gamma-aminobutyric acid and Epilepsy, Temporal Lobe studies

gamma-aminobutyric acid and Epilepsy, Temporal Lobe

gamma-Aminobutyric Acid: The most common inhibitory neurotransmitter in the central nervous system.
gamma-aminobutyric acid : A gamma-amino acid that is butanoic acid with the amino substituent located at C-4.

Epilepsy, Temporal Lobe: A localization-related (focal) form of epilepsy characterized by recurrent seizures that arise from foci within the TEMPORAL LOBE, most commonly from its mesial aspect. A wide variety of psychic phenomena may be associated, including illusions, hallucinations, dyscognitive states, and affective experiences. The majority of complex partial seizures (see EPILEPSY, COMPLEX PARTIAL) originate from the temporal lobes. Temporal lobe seizures may be classified by etiology as cryptogenic, familial, or symptomatic. (From Adams et al., Principles of Neurology, 6th ed, p321).

Research Excerpts

Excerpt	Relevance	Reference
" The present study evaluated the distribution pattern of GABAergic interneurons, especially parvalbumin (PV)- and somatostatin (SS)-immunopositive neurons, and excitatory propagation pattern in the IC of rats 4-7 days and 2 months after pilocarpine-induced status epilepticus (4-7 d and 2 m post-SE rats, respectively)."	7.76	Pilocarpine-induced status epilepticus causes acute interneuron loss and hyper-excitatory propagation in rat insular cortex. ( Chen, S; Fujita, S; Kobayashi, M; Koshikawa, N, 2010)
"Several similarities exist between the alterations observed in the chronic pilocarpine model of recurrent seizures in the rat and those found in human temporal lobe epilepsy."	7.69	Vulnerability and plasticity of the GABA system in the pilocarpine model of spontaneous recurrent seizures. ( Esclapez, M; Houser, CR, 1996)
"Vigabatrin (VGB) is a new antiepileptic drug that increases the human brain gamma-aminobutyric acid (GABA) level by irreversibly inhibiting GABA transaminase."	6.70	Effects of vigabatrin on brain GABA+/CR signals in patients with epilepsy monitored by 1H-NMR-spectroscopy: responder characteristics. ( Boesiger, P; Duc, CO; Meier, D; Mueller, SG; Russ, W; Weber, B; Weber, OM; Wieser, HG, 2001)
" The present study evaluated the distribution pattern of GABAergic interneurons, especially parvalbumin (PV)- and somatostatin (SS)-immunopositive neurons, and excitatory propagation pattern in the IC of rats 4-7 days and 2 months after pilocarpine-induced status epilepticus (4-7 d and 2 m post-SE rats, respectively)."	3.76	Pilocarpine-induced status epilepticus causes acute interneuron loss and hyper-excitatory propagation in rat insular cortex. ( Chen, S; Fujita, S; Kobayashi, M; Koshikawa, N, 2010)
" Stereological techniques were used to estimate numbers of gephyrin-positive punctae in the dentate gyrus, which were reduced short-term (5 days after pilocarpine-induced status epilepticus) but later rebounded beyond controls in epileptic rats."	3.76	Initial loss but later excess of GABAergic synapses with dentate granule cells in a rat model of temporal lobe epilepsy. ( Buckmaster, PS; Phanwar, I; Thind, KK; Wen, X; Yamawaki, R; Zhang, G, 2010)
"To determine whether a pharmacologic treatment could delay or prevent the epileptogenesis induced by status epilepticus (SE) through the protection of some brain areas, we studied the effects of the long-term exposure to pregabalin (PGB) on neuronal damage and epileptogenesis induced by lithium-pilocarpine SE."	3.72	Long-term pregabalin treatment protects basal cortices and delays the occurrence of spontaneous seizures in the lithium-pilocarpine model in the rat. ( André, V; Ferrandon, A; Koning, E; Nehlig, A; Rigoulot, MA, 2003)
" The second patient complained of impotence after a rash while taking phenytoin and carbamazepine."	3.70	Improved sexual function in three men taking lamotrigine for epilepsy. ( Carwile, ST; Husain, AM; Miller, PP; Radtke, RA, 2000)
"Several similarities exist between the alterations observed in the chronic pilocarpine model of recurrent seizures in the rat and those found in human temporal lobe epilepsy."	3.69	Vulnerability and plasticity of the GABA system in the pilocarpine model of spontaneous recurrent seizures. ( Esclapez, M; Houser, CR, 1996)
"Gamma-Aminobutyric acid (GABA) has been implicated in the neurochemistry of epilepsy."	3.66	Low cerebrospinal fluid gamma-aminobutyric acid content in seizure patients. ( Ballenger, JC; Glaeser, BS; Hare, TA; Post, RM; Wood, JH, 1979)
"Temporal lobe epilepsy was associated with bilateral reduction in NAAt/Cr but not significant abnormality in GABA+/Cr or GLX/Cr."	2.74	Proton MR spectroscopy of metabolite concentrations in temporal lobe epilepsy and effect of temporal lobe resection. ( Barker, GJ; Duncan, JS; McLean, MA; Simister, RJ, 2009)
"Vigabatrin (VGB) is a new antiepileptic drug that increases the human brain gamma-aminobutyric acid (GABA) level by irreversibly inhibiting GABA transaminase."	2.70	Effects of vigabatrin on brain GABA+/CR signals in patients with epilepsy monitored by 1H-NMR-spectroscopy: responder characteristics. ( Boesiger, P; Duc, CO; Meier, D; Mueller, SG; Russ, W; Weber, B; Weber, OM; Wieser, HG, 2001)
"Epilepsy is one of the most impactful diseases on social life."	2.47	Temporal lobe epilepsy and anti glutamic acid decarboxylase autoimmunity. ( Errichiello, L; Striano, P; Striano, S; Zara, F, 2011)
"Temporal lobe epilepsy is one of the most common forms of epilepsy."	2.43	Axonal sprouting of GABAergic interneurons in temporal lobe epilepsy. ( Bausch, SB, 2005)
"The characteristic clinical history, seizure semiology, and magnetic resonance imaging findings have allowed a discrete epilepsy syndrome to be established."	2.41	Adolescent seizures and epilepsy syndromes. ( Kim, HL; Wheless, JW, 2002)
"Knowledge of these syndromes has important treatment and prognostic implications, which usually extend into adulthood."	2.41	Adolescent seizures and epilepsy syndromes. ( Kim, HL; Wheless, JW, 2002)
"The events that follow epilepsy seizures are not restricted to the immediate period."	2.41	Cell death and synaptic reorganizations produced by seizures. ( Ben-Ari, Y, 2001)
" This may be related to dosage and speed of introduction."	2.39	Psychotic and severe behavioural reactions with vigabatrin: a review. ( Ferrie, CD; Panayiotopoulos, CP; Robinson, RO, 1996)
"Mean seizure class did not differ between the treatment groups."	1.91	E2730, an uncompetitive γ-aminobutyric acid transporter-1 inhibitor, suppresses epileptic seizures in a rat model of chronic mesial temporal lobe epilepsy. ( Ali, I; Brady, RD; Braine, E; Casillas-Espinosa, PM; Cheng, JY; Fukushima, K; Haskali, MB; Hudson, MR; Jones, NC; Jupp, B; Kwan, P; Major, B; Mychasiuk, R; O'Brien, TJ; Sachdev, P; Shultz, SR; Silva, J; Thergarajan, P; Vivash, L; Wright, DK; Yamakawa, GR, 2023)
"Secondary generalized seizure (sGS) is a major source of disability in temporal lobe epilepsy (TLE) with unclear cellular/circuit mechanisms."	1.46	Depolarized GABAergic Signaling in Subicular Microcircuits Mediates Generalized Seizure in Temporal Lobe Epilepsy. ( Chen, B; Chen, Z; Duan, S; Gao, F; Guo, Y; Ji, C; Li, X; Liang, J; Luo, J; Wang, S; Wang, Y; Wu, X; Xu, C; Xu, Z, 2017)
"Using a rat model of complex febrile seizures, which are thought to be a precipitating insult of TLE later in life, we report that aberrant migration of neonatal-generated granule cells results in granule cell ectopia that persists into adulthood."	1.38	GABAergic excitation after febrile seizures induces ectopic granule cells and adult epilepsy. ( Ichikawa, J; Ikegaya, Y; Koyama, R; Matsuki, N; Miyamoto, D; Muramatsu, R; Sasaki, T; Tao, K, 2012)
"Temporal lobe epilepsy is the most common type of epilepsy in adults, and its pathophysiology remains unclear."	1.33	Hyperexcitability, interneurons, and loss of GABAergic synapses in entorhinal cortex in a model of temporal lobe epilepsy. ( Buckmaster, PS; Kumar, SS, 2006)
"Temporal lobe epilepsy is the most common type of epilepsy in adults, and its underlying mechanisms are unclear."	1.32	Reduced inhibition and increased output of layer II neurons in the medial entorhinal cortex in a model of temporal lobe epilepsy. ( Buckmaster, PS; Kobayashi, M; Wen, X, 2003)
"Gabapentin (GBP) is a commonly used drug in the treatment of partial seizures, but its mode of action is still unclear."	1.32	Gabapentin increases the hyperpolarization-activated cation current Ih in rat CA1 pyramidal cells. ( Feuerstein, TJ; Freiman, TM; Surges, R, 2003)
"Lamotrigine was added to the carbamazepine regimen; impotence improved with decrease in carbamazepine and increase in lamotrigine."	1.31	Improved sexual function in three men taking lamotrigine for epilepsy. ( Carwile, ST; Husain, AM; Miller, PP; Radtke, RA, 2000)
" After lamotrigine was added for better seizure control and the dosage of gabapentin was tapered, anorgasmia improved."	1.31	Improved sexual function in three men taking lamotrigine for epilepsy. ( Carwile, ST; Husain, AM; Miller, PP; Radtke, RA, 2000)
"The second patient complained of impotence after a rash while taking phenytoin and carbamazepine."	1.31	Improved sexual function in three men taking lamotrigine for epilepsy. ( Carwile, ST; Husain, AM; Miller, PP; Radtke, RA, 2000)
"Mesial temporal lobe epilepsy is characterized by hippocampal atrophy, hypometabolism, and decreased N-acetylaspartate, often attributed to neuron loss and gliosis."	1.31	Neuronal and glial metabolite content of the epileptogenic human hippocampus. ( Errante, LD; Kim, JH; Petroff, OA; Rothman, DL; Spencer, DD, 2002)
"Temporal lobe epilepsy is known to be associated with hyperactivity that is likely to be generated or amplified in the hippocampal formation."	1.31	Preservation of perisomatic inhibitory input of granule cells in the epileptic human dentate gyrus. ( Borhegyi, Z; Eross, L; Freund, TF; Halász, P; Maglóczky, Z; Szabó, Z; Tóth, S; Wittner, L, 2001)
"Vigabatrin has been shown to protect against hippocampal neuronal cell death in experimental models of epilepsy."	1.29	Treatment with antiepileptic drugs: possible neuroprotective effects. ( Pitkänen, A, 1996)
"The creatine content was the same in biopsied epileptic cortex (8."	1.29	Symbiosis between in vivo and in vitro NMR spectroscopy: the creatine, N-acetylaspartate, glutamate, and GABA content of the epileptic human brain. ( Petroff, OA; Pleban, LA; Spencer, DD, 1995)
"A study was conducted to assess the impact of single dosing and different dosing intervals of vigabatrin [gamma vinyl GABA (GVG)] in 11 patients with drug-resistant complex partial seizures."	1.28	Pharmacokinetic effects of vigabatrin on cerebrospinal fluid amino acids in humans. ( Ben-Menachem, E, 1989)
"Gamma-Aminobutyric acid (GABA) has been implicated in the neurochemistry of epilepsy."	1.26	Low cerebrospinal fluid gamma-aminobutyric acid content in seizure patients. ( Ballenger, JC; Glaeser, BS; Hare, TA; Post, RM; Wood, JH, 1979)
"Although lumbar CSF GABA levels in our seizure patients did not significantly correlate with serum concentrations of phenytoin, phenobarbital, or primidone, additional study of medication-free epileptic patients may be required to evaluate the possibility of anticonvulsant-drug-induced CSF GABA alterations."	1.26	Low cerebrospinal fluid gamma-aminobutyric acid content in seizure patients. ( Ballenger, JC; Glaeser, BS; Hare, TA; Post, RM; Wood, JH, 1979)

Research

Studies (182)

Timeframe	Studies, this research(%)	All Research%
pre-1990	14 (7.69)	18.7374
1990's	31 (17.03)	18.2507
2000's	83 (45.60)	29.6817
2010's	41 (22.53)	24.3611
2020's	13 (7.14)	2.80

Timeframe

Studies, this research(%)

All Research%

pre-1990

14 (7.69)

18.7374

1990's

31 (17.03)

18.2507

2000's

83 (45.60)

29.6817

2010's

41 (22.53)

24.3611

2020's

13 (7.14)

