure incidence. Discussion:, These data demonstrate that ,9 -THCV exerts antiepileptiform and anticonvulsant properties, actions that are consistent with a CB1 receptor,mediated mechanism and suggest possible therapeutic application in the treatment of pathophysiologic hyperexcitability states. [source]

Comparison of Intrinsic Optical Signals Associated with Low Mg2+, and 4-Aminopyridine,Induced Seizure-Like Events Reveals Characteristic Features in Adult Rat Limbic System

EPILEPSIA, Issue 6 2000
Katharina Buchheim
Summary: Purpose: To analyze the intrinsic optical signal change associated with seizure-like events in two frequently used in vitro models,the low-Mg2+ and the 4-aminopyridine (4-AP) models,and to monitor regions of onset and spread patterns of these discharges by using imaging of intrinsic optical signals (IOS). Methods: Combined hippocampal,entorhinal,cortex slices of adult rats were exposed to two different treatments: lowering extracellular Mg2+ concentrations or application of 100 ,M 4-AP. The electrographic features of the discharges were monitored using extracellular microelectrodes. Optical imaging was achieved by infrared transillumination of the slice and analysis of changes in light transmission using a subtraction approach. The electrographic features were compared with the optical changes. Regions of onset and spread patterns were analyzed in relevant anatomic regions of the slice. Results: Both lowering extracellular Mg2+ concentrations and application of 4-AP induced seizure-like events. The relative duration of the intrinsic optical signal change associated with seizure-like events in the low-Mg2+ model was significantly longer compared with that seen with those occurring in the 4-AP model, although duration of field potentials did not differ significantly in the two models. Seizure-like events of the low-Mg2+ model originated predominantly in the entorhinal cortex, with subsequent propagation toward the subiculum and neocortical structures. In contrast, no consistent region of onset or spread patterns were seen in the 4-AP model, indicating that the seizure initiation is not confined to a particular region in this model. Conclusions: We conclude that different forms of spontaneous epileptiform activity are associated with characteristic optical signal changes and that optical imaging represents an excellent method to assess regions of seizure onset and spread patterns. [source]