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Items: 1 to 20 of 99

1.

Soman induces ictogenesis in the amygdala and interictal activity in the hippocampus that are blocked by a GluR5 kainate receptor antagonist in vitro.

Apland JP, Aroniadou-Anderjaska V, Braga MF.

Neuroscience. 2009 Mar 3;159(1):380-9. doi: 10.1016/j.neuroscience.2008.11.053. Epub 2008 Dec 14.

2.

Pathology and pathophysiology of the amygdala in epileptogenesis and epilepsy.

Aroniadou-Anderjaska V, Fritsch B, Qashu F, Braga MF.

Epilepsy Res. 2008 Feb;78(2-3):102-16. doi: 10.1016/j.eplepsyres.2007.11.011. Epub 2008 Jan 15. Review.

3.

GABA A/Bz receptor subtypes as targets for selective drugs.

Da Settimo F, Taliani S, Trincavelli ML, Montali M, Martini C.

Curr Med Chem. 2007;14(25):2680-701. Review.

PMID:
17979718
4.

Effects of LiCl/pilocarpine-induced status epilepticus on rat brain mu and benzodiazepine receptor binding: regional and ontogenetic studies.

Rocha L, Suchomelov√° L, Mares P, Kubov√° H.

Brain Res. 2007 Nov 21;1181:104-17. Epub 2007 Sep 5.

PMID:
17919468
5.

A key glycolytic enzyme plays a dual role in GABAergic neurotransmission and in human epilepsy.

Pumain R, Laschet J.

Crit Rev Neurobiol. 2006;18(1-2):197-203. Review.

PMID:
17725522
6.

Analysis of initial slow waves (ISWs) at the seizure onset in patients with drug resistant temporal lobe epilepsy.

Bragin A, Claeys P, Vonck K, Van Roost D, Wilson C, Boon P, Engel J Jr.

Epilepsia. 2007 Oct;48(10):1883-94. Epub 2007 Jun 9.

7.

Status epilepticus-induced somatostatinergic hilar interneuron degeneration is regulated by striatal enriched protein tyrosine phosphatase.

Choi YS, Lin SL, Lee B, Kurup P, Cho HY, Naegele JR, Lombroso PJ, Obrietan K.

J Neurosci. 2007 Mar 14;27(11):2999-3009.

9.

Postsynaptic targets of somatostatin-containing interneurons in the rat basolateral amygdala.

Muller JF, Mascagni F, McDonald AJ.

J Comp Neurol. 2007 Jan 20;500(3):513-29.

PMID:
17120289
10.

Increased GABA(A)-receptor alpha1-subunit expression in hippocampal dentate gyrus after early-life status epilepticus.

Raol YH, Zhang G, Lund IV, Porter BE, Maronski MA, Brooks-Kayal AR.

Epilepsia. 2006 Oct;47(10):1665-73.

11.

Mechanisms regulating GABAergic inhibitory transmission in the basolateral amygdala: implications for epilepsy and anxiety disorders.

Aroniadou-Anderjaska V, Qashu F, Braga MF.

Amino Acids. 2007;32(3):305-15. Epub 2006 Oct 18. Review.

PMID:
17048126
12.

Cell domain-dependent changes in the glutamatergic and GABAergic drives during epileptogenesis in the rat CA1 region.

El-Hassar L, Milh M, Wendling F, Ferrand N, Esclapez M, Bernard C.

J Physiol. 2007 Jan 1;578(Pt 1):193-211. Epub 2006 Sep 28.

15.

Altered inhibition in lateral amygdala networks in a rat model of temporal lobe epilepsy.

Benini R, Avoli M.

J Neurophysiol. 2006 Apr;95(4):2143-54. Epub 2005 Dec 28.

16.

Analysis of seizure onset on the basis of wideband EEG recordings.

Bragin A, Wilson CL, Fields T, Fried I, Engel J Jr.

Epilepsia. 2005;46 Suppl 5:59-63.

20.

Choline acetyltransferase, glutamic acid decarboxylase and somatostatin in the kainic acid model for chronic temporal lobe epilepsy.

Baran H, Kepplinger B, Draxler M, Skofitsch G.

Neurosignals. 2004 Nov-Dec;13(6):290-7.

PMID:
15627816
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