2.80

Authors

Authors	Studies
Gurrell, R	1
Iredale, P	1
Evrard, A	1
Duveau, V	1
Ruggiero, C	1
Roucard, C	1
Avoli, M	6
de Curtis, M	2
Lévesque, M	1
Librizzi, L	1
Uva, L	1
Wang, S	3
Stieve, BJ	1
Smith, MM	1
Krook-Magnuson, E	1
Ali, I	1
Silva, J	1
Casillas-Espinosa, PM	1
Braine, E	1
Yamakawa, GR	1
Hudson, MR	1
Brady, RD	1
Major, B	1
Thergarajan, P	1
Haskali, MB	1
Wright, DK	1
Jupp, B	1
Vivash, L	1
Shultz, SR	1
Mychasiuk, R	1
Kwan, P	2
Jones, NC	1
Fukushima, K	1
Sachdev, P	1
Cheng, JY	1
O'Brien, TJ	2
Ruffolo, G	1
Martinello, K	2
Labate, A	1
Cifelli, P	1
Fucile, S	2
Di Gennaro, G	4
Quattrone, A	1
Esposito, V	6
Limatola, C	1
Giangaspero, F	3
Aronica, E	2
Palma, E	7
Gambardella, A	1
Dai, Y	1
Song, Y	2
Xie, J	1
Xiao, G	1
Li, X	2
Li, Z	2
Gao, F	2
Zhang, Y	1
He, E	1
Xu, S	1
Wang, Y	3
Zheng, W	1
Jiang, X	1
Qi, Z	1
Meng, D	1
Fan, Z	1
Cai, X	1
Gonen, OM	1
Moffat, BA	1
Desmond, PM	1
Lui, E	1
Hamelin, S	1
Stupar, V	1
Mazière, L	1
Guo, J	1
Labriji, W	1
Liu, C	1
Bretagnolle, L	1
Parrot, S	1
Barbier, EL	1
Depaulis, A	1
Fauvelle, F	1
He, C	1
Liu, P	1
Wu, Y	1
Chen, H	1
Yin, J	1
Zhang, T	1
Yu, F	1
Xu, H	1
Chen, M	1
Chen, X	1
Guo, L	1
Zhou, C	1
Xu, Y	1
Wang, F	1
Yu, J	1
Wu, B	1
Lybrand, ZR	1
Goswami, S	1
Zhu, J	1
Jarzabek, V	1
Merlock, N	1
Aktar, M	1
Smith, C	1
Zhang, L	1
Varma, P	1
Cho, KO	1
Ge, S	1
Hsieh, J	1
Ren, E	1
Curia, G	1
Gu, Y	1
Wu, H	1
Wang, T	1
Yu, S	1
Han, Z	1
Zhang, W	1
Mu, L	1
Wang, H	2
Na, M	1
Lin, Z	1
Xu, C	1
Xu, Z	1
Ji, C	1
Liang, J	1
Chen, B	1
Wu, X	1
Guo, Y	1
Luo, J	1
Duan, S	1
Chen, Z	2
Androsova, G	1
Krause, R	1
Borghei, M	1
Wassenaar, M	1
Auce, P	1
Avbersek, A	1
Becker, F	1
Berghuis, B	1
Campbell, E	1
Coppola, A	1
Francis, B	1
Wolking, S	1
Cavalleri, GL	1
Craig, J	1
Delanty, N	2
Koeleman, BPC	1
Kunz, WS	1
Lerche, H	1
Marson, AG	1
Sander, JW	1
Sills, GJ	1
Striano, P	2
Zara, F	2
Sisodiya, SM	1
Depondt, C	1
Subramanian, D	1
Pralong, E	1
Daniel, RT	1
Chacko, AG	1
Stoop, R	1
Babu, KS	1
Xu, K	2
Liu, Z	1
Wang, L	2
Wu, G	2
Liu, T	1
Liu, F	1
Xu, W	1
Liu, J	1
Chen, S	2
Chun, E	1
Bumanglag, AV	1
Burke, SN	1
Sloviter, RS	2
Du, R	1
Zhu, X	1
Wu, S	1
Zhang, X	1
He, Y	1
Zhang, K	1
He, X	1
Wang, X	1
Sun, Y	1
Wang, Q	1
Zhang, H	1
Tian, M	1
Li, ZX	1
Yu, HM	1
Jiang, KW	1
Sun, C	3
Sun, J	1
Erisir, A	2
Kapur, J	5
Grosser, S	1
Queenan, BN	1
Lalchandani, RR	1
Vicini, S	1
Soukupová, M	1
Binaschi, A	1
Falcicchia, C	1
Zucchini, S	1
Roncon, P	1
Magri, E	1
Grandi, E	1
Simonato, M	2
Lee, H	1
Yun, S	1
Kim, IS	1
Lee, IS	1
Shin, JE	1
Park, SC	1
Kim, WJ	1
Park, KI	1
Grabenstatter, HL	1
Cogswell, M	1
Cruz Del Angel, Y	1
Carlsen, J	1
Gonzalez, MI	1
Raol, YH	1
Russek, SJ	1
Brooks-Kayal, AR	1
Eftekhari, S	1
Mehrabi, S	1
Soleimani, M	1
Hassanzadeh, G	1
Shahrokhi, A	1
Mostafavi, H	1
Hayat, P	1
Barati, M	1
Mehdizadeh, H	1
Rahmanzadeh, R	1
Hadjighassem, MR	1
Joghataei, MT	1
Nugent, AC	1
Martinez, A	1
D'Alfonso, A	1
Zarate, CA	1
Theodore, WH	1
Yutsudo, N	1
Kitagawa, H	1
Armstrong, C	1
Wang, J	1
Yeun Lee, S	1
Broderick, J	1
Bezaire, MJ	1
Lee, SH	1
Soltesz, I	2
You, Z	1
Li, M	1
Pang, L	1
Cheng, J	1
Bethmann, K	1
Fritschy, JM	4
Brandt, C	1
Löscher, W	2
Simister, RJ	1
McLean, MA	1
Barker, GJ	1
Duncan, JS	3
Eichler, SA	1
Kirischuk, S	1
Jüttner, R	1
Schaefermeier, PK	1
Schafermeier, PK	1
Legendre, P	1
Lehmann, TN	2
Gloveli, T	1
Grantyn, R	1
Meier, JC	1
Thompson, K	1
Teichgräber, LA	1
Meencke, HJ	1
Weiss, T	1
Nitsch, R	2
Deisz, RA	1
Crespo Pérez, L	1
Moreira Vicente, V	1
Cano Ruiz, A	1
Gobernado Serrano, JM	1
Cobo Ibañez, N	1
Milicua Salamero, JM	1
Wittner, L	3
Huberfeld, G	2
Clémenceau, S	3
Eross, L	3
Dezamis, E	1
Entz, L	1
Ulbert, I	1
Baulac, M	3
Freund, TF	3
Maglóczky, Z	3
Miles, R	4
Sperk, G	3
Drexel, M	2
Pirker, S	2
Kücker, S	1
Töllner, K	1
Piechotta, M	1
Gernert, M	2
Fujita, S	1
Koshikawa, N	1
Kobayashi, M	2
Thind, KK	2
Yamawaki, R	3
Phanwar, I	1
Zhang, G	1
Wen, X	2
Buckmaster, PS	6
Kim, YB	1
Ryu, JK	1
Lee, HJ	1
Lim, IJ	1
Park, D	1
Lee, MC	1
Kim, SU	1
Bortel, A	1
Longo, D	1
de Guzman, P	2
Dubeau, F	1
Biagini, G	2
Wyeth, MS	1
Zhang, N	1
Mody, I	3
Houser, CR	5
Rajasekaran, K	2
Joshi, S	2
Mtchedlishvilli, Z	1
Kawahara, S	1
Konishi, H	1
Morino, M	1
Ohata, K	1
Kiyama, H	1
Huneau, C	1
Demont-Guignard, S	1
Benquet, P	1
Martin, B	1
Wendling, F	2
Akakin, D	1
Sirvanci, S	1
Gurbanova, A	1
Aker, R	2
Onat, F	2
San, T	1
Sloan, DM	1
Zhang, D	1
Bertram, EH	2
Errichiello, L	1
Striano, S	1
Wieselthaler-Hölzl, A	1
Tasan, R	1
Strasser, SS	1
Pifl, C	1
Marschalek, J	1
Ortler, M	1
Trinka, E	1
Heitmair-Wietzorrek, K	1
Ciofi, P	1
Feucht, M	1
Baumgartner, C	1
Czech, T	1
Alvestad, S	1
Hammer, J	1
Qu, H	1
Håberg, A	1
Ottersen, OP	1
Sonnewald, U	1
Malkov, AE	1
Popova, IY	1
Pernhorst, K	1
Raabe, A	1
Niehusmann, P	1
van Loo, KM	1
Grote, A	1
Hoffmann, P	1
Cichon, S	1
Sander, T	1
Schoch, S	1
Becker, AJ	1
Maisano, X	1
Litvina, E	1
Tagliatela, S	1
Aaron, GB	1
Grabel, LB	1
Naegele, JR	1
Pavlov, I	1
Walker, MC	1
Köhling, R	2
Koyama, R	1
Tao, K	1
Sasaki, T	1
Ichikawa, J	1
Miyamoto, D	1
Muramatsu, R	1
Matsuki, N	1
Ikegaya, Y	1
van der Hel, WS	1
van Eijsden, P	1
Bos, IW	1
de Graaf, RA	1
Behar, KL	2
van Nieuwenhuizen, O	1
de Graan, PN	4
Braun, KP	1
Sun, FJ	1
Guo, W	1
Zheng, DH	1
Zhang, CQ	1
Li, S	1
Liu, SY	1
Yin, Q	1
Yang, H	1
Shu, HF	1
Zhang, GF	2
Silva, AV	1
Sanabria, ER	1
Cavalheiro, EA	1
Spreafico, R	2
Petroff, OA	3
Errante, LD	1
Rothman, DL	2
Kim, JH	1
Spencer, DD	6
Mileo, AM	1
Quarato, P	2
Scoppetta, C	2
Onorati, P	1
Trettel, F	1
Miledi, R	5
Eusebi, F	5
Cohen, I	2
Navarro, V	2
Surges, R	1
Freiman, TM	1
Feuerstein, TJ	2
Klitgaard, H	1
Matagne, A	1
Grimee, R	1
Vanneste-Goemaere, J	1
Margineanu, DG	1
Neder, L	1
Valente, V	1
Carlotti, CG	1
Leite, JP	2
Assirati, JA	2
Paçó-Larson, ML	1
Moreira, JE	1
Thomas, PM	3
Phillips, JP	3
O'Connor, WT	3
Cohen, AS	1
Lin, DD	2
Quirk, GL	1
Coulter, DA	3
André, V	2
Rigoulot, MA	1
Koning, E	1
Ferrandon, A	1
Nehlig, A	2
Esclapez, M	6
Dudeck, O	1
Lübben, S	1
Eipper, S	1
Knörle, R	1
Kirsch, M	1
Honegger, J	1
Zentner, J	1
Laurén, HB	1
Pitkänen, A	4
Nissinen, J	1
Soini, SL	1
Korpi, ER	1
Holopainen, IE	1
HEATH, RG	1
GUERRERO-FIGUEROA, R	1
Le Duigou, C	1
Schwarzer, C	1
Heilman, J	1
Furtinger, S	1
Reimer, RJ	1
Edwards, RH	1
Nelson, N	2
Ratzliff, Ad	1
Howard, AL	1
Santhakumar, V	1
Osapay, I	1
Cuéllar-Herrera, M	1
Velasco, M	1
Velasco, F	1
Velasco, AL	1
Jiménez, F	1
Orozco, S	1
Briones, M	1
Rocha, L	1
Hoogland, G	3
Spierenburg, HA	2
van Veelen, CW	3
van Rijen, PC	2
van Huffelen, AC	3
Shirayama, Y	1

Studies

Gurrell, R

Iredale, P

Evrard, A

Duveau, V

Ruggiero, C

Roucard, C

Avoli, M

de Curtis, M

Lévesque, M

Librizzi, L

Uva, L

Wang, S

Stieve, BJ

Smith, MM

Krook-Magnuson, E

Ali, I

Silva, J

Casillas-Espinosa, PM

Braine, E

Yamakawa, GR

Hudson, MR

Brady, RD

Major, B

Thergarajan, P

Haskali, MB

Wright, DK

Jupp, B

Vivash, L

Shultz, SR

Mychasiuk, R

Kwan, P

Jones, NC

Fukushima, K

Sachdev, P

Cheng, JY

O'Brien, TJ

Ruffolo, G

Martinello, K

Labate, A

Cifelli, P

Fucile, S

Di Gennaro, G

Quattrone, A

Esposito, V

Limatola, C

Giangaspero, F

Aronica, E

Palma, E

Gambardella, A

Dai, Y

Song, Y

Xie, J

Xiao, G

Li, X

Li, Z

Gao, F

Zhang, Y

He, E

Xu, S

Wang, Y

Zheng, W

Jiang, X

Qi, Z

Meng, D

Fan, Z

Cai, X

Gonen, OM

Moffat, BA

Desmond, PM

Lui, E

Hamelin, S

Stupar, V

Mazière, L

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Ren, E

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Gu, Y

Wu, H

Wang, T

Yu, S

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Zhang, W

Mu, L

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Na, M

Lin, Z

Xu, C

Xu, Z

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Liang, J

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HEATH, RG

GUERRERO-FIGUEROA, R

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Ballesteros-Yáñez, I

García Sola, R

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Schirmer, M

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Won, MH

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Clinical Trials (5)

Trial Overview

Trial	Phase	Enrollment	Study Type	Start Date	Status
A 57-Week, Multicenter, Active-treatment, Open-label Extension Trial of CVL-865 as Adjunctive Therapy in Adults With Drug-Resistant Focal Onset Seizures[NCT04686786]	Phase 2	120 participants (Anticipated)	Interventional	2020-12-08	Enrolling by invitation
A Randomized, Double-blind, Placebo-controlled, Parallel Group, Multicenter Trial of CVL-865 as Adjunctive Therapy in Adults With Drug-Resistant Focal Onset Seizures (REALIZE Trial)[NCT04244175]	Phase 2	150 participants (Anticipated)	Interventional	2020-01-27	Recruiting
Quantitative MRI and GABA Spectroscopy to Localize the Epileptic Zone[NCT06057233]		40 participants (Anticipated)	Observational	2024-03-31	Not yet recruiting
GABA/Glutamate Balance in Temporal Lobe Epilepsy With and Without Major Depression[NCT00931619]		29 participants (Actual)	Observational	2009-06-29	Completed
The BrainDrugs-Epilepsy Study: A Prospective Open-label Cohort Precision Medicine Study in Epilepsy[NCT05450822]		550 participants (Anticipated)	Observational	2022-02-18	Recruiting
[information is prepared from clinicaltrials.gov, extracted Sep-2024]

Trial

Phase

Enrollment

Study Type

Start Date

Status

A 57-Week, Multicenter, Active-treatment, Open-label Extension Trial of CVL-865 as Adjunctive Therapy in Adults With Drug-Resistant Focal Onset Seizures[NCT04686786]

Phase 2

120 participants (Anticipated)

Interventional

2020-12-08

Enrolling by invitation

A Randomized, Double-blind, Placebo-controlled, Parallel Group, Multicenter Trial of CVL-865 as Adjunctive Therapy in Adults With Drug-Resistant Focal Onset Seizures (REALIZE Trial)[NCT04244175]

Phase 2

150 participants (Anticipated)

Interventional

2020-01-27

Recruiting

Quantitative MRI and GABA Spectroscopy to Localize the Epileptic Zone[NCT06057233]

40 participants (Anticipated)

Observational

2024-03-31

Not yet recruiting

GABA/Glutamate Balance in Temporal Lobe Epilepsy With and Without Major Depression[NCT00931619]

29 participants (Actual)

Observational

2009-06-29

Completed

The BrainDrugs-Epilepsy Study: A Prospective Open-label Cohort Precision Medicine Study in Epilepsy[NCT05450822]

550 participants (Anticipated)

Observational

2022-02-18

Recruiting

[information is prepared from clinicaltrials.gov, extracted Sep-2024]

