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Items: 1 to 20 of 112

1.

Human glioma cells induce hyperexcitability in cortical networks.

Campbell SL, Buckingham SC, Sontheimer H.

Epilepsia. 2012 Aug;53(8):1360-70. doi: 10.1111/j.1528-1167.2012.03557.x.

2.

Glutamate release by primary brain tumors induces epileptic activity.

Buckingham SC, Campbell SL, Haas BR, Montana V, Robel S, Ogunrinu T, Sontheimer H.

Nat Med. 2011 Sep 11;17(10):1269-74. doi: 10.1038/nm.2453.

3.

Epileptiform activity preferentially arises outside tumor invasion zone in glioma xenotransplants.

Köhling R, Senner V, Paulus W, Speckmann EJ.

Neurobiol Dis. 2006 Apr;22(1):64-75.

PMID:
16309916
4.

Activation of the mTOR signaling pathway in peritumoral tissues can cause glioma-associated seizures.

Yuan Y, Xiang W, Yanhui L, Ruofei L, Jiewen L, Shu J, Qing M.

Neurol Sci. 2017 Jan;38(1):61-66. doi: 10.1007/s10072-016-2706-7.

PMID:
27646413
5.

A new neurophysiological/neuropathological ex vivo model localizes the origin of glioma-associated epileptogenesis in the invasion area.

Senner V, Köhling R, Püttmann-Cyrus S, Straub H, Paulus W, Speckmann EJ.

Acta Neuropathol. 2004 Jan;107(1):1-7.

PMID:
13680280
6.

Cortical GABAergic excitation contributes to epileptic activities around human glioma.

Pallud J, Le Van Quyen M, Bielle F, Pellegrino C, Varlet P, Labussiere M, Cresto N, Dieme MJ, Baulac M, Duyckaerts C, Kourdougli N, Chazal G, Devaux B, Rivera C, Miles R, Capelle L, Huberfeld G.

Sci Transl Med. 2014 Jul 9;6(244):244ra89. doi: 10.1126/scitranslmed.3008065.

7.

SLC7A11 expression is associated with seizures and predicts poor survival in patients with malignant glioma.

Robert SM, Buckingham SC, Campbell SL, Robel S, Holt KT, Ogunrinu-Babarinde T, Warren PP, White DM, Reid MA, Eschbacher JM, Berens ME, Lahti AC, Nabors LB, Sontheimer H.

Sci Transl Med. 2015 May 27;7(289):289ra86. doi: 10.1126/scitranslmed.aaa8103.

8.

Phosphorylation of NMDA 2B at S1303 in human glioma peritumoral tissue: implications for glioma epileptogenesis.

Gao X, Wang H, Cai S, Saadatzadeh MR, Hanenberg H, Pollok KE, Cohen-Gadol AA, Chen J.

Neurosurg Focus. 2014 Dec;37(6):E17. doi: 10.3171/2014.9.FOCUS14485.

PMID:
25434386
9.

The cause of the imbalance in the neuronal network leading to seizure activity can be predicted by the electrographic pattern of the seizure onset.

Bragin A, Azizyan A, Almajano J, Engel J Jr.

J Neurosci. 2009 Mar 18;29(11):3660-71. doi: 10.1523/JNEUROSCI.5309-08.2009.

10.

Glutamate and tumor-associated epilepsy: glial cell dysfunction in the peritumoral environment.

Buckingham SC, Robel S.

Neurochem Int. 2013 Dec;63(7):696-701. doi: 10.1016/j.neuint.2013.01.027. Review.

11.
12.

Autocrine glutamate signaling promotes glioma cell invasion.

Lyons SA, Chung WJ, Weaver AK, Ogunrinu T, Sontheimer H.

Cancer Res. 2007 Oct 1;67(19):9463-71. Erratum in: Cancer Res. 2007 Nov 1;67(21):10624.

13.

Angiocentric glioma-induced seizures in a 2-year-old child.

Fulton SP, Clarke DF, Wheless JW, Ellison DW, Ogg R, Boop FA.

J Child Neurol. 2009 Jul;24(7):852-6. doi: 10.1177/0883073808331078.

PMID:
19304961
14.

Glioma cells release excitotoxic concentrations of glutamate.

Ye ZC, Sontheimer H.

Cancer Res. 1999 Sep 1;59(17):4383-91.

15.

Marked inhibition of tumor growth in a malignant glioma tumor model by a novel synthetic matrix metalloproteinase inhibitor AG3340.

Price A, Shi Q, Morris D, Wilcox ME, Brasher PM, Rewcastle NB, Shalinsky D, Zou H, Appelt K, Johnston RN, Yong VW, Edwards D, Forsyth P.

Clin Cancer Res. 1999 Apr;5(4):845-54.

16.

Fast activity at seizure onset is mediated by inhibitory circuits in the entorhinal cortex in vitro.

Gnatkovsky V, Librizzi L, Trombin F, de Curtis M.

Ann Neurol. 2008 Dec;64(6):674-86. doi: 10.1002/ana.21519.

PMID:
19107991
17.

[Study on concordance of ictal and interictal epileptiform activity in patients with tuberous sclerosis complex].

Yang Z, Guo Q, Zhuang J, Liu X, Xiong H, Wu Y, Wang S, Chang X, Zhang Y, Bao X, Jiang Y, Qin J.

Zhonghua Er Ke Za Zhi. 2014 Apr;52(4):292-7. Chinese.

PMID:
24915918
18.

System characterization of neuronal excitability in the hippocampus and its relevance to observed dynamics of spontaneous seizure-like transitions.

Zalay OC, Serletis D, Carlen PL, Bardakjian BL.

J Neural Eng. 2010 Jun;7(3):036002. doi: 10.1088/1741-2560/7/3/036002.

PMID:
20404398
19.

[Glutamate and malignant gliomas, from epilepsia to biological aggressiveness: therapeutic implications].

Blecic S, Rynkowski M, De Witte O, Lefranc F.

Bull Cancer. 2013 Sep;100(9):829-35. doi: 10.1684/bdc.2013.1781. Review. French.

PMID:
23883552
20.

Network and pharmacological mechanisms leading to epileptiform synchronization in the limbic system in vitro.

Avoli M, D'Antuono M, Louvel J, Köhling R, Biagini G, Pumain R, D'Arcangelo G, Tancredi V.

Prog Neurobiol. 2002 Oct;68(3):167-207. Review.

PMID:
12450487

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