Reviews

Article	Year
GABA Frontiers in neural circuits, 2022, Volume: 16 Topics: Animals; Electroencephalography; Epilepsies, Partial; Epilepsy; Epilepsy, Temporal Lobe; gamma-Amino	2022
Synaptic Reshaping and Neuronal Outcomes in the Temporal Lobe Epilepsy. International journal of molecular sciences, 2021, Apr-08, Volume: 22, Issue:8 Topics: Animals; Astrocytes; Disease Susceptibility; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Gluta	2021
Tonic GABA inhibition in hippocampal dentate granule cells: its regulation and function in temporal lobe epilepsies. Acta physiologica (Oxford, England), 2013, Volume: 209, Issue:3 Topics: Animals; Cytoplasmic Granules; Dentate Gyrus; Epilepsy, Temporal Lobe; Excitatory Amino Acid Antagon	2013
Transplantation of GABA-producing cells for seizure control in models of temporal lobe epilepsy. Neurotherapeutics : the journal of the American Society for Experimental NeuroTherapeutics, 2009, Volume: 6, Issue:2 Topics: Animals; Brain Tissue Transplantation; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminob	2009
[Anticonvulsant hypersensitivity syndrome: an entity to be remembered]. Gastroenterologia y hepatologia, 2009, Volume: 32, Issue:10 Topics: Adolescent; Amines; Anemia, Hemolytic; Anticonvulsants; Astrocytoma; Brain Neoplasms; Carbamazepine;	2009
Neuronal plasticity in animal models and the epileptic human hippocampus. Epilepsia, 2009, Volume: 50 Suppl 12 Topics: Animals; Dentate Gyrus; Disease Models, Animal; Epilepsy; Epilepsy, Temporal Lobe; gamma-Aminobutyri	2009
Temporal lobe epilepsy and anti glutamic acid decarboxylase autoimmunity. Neurological sciences : official journal of the Italian Neurological Society and of the Italian Society of Clinical Neurophysiology, 2011, Volume: 32, Issue:4 Topics: Animals; Antibodies; Autoimmune Diseases; Autoimmunity; Epilepsy; Epilepsy, Temporal Lobe; gamma-Ami	2011
GABAergic transmission in temporal lobe epilepsy: the role of neurosteroids. Experimental neurology, 2013, Volume: 244 Topics: Animals; Brain; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Humans; Ne	2013
Tonic GABA(A) receptor-mediated signalling in temporal lobe epilepsy. Neuropharmacology, 2013, Volume: 69 Topics: Animals; Electrophysiology; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Humans; Neural Inhibit	2013
Does interictal synchronization influence ictogenesis? Neuropharmacology, 2013, Volume: 69 Topics: Animals; Disease Models, Animal; Electroencephalography Phase Synchronization; Epilepsy, Temporal Lo	2013
Mesial temporal lobe epilepsy: a pathological replay of developmental mechanisms? Biology of the cell, 2003, Volume: 95, Issue:6 Topics: Animals; Brain; Chlorides; Electroencephalography; Epilepsy; Epilepsy, Temporal Lobe; gamma-Aminobut	2003
Dogma and dreams: experimental lessons for epilepsy mechanism chasers. Cellular and molecular life sciences : CMLS, 2005, Volume: 62, Issue:11 Topics: Adult; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Humans; Neural Inhibition; Synaptic Transmi	2005
Axonal sprouting of GABAergic interneurons in temporal lobe epilepsy. Epilepsy & behavior : E&B, 2005, Volume: 7, Issue:3 Topics: Axons; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Humans; Interneurons	2005
Mechanisms regulating GABAergic inhibitory transmission in the basolateral amygdala: implications for epilepsy and anxiety disorders. Amino acids, 2007, Volume: 32, Issue:3 Topics: Adrenergic alpha-Agonists; Amygdala; Animals; Anticonvulsants; Anxiety Disorders; Depression; Dose-R	2007
Cell therapy in models for temporal lobe epilepsy. Seizure, 2007, Volume: 16, Issue:7 Topics: Acetylcholine; Adenosine; Animals; Cell Transplantation; Disease Models, Animal; Epilepsy, Temporal	2007
Seizures beget seizures: the quest for GABA as a key player. Critical reviews in neurobiology, 2006, Volume: 18, Issue:1-2 Topics: Animals; Epilepsy; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hippocampus; Humans; Nerve Net;	2006
[The neurochemical mechanisms of temporal lobe epilepsy: an update]. Przeglad lekarski, 2007, Volume: 64, Issue:11 Topics: Animals; Calcium Channels; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Glutamic Acid; Humans;	2007
[Relevance of basic research to clinical data: Good answers, wrong questions!]. Neuro-Chirurgie, 2008, Volume: 54, Issue:3 Topics: Adult; Animals; Brain; Child; Child, Preschool; Epilepsy; Epilepsy, Temporal Lobe; gamma-Aminobutyri	2008
Interictal schizophrenia-like psychoses in temporal lobe epilepsy. Psychosomatics, 1983, Volume: 24, Issue:4 Topics: Anticonvulsants; Brain; Carbamazepine; Electroencephalography; Epilepsy, Temporal Lobe; Functional L	1983
Magnetic resonance spectroscopy. Epilepsia, 1996, Volume: 37, Issue:7 Topics: Aspartic Acid; Brain; Creatinine; Epilepsy; Epilepsy, Complex Partial; Epilepsy, Temporal Lobe; gamm	1996
Psychotic and severe behavioural reactions with vigabatrin: a review. Acta neurologica Scandinavica, 1996, Volume: 93, Issue:1 Topics: Adult; Anticonvulsants; Child; Contraindications; Dose-Response Relationship, Drug; Epilepsy; Epilep	1996
Amygdala damage in experimental and human temporal lobe epilepsy. Epilepsy research, 1998, Volume: 32, Issue:1-2 Topics: Amygdala; Animals; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Humans;	1998
1H MR spectroscopy in patients with mesial temporal epilepsy. Magma (New York, N.Y.), 1998, Volume: 7, Issue:2 Topics: Aspartic Acid; Choline; Creatine; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Glutamic Acid; G	1998
Chandelier cells and epilepsy. Brain : a journal of neurology, 1999, Volume: 122 ( Pt 10) Topics: Animals; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Humans; Interneurons; Models, Neurologica	1999
What is GABAergic inhibition? How is it modified in epilepsy? Epilepsia, 2000, Volume: 41 Suppl 6 Topics: Animals; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hippocampus; Humans; Interneurons; Models	2000
Kainate, a double agent that generates seizures: two decades of progress. Trends in neurosciences, 2000, Volume: 23, Issue:11 Topics: Animals; Disease Models, Animal; Electric Conductivity; Epilepsy, Temporal Lobe; Excitatory Amino Ac	2000
Pathophysiology of epilepsy. Acta neurologica Belgica, 2000, Volume: 100, Issue:4 Topics: Adult; Animals; Anticonvulsants; Autoimmune Diseases; Calcium; Catecholamines; Cell Movement; Child;	2000
The process of epileptogenesis: a pathophysiological approach. Current opinion in neurology, 2001, Volume: 14, Issue:2 Topics: Animals; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Glutamic Acid; Hi	2001
Cell death and synaptic reorganizations produced by seizures. Epilepsia, 2001, Volume: 42 Suppl 3 Topics: Animals; Cell Death; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hippocampus; Humans; In Vitro	2001
Adolescent seizures and epilepsy syndromes. Epilepsia, 2002, Volume: 43 Suppl 3 Topics: Adolescent; Age Factors; Brain; Child; Electroencephalography; Epilepsy; Epilepsy, Temporal Lobe; Es	2002
Sodium valproate: a review of its pharmacological properties and therapeutic efficacy in epilepsy. Drugs, 1977, Volume: 13, Issue:2 Topics: Administration, Oral; Adult; Animals; Anticonvulsants; Behavior; Blood Platelets; Child; Clinical Tr	1977
Neuron-glia relationships in human and experimental epilepsy: a biochemical point of view. Advances in neurology, 1986, Volume: 44 Topics: Amino Acids; Animals; Biological Transport; Brain; Carbonic Anhydrases; Epilepsy; Epilepsy, Temporal	1986

Article

Year

GABA

Frontiers in neural circuits, 2022, Volume: 16

Topics: Animals; Electroencephalography; Epilepsies, Partial; Epilepsy; Epilepsy, Temporal Lobe; gamma-Amino

2022

Synaptic Reshaping and Neuronal Outcomes in the Temporal Lobe Epilepsy.

International journal of molecular sciences, 2021, Apr-08, Volume: 22, Issue:8

Topics: Animals; Astrocytes; Disease Susceptibility; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Gluta

2021

Tonic GABA inhibition in hippocampal dentate granule cells: its regulation and function in temporal lobe epilepsies.

Acta physiologica (Oxford, England), 2013, Volume: 209, Issue:3

Topics: Animals; Cytoplasmic Granules; Dentate Gyrus; Epilepsy, Temporal Lobe; Excitatory Amino Acid Antagon

2013

Transplantation of GABA-producing cells for seizure control in models of temporal lobe epilepsy.

Neurotherapeutics : the journal of the American Society for Experimental NeuroTherapeutics, 2009, Volume: 6, Issue:2

Topics: Animals; Brain Tissue Transplantation; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminob

2009

[Anticonvulsant hypersensitivity syndrome: an entity to be remembered].

Gastroenterologia y hepatologia, 2009, Volume: 32, Issue:10

Topics: Adolescent; Amines; Anemia, Hemolytic; Anticonvulsants; Astrocytoma; Brain Neoplasms; Carbamazepine;

2009

Neuronal plasticity in animal models and the epileptic human hippocampus.

Epilepsia, 2009, Volume: 50 Suppl 12

Topics: Animals; Dentate Gyrus; Disease Models, Animal; Epilepsy; Epilepsy, Temporal Lobe; gamma-Aminobutyri

2009

Temporal lobe epilepsy and anti glutamic acid decarboxylase autoimmunity.

Neurological sciences : official journal of the Italian Neurological Society and of the Italian Society of Clinical Neurophysiology, 2011, Volume: 32, Issue:4

Topics: Animals; Antibodies; Autoimmune Diseases; Autoimmunity; Epilepsy; Epilepsy, Temporal Lobe; gamma-Ami

2011

GABAergic transmission in temporal lobe epilepsy: the role of neurosteroids.

Experimental neurology, 2013, Volume: 244

Topics: Animals; Brain; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Humans; Ne

2013

Tonic GABA(A) receptor-mediated signalling in temporal lobe epilepsy.

Neuropharmacology, 2013, Volume: 69

Topics: Animals; Electrophysiology; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Humans; Neural Inhibit

2013

Does interictal synchronization influence ictogenesis?

Neuropharmacology, 2013, Volume: 69

Topics: Animals; Disease Models, Animal; Electroencephalography Phase Synchronization; Epilepsy, Temporal Lo

2013

Mesial temporal lobe epilepsy: a pathological replay of developmental mechanisms?

Biology of the cell, 2003, Volume: 95, Issue:6

Topics: Animals; Brain; Chlorides; Electroencephalography; Epilepsy; Epilepsy, Temporal Lobe; gamma-Aminobut

2003

Dogma and dreams: experimental lessons for epilepsy mechanism chasers.

Cellular and molecular life sciences : CMLS, 2005, Volume: 62, Issue:11

Topics: Adult; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Humans; Neural Inhibition; Synaptic Transmi

2005

Axonal sprouting of GABAergic interneurons in temporal lobe epilepsy.

Epilepsy & behavior : E&B, 2005, Volume: 7, Issue:3

Topics: Axons; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Humans; Interneurons

2005

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

Amino acids, 2007, Volume: 32, Issue:3

Topics: Adrenergic alpha-Agonists; Amygdala; Animals; Anticonvulsants; Anxiety Disorders; Depression; Dose-R

2007

Cell therapy in models for temporal lobe epilepsy.

Seizure, 2007, Volume: 16, Issue:7

Topics: Acetylcholine; Adenosine; Animals; Cell Transplantation; Disease Models, Animal; Epilepsy, Temporal

2007

Seizures beget seizures: the quest for GABA as a key player.

Critical reviews in neurobiology, 2006, Volume: 18, Issue:1-2

Topics: Animals; Epilepsy; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hippocampus; Humans; Nerve Net;

2006

[The neurochemical mechanisms of temporal lobe epilepsy: an update].

Przeglad lekarski, 2007, Volume: 64, Issue:11

Topics: Animals; Calcium Channels; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Glutamic Acid; Humans;

2007

[Relevance of basic research to clinical data: Good answers, wrong questions!].

Neuro-Chirurgie, 2008, Volume: 54, Issue:3

Topics: Adult; Animals; Brain; Child; Child, Preschool; Epilepsy; Epilepsy, Temporal Lobe; gamma-Aminobutyri

2008

Interictal schizophrenia-like psychoses in temporal lobe epilepsy.

Psychosomatics, 1983, Volume: 24, Issue:4

Topics: Anticonvulsants; Brain; Carbamazepine; Electroencephalography; Epilepsy, Temporal Lobe; Functional L

1983

Magnetic resonance spectroscopy.

Epilepsia, 1996, Volume: 37, Issue:7

Topics: Aspartic Acid; Brain; Creatinine; Epilepsy; Epilepsy, Complex Partial; Epilepsy, Temporal Lobe; gamm

1996

Psychotic and severe behavioural reactions with vigabatrin: a review.

Acta neurologica Scandinavica, 1996, Volume: 93, Issue:1

Topics: Adult; Anticonvulsants; Child; Contraindications; Dose-Response Relationship, Drug; Epilepsy; Epilep

1996

Amygdala damage in experimental and human temporal lobe epilepsy.

Epilepsy research, 1998, Volume: 32, Issue:1-2

Topics: Amygdala; Animals; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Humans;

1998

1H MR spectroscopy in patients with mesial temporal epilepsy.

Magma (New York, N.Y.), 1998, Volume: 7, Issue:2

Topics: Aspartic Acid; Choline; Creatine; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Glutamic Acid; G

1998

Chandelier cells and epilepsy.

Brain : a journal of neurology, 1999, Volume: 122 ( Pt 10)

Topics: Animals; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Humans; Interneurons; Models, Neurologica

1999

What is GABAergic inhibition? How is it modified in epilepsy?

Epilepsia, 2000, Volume: 41 Suppl 6

Topics: Animals; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hippocampus; Humans; Interneurons; Models

2000

Kainate, a double agent that generates seizures: two decades of progress.

Trends in neurosciences, 2000, Volume: 23, Issue:11

Topics: Animals; Disease Models, Animal; Electric Conductivity; Epilepsy, Temporal Lobe; Excitatory Amino Ac

2000

Pathophysiology of epilepsy.

Acta neurologica Belgica, 2000, Volume: 100, Issue:4

Topics: Adult; Animals; Anticonvulsants; Autoimmune Diseases; Calcium; Catecholamines; Cell Movement; Child;

2000

The process of epileptogenesis: a pathophysiological approach.

Current opinion in neurology, 2001, Volume: 14, Issue:2

Topics: Animals; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Glutamic Acid; Hi

2001

Cell death and synaptic reorganizations produced by seizures.

Epilepsia, 2001, Volume: 42 Suppl 3

Topics: Animals; Cell Death; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hippocampus; Humans; In Vitro

2001

Adolescent seizures and epilepsy syndromes.

Epilepsia, 2002, Volume: 43 Suppl 3

Topics: Adolescent; Age Factors; Brain; Child; Electroencephalography; Epilepsy; Epilepsy, Temporal Lobe; Es

2002

Sodium valproate: a review of its pharmacological properties and therapeutic efficacy in epilepsy.

Drugs, 1977, Volume: 13, Issue:2

Topics: Administration, Oral; Adult; Animals; Anticonvulsants; Behavior; Blood Platelets; Child; Clinical Tr

1977

Neuron-glia relationships in human and experimental epilepsy: a biochemical point of view.

Advances in neurology, 1986, Volume: 44

Topics: Amino Acids; Animals; Biological Transport; Brain; Carbonic Anhydrases; Epilepsy; Epilepsy, Temporal

1986

Trials

Article	Year
Proton MR spectroscopy of metabolite concentrations in temporal lobe epilepsy and effect of temporal lobe resection. Epilepsy research, 2009, Volume: 83, Issue:2-3 Topics: Adolescent; Adult; Aspartic Acid; Brain Chemistry; Brain Mapping; Carnosine; Creatine; Epilepsy, Tem	2009
Elevated extracellular levels of glutamate, aspartate and gamma-aminobutyric acid within the intraoperative, spontaneously epileptiform human hippocampus. Epilepsy research, 2003, Volume: 54, Issue:1 Topics: Adult; Anesthesia, General; Aspartic Acid; Electroencephalography; Epilepsy, Temporal Lobe; Female;	2003
Progabide as an add-on drug for epilepsy refractory to high dose antiepileptic drug therapy. Neuroscience letters, 1984, Jun-29, Volume: 47, Issue:3 Topics: Adult; Aged; Anticonvulsants; Clinical Trials as Topic; Double-Blind Method; Drug Therapy, Combinati	1984
Effects of vigabatrin on brain GABA+/CR signals in patients with epilepsy monitored by 1H-NMR-spectroscopy: responder characteristics. Epilepsia, 2001, Volume: 42, Issue:1 Topics: Adolescent; Adult; Anticonvulsants; Brain; Brain Chemistry; Carnosine; Creatine; Epilepsy; Epilepsy,	2001
Sodium valproate: a review of its pharmacological properties and therapeutic efficacy in epilepsy. Drugs, 1977, Volume: 13, Issue:2 Topics: Administration, Oral; Adult; Animals; Anticonvulsants; Behavior; Blood Platelets; Child; Clinical Tr	1977
Preliminary observations on the activity of progabide, administered as monotherapy in complex partial seizures. International journal of clinical pharmacology research, 1988, Volume: 8, Issue:5 Topics: Adolescent; Adult; Clinical Trials as Topic; Drug Administration Schedule; Epilepsy, Temporal Lobe;	1988

Article

Year

Proton MR spectroscopy of metabolite concentrations in temporal lobe epilepsy and effect of temporal lobe resection.

Epilepsy research, 2009, Volume: 83, Issue:2-3

Topics: Adolescent; Adult; Aspartic Acid; Brain Chemistry; Brain Mapping; Carnosine; Creatine; Epilepsy, Tem

2009

Elevated extracellular levels of glutamate, aspartate and gamma-aminobutyric acid within the intraoperative, spontaneously epileptiform human hippocampus.

Epilepsy research, 2003, Volume: 54, Issue:1

Topics: Adult; Anesthesia, General; Aspartic Acid; Electroencephalography; Epilepsy, Temporal Lobe; Female;

2003

Progabide as an add-on drug for epilepsy refractory to high dose antiepileptic drug therapy.

Neuroscience letters, 1984, Jun-29, Volume: 47, Issue:3

Topics: Adult; Aged; Anticonvulsants; Clinical Trials as Topic; Double-Blind Method; Drug Therapy, Combinati

1984

Effects of vigabatrin on brain GABA+/CR signals in patients with epilepsy monitored by 1H-NMR-spectroscopy: responder characteristics.

Epilepsia, 2001, Volume: 42, Issue:1

Topics: Adolescent; Adult; Anticonvulsants; Brain; Brain Chemistry; Carnosine; Creatine; Epilepsy; Epilepsy,

2001

Sodium valproate: a review of its pharmacological properties and therapeutic efficacy in epilepsy.

Drugs, 1977, Volume: 13, Issue:2

Topics: Administration, Oral; Adult; Animals; Anticonvulsants; Behavior; Blood Platelets; Child; Clinical Tr

1977

Preliminary observations on the activity of progabide, administered as monotherapy in complex partial seizures.

International journal of clinical pharmacology research, 1988, Volume: 8, Issue:5

Topics: Adolescent; Adult; Clinical Trials as Topic; Drug Administration Schedule; Epilepsy, Temporal Lobe;

1988

Other Studies

145 other studies available for gamma-aminobutyric acid and Epilepsy, Temporal Lobe

Article	Year
Pronounced antiseizure activity of the subtype-selective GABA CNS neuroscience & therapeutics, 2022, Volume: 28, Issue:11 Topics: Animals; Anticonvulsants; Diazepam; Disease Models, Animal; Drug Resistant Epilepsy; Electroencephal	2022
Pronounced antiseizure activity of the subtype-selective GABA CNS neuroscience & therapeutics, 2022, Volume: 28, Issue:11 Topics: Animals; Anticonvulsants; Diazepam; Disease Models, Animal; Drug Resistant Epilepsy; Electroencephal	2022
Pronounced antiseizure activity of the subtype-selective GABA CNS neuroscience & therapeutics, 2022, Volume: 28, Issue:11 Topics: Animals; Anticonvulsants; Diazepam; Disease Models, Animal; Drug Resistant Epilepsy; Electroencephal	2022
Pronounced antiseizure activity of the subtype-selective GABA CNS neuroscience & therapeutics, 2022, Volume: 28, Issue:11 Topics: Animals; Anticonvulsants; Diazepam; Disease Models, Animal; Drug Resistant Epilepsy; Electroencephal	2022
LINCs Are Vulnerable to Epileptic Insult and Fail to Provide Seizure Control via On-Demand Activation. eNeuro, 2023, Volume: 10, Issue:2 Topics: Animals; Disease Models, Animal; Epilepsy; Epilepsy, Temporal Lobe; Female; gamma-Aminobutyric Acid;	2023
E2730, an uncompetitive γ-aminobutyric acid transporter-1 inhibitor, suppresses epileptic seizures in a rat model of chronic mesial temporal lobe epilepsy. Epilepsia, 2023, Volume: 64, Issue:10 Topics: Adult; Animals; Disease Models, Animal; Electroencephalography; Epilepsy; Epilepsy, Temporal Lobe; g	2023
Modulation of GABAergic dysfunction due to SCN1A mutation linked to Hippocampal Sclerosis. Annals of clinical and translational neurology, 2020, Volume: 7, Issue:9 Topics: Adult; Anterior Temporal Lobectomy; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hippocampus; H	2020
CB1-Antibody Modified Liposomes for Targeted Modulation of Epileptiform Activities Synchronously Detected by Microelectrode Arrays. ACS applied materials & interfaces, 2020, Sep-16, Volume: 12, Issue:37 Topics: Animals; Antibodies; Coordination Complexes; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-	2020
Seven-tesla quantitative magnetic resonance spectroscopy of glutamate, γ-aminobutyric acid, and glutathione in the posterior cingulate cortex/precuneus in patients with epilepsy. Epilepsia, 2020, Volume: 61, Issue:12 Topics: Adult; Aged; Case-Control Studies; Epilepsy; Epilepsy, Generalized; Epilepsy, Temporal Lobe; gamma-A	2020
In vivo γ-aminobutyric acid increase as a biomarker of the epileptogenic zone: An unbiased metabolomics approach. Epilepsia, 2021, Volume: 62, Issue:1 Topics: Animals; Anticonvulsants; Carbamazepine; Disease Models, Animal; Electrophoresis, Capillary; Epileps	2021
Gamma-aminobutyric acid (GABA) changes in the hippocampus and anterior cingulate cortex in patients with temporal lobe epilepsy. Epilepsy & behavior : E&B, 2021, Volume: 115 Topics: Aspartic Acid; Choline; Creatine; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Gyrus Cinguli; H	2021
Dysregulation of REV-ERBα impairs GABAergic function and promotes epileptic seizures in preclinical models. Nature communications, 2021, 02-22, Volume: 12, Issue:1 Topics: Acute Disease; Animals; Basic-Leucine Zipper Transcription Factors; Chronic Disease; Disease Models,	2021
A critical period of neuronal activity results in aberrant neurogenesis rewiring hippocampal circuitry in a mouse model of epilepsy. Nature communications, 2021, 03-03, Volume: 12, Issue:1 Topics: Animals; Calcium; Clozapine; Disease Models, Animal; Electroencephalography; Epilepsy; Epilepsy, Tem	2021
Profiling Analysis of Circular RNA and mRNA in Human Temporal Lobe Epilepsy with Hippocampal Sclerosis ILAE Type 1. Cellular and molecular neurobiology, 2022, Volume: 42, Issue:8 Topics: Centromere Protein A; Chloride Channels; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Gliosis;	2022
Depolarized GABAergic Signaling in Subicular Microcircuits Mediates Generalized Seizure in Temporal Lobe Epilepsy. Neuron, 2017, Jul-05, Volume: 95, Issue:1 Topics: Adolescent; Adult; Animals; Case-Control Studies; Disease Models, Animal; Electroencephalography; Ep	2017
Comparative effectiveness of antiepileptic drugs in patients with mesial temporal lobe epilepsy with hippocampal sclerosis. Epilepsia, 2017, Volume: 58, Issue:10 Topics: Adolescent; Adult; Aged; Amines; Anticonvulsants; Ataxia; Benzodiazepines; Carbamazepine; Clobazam;	2017
Gamma oscillatory activity in vitro: a model system to assess pathophysiological mechanisms of comorbidity between autism and epilepsy. Translational psychiatry, 2018, 01-10, Volume: 8, Issue:1 Topics: Animals; Autism Spectrum Disorder; Comorbidity; Electric Stimulation; Electroencephalography; Epilep	2018
Influence of hippocampal low-frequency stimulation on GABA Brain research, 2018, 11-01, Volume: 1698 Topics: Amygdala; Animals; Brain-Derived Neurotrophic Factor; Cyclic AMP Response Element Modulator; Disease	2018
Transplanting GABAergic Neurons Differentiated from Neural Stem Cells into Hippocampus Inhibits Seizures and Epileptiform Discharges in Pilocarpine-Induced Temporal Lobe Epilepsy Model. World neurosurgery, 2019, Volume: 128 Topics: Animals; Animals, Newborn; Disease Models, Animal; Drug Resistant Epilepsy; Electroencephalography;	2019
Targeted hippocampal GABA neuron ablation by Stable Substance P-saporin causes hippocampal sclerosis and chronic epilepsy in rats. Epilepsia, 2019, Volume: 60, Issue:5 Topics: Animals; Chronic Disease; Dentate Gyrus; Epilepsy, Temporal Lobe; GABAergic Neurons; gamma-Aminobuty	2019
PET imaging of metabolic changes after neural stem cells and GABA progenitor cells transplantation in a rat model of temporal lobe epilepsy. European journal of nuclear medicine and molecular imaging, 2019, Volume: 46, Issue:11 Topics: Animals; Cell Line; Electroencephalography; Electrophysiology; Epilepsy, Temporal Lobe; Fluorodeoxyg	2019
Loss of cholecystokinin-containing terminals in temporal lobe epilepsy. Neurobiology of disease, 2014, Volume: 62 Topics: Animals; Cholecystokinin; Dentate Gyrus; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Inhibitor	2014
Hilar somatostatin interneurons contribute to synchronized GABA activity in an in vitro epilepsy model. PloS one, 2014, Volume: 9, Issue:1 Topics: 4-Aminopyridine; Action Potentials; Animals; Calcium; Epilepsy, Temporal Lobe; gamma-Aminobutyric Ac	2014
Impairment of GABA release in the hippocampus at the time of the first spontaneous seizure in the pilocarpine model of temporal lobe epilepsy. Experimental neurology, 2014, Volume: 257 Topics: Animals; Calcium; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hippocam	2014
Human fetal brain-derived neural stem/progenitor cells grafted into the adult epileptic brain restrain seizures in rat models of temporal lobe epilepsy. PloS one, 2014, Volume: 9, Issue:8 Topics: Analysis of Variance; Animals; Blotting, Western; Brain; Cell Differentiation; Chromatography, High	2014
Effect of spontaneous seizures on GABAA receptor α4 subunit expression in an animal model of temporal lobe epilepsy. Epilepsia, 2014, Volume: 55, Issue:11 Topics: Animals; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Pilocarpine; Rats	2014
BDNF modifies hippocampal KCC2 and NKCC1 expression in a temporal lobe epilepsy model. Acta neurobiologiae experimentalis, 2014, Volume: 74, Issue:3 Topics: Animals; Brain-Derived Neurotrophic Factor; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-A	2014
The relationship between glucose metabolism, resting-state fMRI BOLD signal, and GABAA-binding potential: a preliminary study in healthy subjects and those with temporal lobe epilepsy. Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism, 2015, Mar-31, Volume: 35, Issue:4 Topics: Adult; Brain; Brain Mapping; Epilepsy, Temporal Lobe; Female; gamma-Aminobutyric Acid; Glucose; Glut	2015
Involvement of chondroitin 6-sulfation in temporal lobe epilepsy. Experimental neurology, 2015, Volume: 274, Issue:Pt B Topics: Animals; Carbohydrate Sulfotransferases; Cerebral Cortex; Disease Models, Animal; Epilepsy, Temporal	2015
Target-selectivity of parvalbumin-positive interneurons in layer II of medial entorhinal cortex in normal and epileptic animals. Hippocampus, 2016, Volume: 26, Issue:6 Topics: Animals; Calbindins; Cell Adhesion Molecules, Neuronal; Cholecystokinin; Disease Models, Animal; Ent	2016
Protective Effect of Resveratrol on the Brain in a Rat Model of Epilepsy. Neuroscience bulletin, 2017, Volume: 33, Issue:3 Topics: Animals; Anticonvulsants; CA1 Region, Hippocampal; Disease Models, Animal; Down-Regulation; Epilepsy	2017
Antiepileptic drug resistant rats differ from drug responsive rats in GABA A receptor subunit expression in a model of temporal lobe epilepsy. Neurobiology of disease, 2008, Volume: 31, Issue:2 Topics: Animals; Anticonvulsants; Dentate Gyrus; Disease Models, Animal; Drug Resistance; Electric Stimulati	2008
Glycinergic tonic inhibition of hippocampal neurons with depolarizing GABAergic transmission elicits histopathological signs of temporal lobe epilepsy. Journal of cellular and molecular medicine, 2008, Volume: 12, Issue:6B Topics: Action Potentials; Adult; Animals; Calcium Signaling; Chlorides; Dendrites; Epilepsy, Temporal Lobe;	2008
Impaired function of GABA(B) receptors in tissues from pharmacoresistant epilepsy patients. Epilepsia, 2009, Volume: 50, Issue:7 Topics: Animals; Anticonvulsants; Baclofen; Bicuculline; Cerebral Cortex; Drug Resistance; Epilepsy; Epileps	2009
The epileptic human hippocampal cornu ammonis 2 region generates spontaneous interictal-like activity in vitro. Brain : a journal of neurology, 2009, Volume: 132, Issue:Pt 11 Topics: Action Potentials; Adult; Animals; CA2 Region, Hippocampal; Cell Shape; Chlorides; Electrophysiology	2009
Kindling as a model of temporal lobe epilepsy induces bilateral changes in spontaneous striatal activity. Neurobiology of disease, 2010, Volume: 37, Issue:3 Topics: Action Potentials; Amygdala; Animals; Corpus Striatum; Disease Models, Animal; Epilepsy, Temporal Lo	2010
Pilocarpine-induced status epilepticus causes acute interneuron loss and hyper-excitatory propagation in rat insular cortex. Neuroscience, 2010, Mar-10, Volume: 166, Issue:1 Topics: Animals; Biomarkers; Cell Count; Cerebral Cortex; Convulsants; Disease Models, Animal; Electric Stim	2010
Initial loss but later excess of GABAergic synapses with dentate granule cells in a rat model of temporal lobe epilepsy. The Journal of comparative neurology, 2010, Mar-01, Volume: 518, Issue:5 Topics: Animals; Cell Count; Convulsants; Dendritic Spines; Dentate Gyrus; Disease Models, Animal; Epilepsy,	2010
Midkine, heparin-binding growth factor, blocks kainic acid-induced seizure and neuronal cell death in mouse hippocampus. BMC neuroscience, 2010, Mar-26, Volume: 11 Topics: Animals; Anticonvulsants; Astrocytes; Biomarkers; Cell Death; Cytokines; Disease Models, Animal; Epi	2010
Selective changes in inhibition as determinants for limited hyperexcitability in the insular cortex of epileptic rats. The European journal of neuroscience, 2010, Volume: 31, Issue:11 Topics: Action Potentials; Animals; Disease Models, Animal; Electrophysiology; Epilepsy, Temporal Lobe; gamm	2010
Selective reduction of cholecystokinin-positive basket cell innervation in a model of temporal lobe epilepsy. The Journal of neuroscience : the official journal of the Society for Neuroscience, 2010, Jun-30, Volume: 30, Issue:26 Topics: Animals; CA1 Region, Hippocampal; Cholecystokinin; Disease Models, Animal; Epilepsy, Temporal Lobe;	2010
Receptors with low affinity for neurosteroids and GABA contribute to tonic inhibition of granule cells in epileptic animals. Neurobiology of disease, 2010, Volume: 40, Issue:2 Topics: Action Potentials; Affinity Labels; Animals; Blotting, Western; Dentate Gyrus; Disease Models, Anima	2010
Pancreatitis-associated protein-I and pancreatitis-associated protein-III expression in a rat model of kainic acid-induced seizure. Neuroscience, 2011, Feb-23, Volume: 175 Topics: Aminopeptidases; Animals; Antigens, Neoplasm; Biomarkers, Tumor; Disease Models, Animal; Epilepsy, T	2011
Time-domain features of epileptic spikes as potential bio-markers of the epileptogenesis process. Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference, 2010, Volume: 2010 Topics: Action Potentials; alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid; Animals; Biomarkers; Co	2010
Ultrastructural GABA immunocytochemistry in the mossy fiber terminals of Wistar and genetic absence epileptic rats receiving amygdaloid kindling stimulations. Brain research, 2011, Mar-04, Volume: 1377 Topics: Amygdala; Animals; Dentate Gyrus; Disease Models, Animal; Epilepsy, Absence; Epilepsy, Temporal Lobe	2011
Increased GABAergic inhibition in the midline thalamus affects signaling and seizure spread in the hippocampus-prefrontal cortex pathway. Epilepsia, 2011, Volume: 52, Issue:3 Topics: Animals; Electric Stimulation; Electroencephalography; Epilepsy, Temporal Lobe; Evoked Potentials; G	2011
Glutamate decarboxylase 67 is expressed in hippocampal mossy fibers of temporal lobe epilepsy patients. Hippocampus, 2012, Volume: 22, Issue:3 Topics: Adolescent; Adult; Aged; Animals; Child; Dentate Gyrus; Dynorphins; Epilepsy, Temporal Lobe; Female;	2012
Reduced astrocytic contribution to the turnover of glutamate, glutamine, and GABA characterizes the latent phase in the kainate model of temporal lobe epilepsy. Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism, 2011, Volume: 31, Issue:8 Topics: Amino Acids; Animals; Astrocytes; Carbon Isotopes; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid;	2011
Functional changes in the septal GABAergic system of animals with a model of temporal lobe epilepsy. General physiology and biophysics, 2011, Volume: 30, Issue:3 Topics: Animals; Brain; Disease Models, Animal; Electrophysiology; Epilepsy, Temporal Lobe; gamma-Aminobutyr	2011
Promoter variants determine γ-aminobutyric acid homeostasis-related gene transcription in human epileptic hippocampi. Journal of neuropathology and experimental neurology, 2011, Volume: 70, Issue:12 Topics: Alleles; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Genotype; Hippocampus; Humans; Polymorphi	2011
Differentiation and functional incorporation of embryonic stem cell-derived GABAergic interneurons in the dentate gyrus of mice with temporal lobe epilepsy. The Journal of neuroscience : the official journal of the Society for Neuroscience, 2012, Jan-04, Volume: 32, Issue:1 Topics: Animals; Cell Line; Dentate Gyrus; Disease Models, Animal; Embryonic Stem Cells; Epilepsy, Temporal	2012
GABAergic excitation after febrile seizures induces ectopic granule cells and adult epilepsy. Nature medicine, 2012, Volume: 18, Issue:8 Topics: Animals; Animals, Suckling; Brain Diseases; Bumetanide; Cell Lineage; Cell Movement; Choristoma; Den	2012
In vivo MRS and histochemistry of status epilepticus-induced hippocampal pathology in a juvenile model of temporal lobe epilepsy. NMR in biomedicine, 2013, Volume: 26, Issue:2 Topics: Animals; Biomarkers; Choline; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Glutamine; Hippocamp	2013
Increased expression of TRPV1 in the cortex and hippocampus from patients with mesial temporal lobe epilepsy. Journal of molecular neuroscience : MN, 2013, Volume: 49, Issue:1 Topics: Adolescent; Adult; Astrocytes; Case-Control Studies; Cerebral Cortex; Dendrites; Epilepsy, Temporal	2013
Axon sprouting in a model of temporal lobe epilepsy creates a predominantly excitatory feedback circuit. The Journal of neuroscience : the official journal of the Society for Neuroscience, 2002, Aug-01, Volume: 22, Issue:15 Topics: Animals; Atropine Derivatives; Axons; Dendrites; Disease Models, Animal; Epilepsy, Temporal Lobe; Fe	2002
Alterations of the neocortical GABAergic system in the pilocarpine model of temporal lobe epilepsy: neuronal damage and immunocytochemical changes in chronic epileptic rats. Brain research bulletin, 2002, Aug-15, Volume: 58, Issue:4 Topics: Animals; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Immunohistochemistry; Male; Neocortex; Ne	2002
Neuronal and glial metabolite content of the epileptogenic human hippocampus. Annals of neurology, 2002, Volume: 52, Issue:5 Topics: Adult; Amino Acids; Aspartic Acid; Epilepsy, Temporal Lobe; Female; gamma-Aminobutyric Acid; Glutami	2002
Expression of human epileptic temporal lobe neurotransmitter receptors in Xenopus oocytes: An innovative approach to study epilepsy. Proceedings of the National Academy of Sciences of the United States of America, 2002, Nov-12, Volume: 99, Issue:23 Topics: 6-Cyano-7-nitroquinoxaline-2,3-dione; Adolescent; Adult; alpha-Amino-3-hydroxy-5-methyl-4-isoxazolep	2002
Neuroscience. GABA becomes exciting. Science (New York, N.Y.), 2002, Nov-15, Volume: 298, Issue:5597 Topics: Action Potentials; Animals; Brain; Chlorides; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hipp	2002
On the origin of interictal activity in human temporal lobe epilepsy in vitro. Science (New York, N.Y.), 2002, Nov-15, Volume: 298, Issue:5597 Topics: Action Potentials; Adult; Electroencephalography; Epilepsy, Temporal Lobe; Excitatory Amino Acid Ant	2002
Gabapentin increases the hyperpolarization-activated cation current Ih in rat CA1 pyramidal cells. Epilepsia, 2003, Volume: 44, Issue:2 Topics: Acetates; Amines; Animals; Anticonvulsants; Cations; Cyclic AMP; Cyclohexanecarboxylic Acids; Dose-R	2003
Electrophysiological, neurochemical and regional effects of levetiracetam in the rat pilocarpine model of temporal lobe epilepsy. Seizure, 2003, Volume: 12, Issue:2 Topics: Animals; Anticonvulsants; Aspartic Acid; Clonazepam; Electroencephalography; Epilepsy, Temporal Lobe	2003
Glutamate NMDA receptor subunit R1 and GAD mRNA expression in human temporal lobe epilepsy. Cellular and molecular neurobiology, 2002, Volume: 22, Issue:5-6 Topics: Adult; Epilepsy, Temporal Lobe; Female; gamma-Aminobutyric Acid; Glutamate Decarboxylase; Hippocampu	2002
Dentate granule cell GABA(A) receptors in epileptic hippocampus: enhanced synaptic efficacy and altered pharmacology. The European journal of neuroscience, 2003, Volume: 17, Issue:8 Topics: Animals; Epilepsy, Temporal Lobe; Excitatory Postsynaptic Potentials; GABA Agonists; GABA Antagonist	2003
Long-term pregabalin treatment protects basal cortices and delays the occurrence of spontaneous seizures in the lithium-pilocarpine model in the rat. Epilepsia, 2003, Volume: 44, Issue:7 Topics: Animals; Anticonvulsants; Astrocytes; Brain; Cell Death; Cerebral Cortex; Convulsants; Electroenceph	2003
Downregulation of the alpha5 subunit of the GABA(A) receptor in the pilocarpine model of temporal lobe epilepsy. Hippocampus, 2003, Volume: 13, Issue:5 Topics: Animals; Disease Models, Animal; Down-Regulation; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid;	2003
Evidence for strychnine-sensitive glycine receptors in human amygdala. Naunyn-Schmiedeberg's archives of pharmacology, 2003, Volume: 368, Issue:3 Topics: Acetylcholine; Adult; Amygdala; Animals; Blotting, Western; Chromatography, High Pressure Liquid; Ep	2003
Selective changes in gamma-aminobutyric acid type A receptor subunits in the hippocampus in spontaneously seizing rats with chronic temporal lobe epilepsy. Neuroscience letters, 2003, Sep-25, Volume: 349, Issue:1 Topics: Animals; Chronic Disease; Disease Models, Animal; Epilepsy; Epilepsy, Temporal Lobe; gamma-Aminobuty	2003
Reduced inhibition and increased output of layer II neurons in the medial entorhinal cortex in a model of temporal lobe epilepsy. The Journal of neuroscience : the official journal of the Society for Neuroscience, 2003, Sep-17, Volume: 23, Issue:24 Topics: Animals; Dentate Gyrus; Disease Models, Animal; Entorhinal Cortex; Epilepsy, Temporal Lobe; gamma-Am	2003
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Expression of plasma membrane GABA transporters but not of the vesicular GABA transporter in dentate granule cells after kainic acid seizures. Hippocampus, 2003, Volume: 13, Issue:7 Topics: Animals; Carrier Proteins; Cell Membrane; Dentate Gyrus; Disease Models, Animal; Epilepsy; Epilepsy,	2003
Hippocampal microdialysis during spontaneous intraoperative epileptiform activity. Acta neurochirurgica, 2004, Volume: 146, Issue:2 Topics: Adult; Aspartic Acid; Dominance, Cerebral; Electroencephalography; Epilepsy, Temporal Lobe; Female;	2004
Rapid deletion of mossy cells does not result in a hyperexcitable dentate gyrus: implications for epileptogenesis. The Journal of neuroscience : the official journal of the Society for Neuroscience, 2004, Mar-03, Volume: 24, Issue:9 Topics: Dentate Gyrus; Disease Models, Animal; Electric Stimulation; Epilepsy, Temporal Lobe; Excitatory Pos	2004
Evaluation of GABA system and cell damage in parahippocampus of patients with temporal lobe epilepsy showing antiepileptic effects after subacute electrical stimulation. Epilepsia, 2004, Volume: 45, Issue:5 Topics: Adult; Cell Count; Electric Stimulation Therapy; Epilepsy, Temporal Lobe; Female; gamma-Aminobutyric	2004
Synaptosomal glutamate and GABA transport in patients with temporal lobe epilepsy. Journal of neuroscience research, 2004, Jun-15, Volume: 76, Issue:6 Topics: Amino Acid Transport System X-AG; Animals; Biological Transport; Calcium; Carrier Proteins; Epilepsy	2004
Microdialysis of the lateral and medial temporal lobe during temporal lobe epilepsy surgery. Surgical neurology, 2005, Volume: 63, Issue:1 Topics: Action Potentials; Adult; Aspartic Acid; Electroencephalography; Epilepsy, Temporal Lobe; Extracellu	2005
In vitro 1H NMR spectroscopy shows an increase in N-acetylaspartylglutamate and glutamine content in the hippocampus of amygdaloid-kindled rats. Journal of neurochemistry, 2005, Volume: 92, Issue:6 Topics: Amino Acids; Amygdala; Animals; Creatine; Dipeptides; Disease Models, Animal; Energy Metabolism; Epi	2005
Temporal patterns of fos expression in the dentate gyrus after spontaneous seizures in a mouse model of temporal lobe epilepsy. The Journal of neuroscience : the official journal of the Society for Neuroscience, 2005, Aug-03, Volume: 25, Issue:31 Topics: Animals; Dentate Gyrus; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hi	2005
Rundown of GABA type A receptors is a dysfunction associated with human drug-resistant mesial temporal lobe epilepsy. Proceedings of the National Academy of Sciences of the United States of America, 2005, Oct-18, Volume: 102, Issue:42 Topics: Adolescent; Adult; Aged; Animals; Anticonvulsants; Brain-Derived Neurotrophic Factor; Cell Membrane;	2005
Altered inhibition in lateral amygdala networks in a rat model of temporal lobe epilepsy. Journal of neurophysiology, 2006, Volume: 95, Issue:4 Topics: 6-Cyano-7-nitroquinoxaline-2,3-dione; Action Potentials; Amygdala; Animals; Disease Models, Animal;	2006
Correlation of transcriptome profile with electrical activity in temporal lobe epilepsy. Neurobiology of disease, 2006, Volume: 22, Issue:2 Topics: Action Potentials; Adult; Down-Regulation; Electroencephalography; Epilepsy, Temporal Lobe; Female;	2006
Distribution of GABAergic neurons in the striatum of amygdala-kindled rats: an immunohistochemical and in situ hybridization study. Brain research, 2006, Apr-14, Volume: 1083, Issue:1 Topics: Amygdala; Animals; Corpus Striatum; Disease Models, Animal; Epilepsy, Temporal Lobe; Female; gamma-A	2006
Hyperexcitability, interneurons, and loss of GABAergic synapses in entorhinal cortex in a model of temporal lobe epilepsy. The Journal of neuroscience : the official journal of the Society for Neuroscience, 2006, Apr-26, Volume: 26, Issue:17 Topics: Action Potentials; Animals; Cells, Cultured; Disease Models, Animal; Entorhinal Cortex; Epilepsy, Te	2006
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Subiculum network excitability is increased in a rodent model of temporal lobe epilepsy. Hippocampus, 2006, Volume: 16, Issue:10 Topics: Action Potentials; Animals; Biomarkers; Convulsants; Disease Models, Animal; Electric Stimulation; E	2006
The selective effects of somatostatin- and GABA-mediated transmissions on voltage gated Ca2+ channel immunoreactivity in the gerbil hippocampus. Brain research, 2006, Oct-18, Volume: 1115, Issue:1 Topics: Animals; Calcium Channels; Calcium Channels, L-Type; Calcium Channels, N-Type; Calcium Channels, P-T	2006
Downregulation of tonic GABA currents following epileptogenic stimulation of rat hippocampal cultures. The Journal of physiology, 2006, Dec-01, Volume: 577, Issue:Pt 2 Topics: Animals; Animals, Newborn; Benzothiadiazines; Cells, Cultured; Epilepsy, Temporal Lobe; Excitatory A	2006
Dentate development in organotypic hippocampal slice cultures from p35 knockout mice. Developmental neuroscience, 2007, Volume: 29, Issue:1-2 Topics: Animals; Astrocytes; Axons; Cell Differentiation; Cell Movement; Dendrites; Dentate Gyrus; Epilepsy,	2007
omega-Conotoxin MVIIA inhibits amygdaloid kindled seizures in Sprague-Dawley rats. Neuroscience letters, 2007, Feb-14, Volume: 413, Issue:2 Topics: Amygdala; Animals; Anticonvulsants; Brain Stem; Calcium Channel Blockers; Calcium Channels, N-Type;	2007
Distinct types of ionic modulation of GABA actions in pyramidal cells and interneurons during electrical induction of hippocampal seizure-like network activity. The European journal of neuroscience, 2007, Volume: 25, Issue:9 Topics: Action Potentials; Animals; Cell Membrane; Chloride Channels; Chlorides; Epilepsy; Epilepsy, Tempora	2007
The antiepileptic drug levetiracetam stabilizes the human epileptic GABAA receptors upon repetitive activation. Epilepsia, 2007, Volume: 48, Issue:10 Topics: Adult; Aged; Animals; Anticonvulsants; Brain Tissue Transplantation; Cell Membrane; Child; Epilepsy,	2007
Perturbed chloride homeostasis and GABAergic signaling in human temporal lobe epilepsy. The Journal of neuroscience : the official journal of the Society for Neuroscience, 2007, Sep-12, Volume: 27, Issue:37 Topics: Adult; Animals; Chlorides; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Homeostasis; Humans; In	2007
Diminished neurosteroid sensitivity of synaptic inhibition and altered location of the alpha4 subunit of GABA(A) receptors in an animal model of epilepsy. The Journal of neuroscience : the official journal of the Society for Neuroscience, 2007, Nov-14, Volume: 27, Issue:46 Topics: Animals; Benzodiazepines; Disease Models, Animal; Drug Resistance; Epilepsy, Temporal Lobe; gamma-Am	2007
Epileptiform synchronization in the rat insular and perirhinal cortices in vitro. The European journal of neuroscience, 2007, Volume: 26, Issue:12 Topics: 4-Aminopyridine; Action Potentials; Animals; Cerebral Cortex; Cortical Synchronization; Epilepsy, Te	2007
GABA(A)-current rundown of temporal lobe epilepsy is associated with repetitive activation of GABA(A) "phasic" receptors. Proceedings of the National Academy of Sciences of the United States of America, 2007, Dec-26, Volume: 104, Issue:52 Topics: Animals; Electrophysiology; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Humans; Male; Neurons;	2007
Downregulation of the CB1 cannabinoid receptor and related molecular elements of the endocannabinoid system in epileptic human hippocampus. The Journal of neuroscience : the official journal of the Society for Neuroscience, 2008, Mar-19, Volume: 28, Issue:12 Topics: Adult; Age Factors; Aged; Analysis of Variance; Cannabinoid Receptor Modulators; Carrier Proteins; C	2008
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Loss of GABAergic neurons in the subiculum and its functional implications in temporal lobe epilepsy. Brain : a journal of neurology, 2008, Volume: 131, Issue:Pt 6 Topics: Animals; Biomarkers; Dendrites; Electroencephalography; Epilepsy, Temporal Lobe; gamma-Aminobutyric	2008
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Changes in hippocampal circuitry after pilocarpine-induced seizures as revealed by opioid receptor distribution and activation. The Journal of neuroscience : the official journal of the Society for Neuroscience, 1997, Jan-01, Volume: 17, Issue:1 Topics: Animals; Dentate Gyrus; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Male; Neural Pathways; Pil	1997
Differential epilepsy-associated alterations in postsynaptic GABA(A) receptor function in dentate granule and CA1 neurons. Journal of neurophysiology, 1997, Volume: 77, Issue:4 Topics: Animals; Clonazepam; Epilepsy, Temporal Lobe; Evoked Potentials; gamma-Aminobutyric Acid; Hippocampu	1997
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Antiepileptic effects of tiagabine, a selective GABA uptake inhibitor, in the rat kindling model of temporal lobe epilepsy. Epilepsia, 1997, Volume: 38, Issue:9 Topics: Amygdala; Animals; Anticonvulsants; Behavior, Animal; Carbamazepine; Dose-Response Relationship, Dru	1997
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[Drug-resistant epilepsy]. Revista de neurologia, 1998, Volume: 27, Issue:159 Topics: Adult; Anticonvulsants; Brain Neoplasms; Calcinosis; Carbamazepine; Diagnosis, Differential; Drug Re	1998
Hippocampal GABA and glutamate transporter immunoreactivity in patients with temporal lobe epilepsy. Neurology, 1999, Volume: 52, Issue:3 Topics: Adolescent; Adult; Aged; Amino Acid Transport System X-AG; ATP-Binding Cassette Transporters; Child;	1999
GABAergic neurons and GABA(A)-receptors in temporal lobe epilepsy. Neurochemistry international, 1999, Volume: 34, Issue:5 Topics: Animals; Dentate Gyrus; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hippocampus; Immunoenzyme	1999
Characterization of neocortical and hippocampal synaptosomes from temporal lobe epilepsy patients. Brain research, 1999, Aug-07, Volume: 837, Issue:1-2 Topics: Adult; Animals; Brain Neoplasms; Calcium; Epilepsy, Temporal Lobe; Female; gamma-Aminobutyric Acid;	1999
Up-regulation of GAD65 and GAD67 in remaining hippocampal GABA neurons in a model of temporal lobe epilepsy. The Journal of comparative neurology, 1999, Sep-27, Volume: 412, Issue:3 Topics: Animals; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Gene Expression R	1999
Deficit of quantal release of GABA in experimental models of temporal lobe epilepsy. Nature neuroscience, 1999, Volume: 2, Issue:6 Topics: Animals; Electric Conductivity; Epilepsy, Temporal Lobe; Excitatory Amino Acid Agonists; gamma-Amino	1999
Do GABAergic circuitries play a critical role in the regulation of seizure-induced neuronal damage and synaptic reorganization in the rat hippocampus? Electroencephalography and clinical neurophysiology. Supplement, 1999, Volume: 50 Topics: Afferent Pathways; Animals; Brain Chemistry; Cell Survival; Denervation; Epilepsy, Temporal Lobe; Ex	1999
Improved sexual function in three men taking lamotrigine for epilepsy. Southern medical journal, 2000, Volume: 93, Issue:3 Topics: Acetates; Amines; Anticonvulsants; Carbamazepine; Cyclohexanecarboxylic Acids; Epilepsies, Partial;	2000
Glutamate and gamma-aminobutyric acid content and release of synaptosomes from temporal lobe epilepsy patients. Journal of neuroscience research, 2000, Jun-01, Volume: 60, Issue:5 Topics: Animals; Calcium; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Glutamic Acid; Hippocampus; Huma	2000
Viral infection of developing GABAergic neurons in a model of hippocampal disinhibition. Neuroreport, 2000, Aug-03, Volume: 11, Issue:11 Topics: Animals; Central Nervous System Viral Diseases; Dentate Gyrus; Disease Models, Animal; Epilepsy, Tem	2000
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Alterations of hippocampal GAbaergic system contribute to development of spontaneous recurrent seizures in the rat lithium-pilocarpine model of temporal lobe epilepsy. Hippocampus, 2001, Volume: 11, Issue:4 Topics: Animals; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hippocampus; Interneurons; Lithium; Neuro	2001
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Spontaneous recurrent seizures and neuropathology in the chronic phase of the pilocarpine and picrotoxin model epilepsy. Neurological research, 2002, Volume: 24, Issue:2 Topics: Acetylcholine; Action Potentials; Aggression; Animals; Behavior, Animal; Brain; Chronic Disease; Dis	2002
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Article

Year

Pronounced antiseizure activity of the subtype-selective GABA

CNS neuroscience & therapeutics, 2022, Volume: 28, Issue:11

Topics: Animals; Anticonvulsants; Diazepam; Disease Models, Animal; Drug Resistant Epilepsy; Electroencephal

2022

Pronounced antiseizure activity of the subtype-selective GABA

CNS neuroscience & therapeutics, 2022, Volume: 28, Issue:11

Topics: Animals; Anticonvulsants; Diazepam; Disease Models, Animal; Drug Resistant Epilepsy; Electroencephal

2022

Pronounced antiseizure activity of the subtype-selective GABA

CNS neuroscience & therapeutics, 2022, Volume: 28, Issue:11

Topics: Animals; Anticonvulsants; Diazepam; Disease Models, Animal; Drug Resistant Epilepsy; Electroencephal

2022

Pronounced antiseizure activity of the subtype-selective GABA

CNS neuroscience & therapeutics, 2022, Volume: 28, Issue:11

Topics: Animals; Anticonvulsants; Diazepam; Disease Models, Animal; Drug Resistant Epilepsy; Electroencephal

2022

LINCs Are Vulnerable to Epileptic Insult and Fail to Provide Seizure Control via On-Demand Activation.

eNeuro, 2023, Volume: 10, Issue:2

Topics: Animals; Disease Models, Animal; Epilepsy; Epilepsy, Temporal Lobe; Female; gamma-Aminobutyric Acid;

2023

E2730, an uncompetitive γ-aminobutyric acid transporter-1 inhibitor, suppresses epileptic seizures in a rat model of chronic mesial temporal lobe epilepsy.

Epilepsia, 2023, Volume: 64, Issue:10

Topics: Adult; Animals; Disease Models, Animal; Electroencephalography; Epilepsy; Epilepsy, Temporal Lobe; g

2023

Modulation of GABAergic dysfunction due to SCN1A mutation linked to Hippocampal Sclerosis.

Annals of clinical and translational neurology, 2020, Volume: 7, Issue:9

Topics: Adult; Anterior Temporal Lobectomy; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hippocampus; H

2020

CB1-Antibody Modified Liposomes for Targeted Modulation of Epileptiform Activities Synchronously Detected by Microelectrode Arrays.

ACS applied materials & interfaces, 2020, Sep-16, Volume: 12, Issue:37

Topics: Animals; Antibodies; Coordination Complexes; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-

2020

Seven-tesla quantitative magnetic resonance spectroscopy of glutamate, γ-aminobutyric acid, and glutathione in the posterior cingulate cortex/precuneus in patients with epilepsy.

Epilepsia, 2020, Volume: 61, Issue:12

Topics: Adult; Aged; Case-Control Studies; Epilepsy; Epilepsy, Generalized; Epilepsy, Temporal Lobe; gamma-A

2020

In vivo γ-aminobutyric acid increase as a biomarker of the epileptogenic zone: An unbiased metabolomics approach.

Epilepsia, 2021, Volume: 62, Issue:1

Topics: Animals; Anticonvulsants; Carbamazepine; Disease Models, Animal; Electrophoresis, Capillary; Epileps

2021

Gamma-aminobutyric acid (GABA) changes in the hippocampus and anterior cingulate cortex in patients with temporal lobe epilepsy.

Epilepsy & behavior : E&B, 2021, Volume: 115

Topics: Aspartic Acid; Choline; Creatine; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Gyrus Cinguli; H

2021

Dysregulation of REV-ERBα impairs GABAergic function and promotes epileptic seizures in preclinical models.

Nature communications, 2021, 02-22, Volume: 12, Issue:1

Topics: Acute Disease; Animals; Basic-Leucine Zipper Transcription Factors; Chronic Disease; Disease Models,

2021

A critical period of neuronal activity results in aberrant neurogenesis rewiring hippocampal circuitry in a mouse model of epilepsy.

Nature communications, 2021, 03-03, Volume: 12, Issue:1

Topics: Animals; Calcium; Clozapine; Disease Models, Animal; Electroencephalography; Epilepsy; Epilepsy, Tem

2021

Profiling Analysis of Circular RNA and mRNA in Human Temporal Lobe Epilepsy with Hippocampal Sclerosis ILAE Type 1.

Cellular and molecular neurobiology, 2022, Volume: 42, Issue:8

Topics: Centromere Protein A; Chloride Channels; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Gliosis;

2022

Depolarized GABAergic Signaling in Subicular Microcircuits Mediates Generalized Seizure in Temporal Lobe Epilepsy.

Neuron, 2017, Jul-05, Volume: 95, Issue:1

Topics: Adolescent; Adult; Animals; Case-Control Studies; Disease Models, Animal; Electroencephalography; Ep

2017

Comparative effectiveness of antiepileptic drugs in patients with mesial temporal lobe epilepsy with hippocampal sclerosis.

Epilepsia, 2017, Volume: 58, Issue:10

Topics: Adolescent; Adult; Aged; Amines; Anticonvulsants; Ataxia; Benzodiazepines; Carbamazepine; Clobazam;

2017

Gamma oscillatory activity in vitro: a model system to assess pathophysiological mechanisms of comorbidity between autism and epilepsy.

Translational psychiatry, 2018, 01-10, Volume: 8, Issue:1

Topics: Animals; Autism Spectrum Disorder; Comorbidity; Electric Stimulation; Electroencephalography; Epilep

2018

Influence of hippocampal low-frequency stimulation on GABA

Brain research, 2018, 11-01, Volume: 1698

Topics: Amygdala; Animals; Brain-Derived Neurotrophic Factor; Cyclic AMP Response Element Modulator; Disease

2018

Transplanting GABAergic Neurons Differentiated from Neural Stem Cells into Hippocampus Inhibits Seizures and Epileptiform Discharges in Pilocarpine-Induced Temporal Lobe Epilepsy Model.

World neurosurgery, 2019, Volume: 128

Topics: Animals; Animals, Newborn; Disease Models, Animal; Drug Resistant Epilepsy; Electroencephalography;

2019

Targeted hippocampal GABA neuron ablation by Stable Substance P-saporin causes hippocampal sclerosis and chronic epilepsy in rats.

Epilepsia, 2019, Volume: 60, Issue:5

Topics: Animals; Chronic Disease; Dentate Gyrus; Epilepsy, Temporal Lobe; GABAergic Neurons; gamma-Aminobuty

2019

PET imaging of metabolic changes after neural stem cells and GABA progenitor cells transplantation in a rat model of temporal lobe epilepsy.

European journal of nuclear medicine and molecular imaging, 2019, Volume: 46, Issue:11

Topics: Animals; Cell Line; Electroencephalography; Electrophysiology; Epilepsy, Temporal Lobe; Fluorodeoxyg

2019

Loss of cholecystokinin-containing terminals in temporal lobe epilepsy.

Neurobiology of disease, 2014, Volume: 62

Topics: Animals; Cholecystokinin; Dentate Gyrus; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Inhibitor

2014

Hilar somatostatin interneurons contribute to synchronized GABA activity in an in vitro epilepsy model.

PloS one, 2014, Volume: 9, Issue:1

Topics: 4-Aminopyridine; Action Potentials; Animals; Calcium; Epilepsy, Temporal Lobe; gamma-Aminobutyric Ac

2014

Impairment of GABA release in the hippocampus at the time of the first spontaneous seizure in the pilocarpine model of temporal lobe epilepsy.

Experimental neurology, 2014, Volume: 257

Topics: Animals; Calcium; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hippocam

2014

Human fetal brain-derived neural stem/progenitor cells grafted into the adult epileptic brain restrain seizures in rat models of temporal lobe epilepsy.

PloS one, 2014, Volume: 9, Issue:8

Topics: Analysis of Variance; Animals; Blotting, Western; Brain; Cell Differentiation; Chromatography, High

2014

Effect of spontaneous seizures on GABAA receptor α4 subunit expression in an animal model of temporal lobe epilepsy.

Epilepsia, 2014, Volume: 55, Issue:11

Topics: Animals; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Pilocarpine; Rats

2014

BDNF modifies hippocampal KCC2 and NKCC1 expression in a temporal lobe epilepsy model.

Acta neurobiologiae experimentalis, 2014, Volume: 74, Issue:3

Topics: Animals; Brain-Derived Neurotrophic Factor; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-A

2014

The relationship between glucose metabolism, resting-state fMRI BOLD signal, and GABAA-binding potential: a preliminary study in healthy subjects and those with temporal lobe epilepsy.

Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism, 2015, Mar-31, Volume: 35, Issue:4

Topics: Adult; Brain; Brain Mapping; Epilepsy, Temporal Lobe; Female; gamma-Aminobutyric Acid; Glucose; Glut

2015

Involvement of chondroitin 6-sulfation in temporal lobe epilepsy.

Experimental neurology, 2015, Volume: 274, Issue:Pt B

Topics: Animals; Carbohydrate Sulfotransferases; Cerebral Cortex; Disease Models, Animal; Epilepsy, Temporal

2015

Target-selectivity of parvalbumin-positive interneurons in layer II of medial entorhinal cortex in normal and epileptic animals.

Hippocampus, 2016, Volume: 26, Issue:6

Topics: Animals; Calbindins; Cell Adhesion Molecules, Neuronal; Cholecystokinin; Disease Models, Animal; Ent

2016

Protective Effect of Resveratrol on the Brain in a Rat Model of Epilepsy.

Neuroscience bulletin, 2017, Volume: 33, Issue:3

Topics: Animals; Anticonvulsants; CA1 Region, Hippocampal; Disease Models, Animal; Down-Regulation; Epilepsy

2017

Antiepileptic drug resistant rats differ from drug responsive rats in GABA A receptor subunit expression in a model of temporal lobe epilepsy.

Neurobiology of disease, 2008, Volume: 31, Issue:2

Topics: Animals; Anticonvulsants; Dentate Gyrus; Disease Models, Animal; Drug Resistance; Electric Stimulati

2008

Glycinergic tonic inhibition of hippocampal neurons with depolarizing GABAergic transmission elicits histopathological signs of temporal lobe epilepsy.

Journal of cellular and molecular medicine, 2008, Volume: 12, Issue:6B

Topics: Action Potentials; Adult; Animals; Calcium Signaling; Chlorides; Dendrites; Epilepsy, Temporal Lobe;

2008

Impaired function of GABA(B) receptors in tissues from pharmacoresistant epilepsy patients.

Epilepsia, 2009, Volume: 50, Issue:7

Topics: Animals; Anticonvulsants; Baclofen; Bicuculline; Cerebral Cortex; Drug Resistance; Epilepsy; Epileps

2009

The epileptic human hippocampal cornu ammonis 2 region generates spontaneous interictal-like activity in vitro.

Brain : a journal of neurology, 2009, Volume: 132, Issue:Pt 11

Topics: Action Potentials; Adult; Animals; CA2 Region, Hippocampal; Cell Shape; Chlorides; Electrophysiology

2009

Kindling as a model of temporal lobe epilepsy induces bilateral changes in spontaneous striatal activity.

Neurobiology of disease, 2010, Volume: 37, Issue:3

Topics: Action Potentials; Amygdala; Animals; Corpus Striatum; Disease Models, Animal; Epilepsy, Temporal Lo

2010

Pilocarpine-induced status epilepticus causes acute interneuron loss and hyper-excitatory propagation in rat insular cortex.

Neuroscience, 2010, Mar-10, Volume: 166, Issue:1

Topics: Animals; Biomarkers; Cell Count; Cerebral Cortex; Convulsants; Disease Models, Animal; Electric Stim

2010

Initial loss but later excess of GABAergic synapses with dentate granule cells in a rat model of temporal lobe epilepsy.

The Journal of comparative neurology, 2010, Mar-01, Volume: 518, Issue:5

Topics: Animals; Cell Count; Convulsants; Dendritic Spines; Dentate Gyrus; Disease Models, Animal; Epilepsy,

2010

Midkine, heparin-binding growth factor, blocks kainic acid-induced seizure and neuronal cell death in mouse hippocampus.

BMC neuroscience, 2010, Mar-26, Volume: 11

Topics: Animals; Anticonvulsants; Astrocytes; Biomarkers; Cell Death; Cytokines; Disease Models, Animal; Epi

2010

Selective changes in inhibition as determinants for limited hyperexcitability in the insular cortex of epileptic rats.

The European journal of neuroscience, 2010, Volume: 31, Issue:11

Topics: Action Potentials; Animals; Disease Models, Animal; Electrophysiology; Epilepsy, Temporal Lobe; gamm

2010

Selective reduction of cholecystokinin-positive basket cell innervation in a model of temporal lobe epilepsy.

The Journal of neuroscience : the official journal of the Society for Neuroscience, 2010, Jun-30, Volume: 30, Issue:26

Topics: Animals; CA1 Region, Hippocampal; Cholecystokinin; Disease Models, Animal; Epilepsy, Temporal Lobe;

2010

Receptors with low affinity for neurosteroids and GABA contribute to tonic inhibition of granule cells in epileptic animals.

Neurobiology of disease, 2010, Volume: 40, Issue:2

Topics: Action Potentials; Affinity Labels; Animals; Blotting, Western; Dentate Gyrus; Disease Models, Anima

2010

Pancreatitis-associated protein-I and pancreatitis-associated protein-III expression in a rat model of kainic acid-induced seizure.

Neuroscience, 2011, Feb-23, Volume: 175

Topics: Aminopeptidases; Animals; Antigens, Neoplasm; Biomarkers, Tumor; Disease Models, Animal; Epilepsy, T

2011

Time-domain features of epileptic spikes as potential bio-markers of the epileptogenesis process.

Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference, 2010, Volume: 2010

Topics: Action Potentials; alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid; Animals; Biomarkers; Co

2010

Ultrastructural GABA immunocytochemistry in the mossy fiber terminals of Wistar and genetic absence epileptic rats receiving amygdaloid kindling stimulations.

Brain research, 2011, Mar-04, Volume: 1377

Topics: Amygdala; Animals; Dentate Gyrus; Disease Models, Animal; Epilepsy, Absence; Epilepsy, Temporal Lobe

2011

Increased GABAergic inhibition in the midline thalamus affects signaling and seizure spread in the hippocampus-prefrontal cortex pathway.

Epilepsia, 2011, Volume: 52, Issue:3

Topics: Animals; Electric Stimulation; Electroencephalography; Epilepsy, Temporal Lobe; Evoked Potentials; G

2011

Glutamate decarboxylase 67 is expressed in hippocampal mossy fibers of temporal lobe epilepsy patients.

Hippocampus, 2012, Volume: 22, Issue:3

Topics: Adolescent; Adult; Aged; Animals; Child; Dentate Gyrus; Dynorphins; Epilepsy, Temporal Lobe; Female;

2012

Reduced astrocytic contribution to the turnover of glutamate, glutamine, and GABA characterizes the latent phase in the kainate model of temporal lobe epilepsy.

Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism, 2011, Volume: 31, Issue:8

Topics: Amino Acids; Animals; Astrocytes; Carbon Isotopes; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid;

2011

Functional changes in the septal GABAergic system of animals with a model of temporal lobe epilepsy.

General physiology and biophysics, 2011, Volume: 30, Issue:3

Topics: Animals; Brain; Disease Models, Animal; Electrophysiology; Epilepsy, Temporal Lobe; gamma-Aminobutyr

2011

Promoter variants determine γ-aminobutyric acid homeostasis-related gene transcription in human epileptic hippocampi.

Journal of neuropathology and experimental neurology, 2011, Volume: 70, Issue:12

Topics: Alleles; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Genotype; Hippocampus; Humans; Polymorphi

2011

Differentiation and functional incorporation of embryonic stem cell-derived GABAergic interneurons in the dentate gyrus of mice with temporal lobe epilepsy.

The Journal of neuroscience : the official journal of the Society for Neuroscience, 2012, Jan-04, Volume: 32, Issue:1

Topics: Animals; Cell Line; Dentate Gyrus; Disease Models, Animal; Embryonic Stem Cells; Epilepsy, Temporal

2012

GABAergic excitation after febrile seizures induces ectopic granule cells and adult epilepsy.

Nature medicine, 2012, Volume: 18, Issue:8

Topics: Animals; Animals, Suckling; Brain Diseases; Bumetanide; Cell Lineage; Cell Movement; Choristoma; Den

2012

In vivo MRS and histochemistry of status epilepticus-induced hippocampal pathology in a juvenile model of temporal lobe epilepsy.

NMR in biomedicine, 2013, Volume: 26, Issue:2

Topics: Animals; Biomarkers; Choline; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Glutamine; Hippocamp

2013

Increased expression of TRPV1 in the cortex and hippocampus from patients with mesial temporal lobe epilepsy.

Journal of molecular neuroscience : MN, 2013, Volume: 49, Issue:1

Topics: Adolescent; Adult; Astrocytes; Case-Control Studies; Cerebral Cortex; Dendrites; Epilepsy, Temporal

2013

Axon sprouting in a model of temporal lobe epilepsy creates a predominantly excitatory feedback circuit.

The Journal of neuroscience : the official journal of the Society for Neuroscience, 2002, Aug-01, Volume: 22, Issue:15

Topics: Animals; Atropine Derivatives; Axons; Dendrites; Disease Models, Animal; Epilepsy, Temporal Lobe; Fe

2002

Alterations of the neocortical GABAergic system in the pilocarpine model of temporal lobe epilepsy: neuronal damage and immunocytochemical changes in chronic epileptic rats.

Brain research bulletin, 2002, Aug-15, Volume: 58, Issue:4

Topics: Animals; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Immunohistochemistry; Male; Neocortex; Ne

2002

Neuronal and glial metabolite content of the epileptogenic human hippocampus.

Annals of neurology, 2002, Volume: 52, Issue:5

Topics: Adult; Amino Acids; Aspartic Acid; Epilepsy, Temporal Lobe; Female; gamma-Aminobutyric Acid; Glutami

2002

Expression of human epileptic temporal lobe neurotransmitter receptors in Xenopus oocytes: An innovative approach to study epilepsy.

Proceedings of the National Academy of Sciences of the United States of America, 2002, Nov-12, Volume: 99, Issue:23

Topics: 6-Cyano-7-nitroquinoxaline-2,3-dione; Adolescent; Adult; alpha-Amino-3-hydroxy-5-methyl-4-isoxazolep

2002

Neuroscience. GABA becomes exciting.

Science (New York, N.Y.), 2002, Nov-15, Volume: 298, Issue:5597

Topics: Action Potentials; Animals; Brain; Chlorides; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hipp

2002

On the origin of interictal activity in human temporal lobe epilepsy in vitro.

Science (New York, N.Y.), 2002, Nov-15, Volume: 298, Issue:5597

Topics: Action Potentials; Adult; Electroencephalography; Epilepsy, Temporal Lobe; Excitatory Amino Acid Ant

2002

Gabapentin increases the hyperpolarization-activated cation current Ih in rat CA1 pyramidal cells.

Epilepsia, 2003, Volume: 44, Issue:2

Topics: Acetates; Amines; Animals; Anticonvulsants; Cations; Cyclic AMP; Cyclohexanecarboxylic Acids; Dose-R

2003

Electrophysiological, neurochemical and regional effects of levetiracetam in the rat pilocarpine model of temporal lobe epilepsy.

Seizure, 2003, Volume: 12, Issue:2

Topics: Animals; Anticonvulsants; Aspartic Acid; Clonazepam; Electroencephalography; Epilepsy, Temporal Lobe

2003

Glutamate NMDA receptor subunit R1 and GAD mRNA expression in human temporal lobe epilepsy.

Cellular and molecular neurobiology, 2002, Volume: 22, Issue:5-6

Topics: Adult; Epilepsy, Temporal Lobe; Female; gamma-Aminobutyric Acid; Glutamate Decarboxylase; Hippocampu

2002

Dentate granule cell GABA(A) receptors in epileptic hippocampus: enhanced synaptic efficacy and altered pharmacology.

The European journal of neuroscience, 2003, Volume: 17, Issue:8

Topics: Animals; Epilepsy, Temporal Lobe; Excitatory Postsynaptic Potentials; GABA Agonists; GABA Antagonist

2003

Long-term pregabalin treatment protects basal cortices and delays the occurrence of spontaneous seizures in the lithium-pilocarpine model in the rat.

Epilepsia, 2003, Volume: 44, Issue:7

Topics: Animals; Anticonvulsants; Astrocytes; Brain; Cell Death; Cerebral Cortex; Convulsants; Electroenceph

2003

Downregulation of the alpha5 subunit of the GABA(A) receptor in the pilocarpine model of temporal lobe epilepsy.

Hippocampus, 2003, Volume: 13, Issue:5

Topics: Animals; Disease Models, Animal; Down-Regulation; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid;

2003

Evidence for strychnine-sensitive glycine receptors in human amygdala.

Naunyn-Schmiedeberg's archives of pharmacology, 2003, Volume: 368, Issue:3

Topics: Acetylcholine; Adult; Amygdala; Animals; Blotting, Western; Chromatography, High Pressure Liquid; Ep

2003

Selective changes in gamma-aminobutyric acid type A receptor subunits in the hippocampus in spontaneously seizing rats with chronic temporal lobe epilepsy.

Neuroscience letters, 2003, Sep-25, Volume: 349, Issue:1

Topics: Animals; Chronic Disease; Disease Models, Animal; Epilepsy; Epilepsy, Temporal Lobe; gamma-Aminobuty

2003

Reduced inhibition and increased output of layer II neurons in the medial entorhinal cortex in a model of temporal lobe epilepsy.

The Journal of neuroscience : the official journal of the Society for Neuroscience, 2003, Sep-17, Volume: 23, Issue:24

Topics: Animals; Dentate Gyrus; Disease Models, Animal; Entorhinal Cortex; Epilepsy, Temporal Lobe; gamma-Am

2003

PSYCHOTIC BEHAVIOR WITH EVOKED SEPTAL DYSRHYTHMIA: EFFECTS OF INTRACEREBRAL ACETYLCHOLINE AND GAMMA AMINOBUTYRIC ACID.

The American journal of psychiatry, 1965, Volume: 121

Topics: Acetylcholine; Aminobutyrates; Electroencephalography; Epilepsy; Epilepsy, Temporal Lobe; gamma-Amin

1965

Expression of plasma membrane GABA transporters but not of the vesicular GABA transporter in dentate granule cells after kainic acid seizures.

Hippocampus, 2003, Volume: 13, Issue:7

Topics: Animals; Carrier Proteins; Cell Membrane; Dentate Gyrus; Disease Models, Animal; Epilepsy; Epilepsy,

2003

Hippocampal microdialysis during spontaneous intraoperative epileptiform activity.

Acta neurochirurgica, 2004, Volume: 146, Issue:2

Topics: Adult; Aspartic Acid; Dominance, Cerebral; Electroencephalography; Epilepsy, Temporal Lobe; Female;

2004

Rapid deletion of mossy cells does not result in a hyperexcitable dentate gyrus: implications for epileptogenesis.

The Journal of neuroscience : the official journal of the Society for Neuroscience, 2004, Mar-03, Volume: 24, Issue:9

Topics: Dentate Gyrus; Disease Models, Animal; Electric Stimulation; Epilepsy, Temporal Lobe; Excitatory Pos

2004

Evaluation of GABA system and cell damage in parahippocampus of patients with temporal lobe epilepsy showing antiepileptic effects after subacute electrical stimulation.

Epilepsia, 2004, Volume: 45, Issue:5

Topics: Adult; Cell Count; Electric Stimulation Therapy; Epilepsy, Temporal Lobe; Female; gamma-Aminobutyric

2004

Synaptosomal glutamate and GABA transport in patients with temporal lobe epilepsy.

Journal of neuroscience research, 2004, Jun-15, Volume: 76, Issue:6

Topics: Amino Acid Transport System X-AG; Animals; Biological Transport; Calcium; Carrier Proteins; Epilepsy

2004

Microdialysis of the lateral and medial temporal lobe during temporal lobe epilepsy surgery.

Surgical neurology, 2005, Volume: 63, Issue:1

Topics: Action Potentials; Adult; Aspartic Acid; Electroencephalography; Epilepsy, Temporal Lobe; Extracellu

2005

In vitro 1H NMR spectroscopy shows an increase in N-acetylaspartylglutamate and glutamine content in the hippocampus of amygdaloid-kindled rats.

Journal of neurochemistry, 2005, Volume: 92, Issue:6

Topics: Amino Acids; Amygdala; Animals; Creatine; Dipeptides; Disease Models, Animal; Energy Metabolism; Epi

2005

Temporal patterns of fos expression in the dentate gyrus after spontaneous seizures in a mouse model of temporal lobe epilepsy.

The Journal of neuroscience : the official journal of the Society for Neuroscience, 2005, Aug-03, Volume: 25, Issue:31

Topics: Animals; Dentate Gyrus; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hi

2005

Rundown of GABA type A receptors is a dysfunction associated with human drug-resistant mesial temporal lobe epilepsy.

Proceedings of the National Academy of Sciences of the United States of America, 2005, Oct-18, Volume: 102, Issue:42

Topics: Adolescent; Adult; Aged; Animals; Anticonvulsants; Brain-Derived Neurotrophic Factor; Cell Membrane;

2005

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

Journal of neurophysiology, 2006, Volume: 95, Issue:4

Topics: 6-Cyano-7-nitroquinoxaline-2,3-dione; Action Potentials; Amygdala; Animals; Disease Models, Animal;

2006

Correlation of transcriptome profile with electrical activity in temporal lobe epilepsy.

Neurobiology of disease, 2006, Volume: 22, Issue:2

Topics: Action Potentials; Adult; Down-Regulation; Electroencephalography; Epilepsy, Temporal Lobe; Female;

2006

Distribution of GABAergic neurons in the striatum of amygdala-kindled rats: an immunohistochemical and in situ hybridization study.

Brain research, 2006, Apr-14, Volume: 1083, Issue:1

Topics: Amygdala; Animals; Corpus Striatum; Disease Models, Animal; Epilepsy, Temporal Lobe; Female; gamma-A

2006

Hyperexcitability, interneurons, and loss of GABAergic synapses in entorhinal cortex in a model of temporal lobe epilepsy.

The Journal of neuroscience : the official journal of the Society for Neuroscience, 2006, Apr-26, Volume: 26, Issue:17

Topics: Action Potentials; Animals; Cells, Cultured; Disease Models, Animal; Entorhinal Cortex; Epilepsy, Te

2006

Anomalous levels of Cl- transporters in the hippocampal subiculum from temporal lobe epilepsy patients make GABA excitatory.

Proceedings of the National Academy of Sciences of the United States of America, 2006, May-30, Volume: 103, Issue:22

Topics: Animals; Bumetanide; Epilepsy, Temporal Lobe; Excitatory Postsynaptic Potentials; gamma-Aminobutyric

2006

Subiculum network excitability is increased in a rodent model of temporal lobe epilepsy.

Hippocampus, 2006, Volume: 16, Issue:10

Topics: Action Potentials; Animals; Biomarkers; Convulsants; Disease Models, Animal; Electric Stimulation; E

2006

The selective effects of somatostatin- and GABA-mediated transmissions on voltage gated Ca2+ channel immunoreactivity in the gerbil hippocampus.

Brain research, 2006, Oct-18, Volume: 1115, Issue:1

Topics: Animals; Calcium Channels; Calcium Channels, L-Type; Calcium Channels, N-Type; Calcium Channels, P-T

2006

Downregulation of tonic GABA currents following epileptogenic stimulation of rat hippocampal cultures.

The Journal of physiology, 2006, Dec-01, Volume: 577, Issue:Pt 2

Topics: Animals; Animals, Newborn; Benzothiadiazines; Cells, Cultured; Epilepsy, Temporal Lobe; Excitatory A

2006

Dentate development in organotypic hippocampal slice cultures from p35 knockout mice.

Developmental neuroscience, 2007, Volume: 29, Issue:1-2

Topics: Animals; Astrocytes; Axons; Cell Differentiation; Cell Movement; Dendrites; Dentate Gyrus; Epilepsy,

2007

omega-Conotoxin MVIIA inhibits amygdaloid kindled seizures in Sprague-Dawley rats.

Neuroscience letters, 2007, Feb-14, Volume: 413, Issue:2

Topics: Amygdala; Animals; Anticonvulsants; Brain Stem; Calcium Channel Blockers; Calcium Channels, N-Type;

2007

Distinct types of ionic modulation of GABA actions in pyramidal cells and interneurons during electrical induction of hippocampal seizure-like network activity.

The European journal of neuroscience, 2007, Volume: 25, Issue:9

Topics: Action Potentials; Animals; Cell Membrane; Chloride Channels; Chlorides; Epilepsy; Epilepsy, Tempora

2007

The antiepileptic drug levetiracetam stabilizes the human epileptic GABAA receptors upon repetitive activation.

Epilepsia, 2007, Volume: 48, Issue:10

Topics: Adult; Aged; Animals; Anticonvulsants; Brain Tissue Transplantation; Cell Membrane; Child; Epilepsy,

2007

Perturbed chloride homeostasis and GABAergic signaling in human temporal lobe epilepsy.

The Journal of neuroscience : the official journal of the Society for Neuroscience, 2007, Sep-12, Volume: 27, Issue:37

Topics: Adult; Animals; Chlorides; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Homeostasis; Humans; In

2007

Diminished neurosteroid sensitivity of synaptic inhibition and altered location of the alpha4 subunit of GABA(A) receptors in an animal model of epilepsy.

The Journal of neuroscience : the official journal of the Society for Neuroscience, 2007, Nov-14, Volume: 27, Issue:46

Topics: Animals; Benzodiazepines; Disease Models, Animal; Drug Resistance; Epilepsy, Temporal Lobe; gamma-Am

2007

Epileptiform synchronization in the rat insular and perirhinal cortices in vitro.

The European journal of neuroscience, 2007, Volume: 26, Issue:12

Topics: 4-Aminopyridine; Action Potentials; Animals; Cerebral Cortex; Cortical Synchronization; Epilepsy, Te

2007

GABA(A)-current rundown of temporal lobe epilepsy is associated with repetitive activation of GABA(A) "phasic" receptors.

Proceedings of the National Academy of Sciences of the United States of America, 2007, Dec-26, Volume: 104, Issue:52

Topics: Animals; Electrophysiology; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Humans; Male; Neurons;

2007

Downregulation of the CB1 cannabinoid receptor and related molecular elements of the endocannabinoid system in epileptic human hippocampus.

The Journal of neuroscience : the official journal of the Society for Neuroscience, 2008, Mar-19, Volume: 28, Issue:12

Topics: Adult; Age Factors; Aged; Analysis of Variance; Cannabinoid Receptor Modulators; Carrier Proteins; C

2008

Decreased hippocampal volume on MRI is associated with increased extracellular glutamate in epilepsy patients.

Epilepsia, 2008, Volume: 49, Issue:8

Topics: Adolescent; Adult; Atrophy; Chromatography, High Pressure Liquid; Electroencephalography; Epilepsy,

2008

Synaptic input to dentate granule cell basal dendrites in a rat model of temporal lobe epilepsy.

The Journal of comparative neurology, 2008, Jul-10, Volume: 509, Issue:2

Topics: Animals; Cell Shape; Convulsants; Dendrites; Dentate Gyrus; Disease Models, Animal; Epilepsy, Tempor

2008

Loss of GABAergic neurons in the subiculum and its functional implications in temporal lobe epilepsy.

Brain : a journal of neurology, 2008, Volume: 131, Issue:Pt 6

Topics: Animals; Biomarkers; Dendrites; Electroencephalography; Epilepsy, Temporal Lobe; gamma-Aminobutyric

2008

Kindling: an animal model of complex partial epilepsy.

Annals of neurology, 1984, Volume: 16 Suppl

Topics: Amygdala; Animals; Brain; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid;

1984

Prolonged GABA responses in dentate granule cells in slices isolated from patients with temporal lobe sclerosis.

Journal of neurophysiology, 1995, Volume: 74, Issue:1

Topics: Action Potentials; Bicuculline; Dentate Gyrus; Electrophysiology; Epilepsy, Temporal Lobe; GABA Anta

1995

Hippocampal GABA transporter function in temporal-lobe epilepsy.

Nature, 1995, Jul-13, Volume: 376, Issue:6536

Topics: Amygdala; Animals; Carrier Proteins; Disease Models, Animal; Epilepsy, Temporal Lobe; GABA Plasma Me

1995

Analysis of macromolecule resonances in 1H NMR spectra of human brain.

Magnetic resonance in medicine, 1994, Volume: 32, Issue:3

Topics: Adult; Creatine; Cytosol; Epilepsy, Temporal Lobe; Female; gamma-Aminobutyric Acid; Glutamic Acid; G

1994

1H magnetic resonance spectroscopy of extracts of human epileptic neocortex and hippocampus.

Neurology, 1993, Volume: 43, Issue:3 Pt 1

Topics: Adolescent; Adult; Amino Acids; Aspartic Acid; Cerebral Cortex; Child; Epilepsy, Temporal Lobe; Fema

1993

Zinc-induced collapse of augmented inhibition by GABA in a temporal lobe epilepsy model.

Science (New York, N.Y.), 1996, Jan-19, Volume: 271, Issue:5247

Topics: 2-Amino-5-phosphonovalerate; 6-Cyano-7-nitroquinoxaline-2,3-dione; Animals; Chlorides; Dentate Gyrus

1996

Treatment with antiepileptic drugs: possible neuroprotective effects.

Neurology, 1996, Volume: 47, Issue:1 Suppl 1

Topics: Animals; Anticonvulsants; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hippocampus; Humans; Ner

1996

Symbiosis between in vivo and in vitro NMR spectroscopy: the creatine, N-acetylaspartate, glutamate, and GABA content of the epileptic human brain.

Magnetic resonance imaging, 1995, Volume: 13, Issue:8

Topics: Aspartic Acid; Astrocytes; Biopsy; Creatine; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Gluta

1995

Vigabatrin overdose.

The Medical journal of Australia, 1996, Oct-07, Volume: 165, Issue:7

Topics: Adult; Anticonvulsants; Combined Modality Therapy; Drug Overdose; Epilepsy, Temporal Lobe; Female; g

1996

Vulnerability and plasticity of the GABA system in the pilocarpine model of spontaneous recurrent seizures.

Epilepsy research, 1996, Volume: 26, Issue:1

Topics: Animals; Antibodies, Monoclonal; Dentate Gyrus; Disease Models, Animal; Epilepsy, Temporal Lobe; gam

1996

Changes in hippocampal circuitry after pilocarpine-induced seizures as revealed by opioid receptor distribution and activation.

The Journal of neuroscience : the official journal of the Society for Neuroscience, 1997, Jan-01, Volume: 17, Issue:1

Topics: Animals; Dentate Gyrus; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Male; Neural Pathways; Pil

1997

Differential epilepsy-associated alterations in postsynaptic GABA(A) receptor function in dentate granule and CA1 neurons.

Journal of neurophysiology, 1997, Volume: 77, Issue:4

Topics: Animals; Clonazepam; Epilepsy, Temporal Lobe; Evoked Potentials; gamma-Aminobutyric Acid; Hippocampu

1997

Vigabatrin versus carbamazepine and phenytoin in kainic acid-treated pubescent rats.

Pharmacological research, 1997, Volume: 36, Issue:2

Topics: 4-Aminobutyrate Transaminase; Animals; Anticonvulsants; Behavior, Animal; Carbamazepine; Enzyme Inhi

1997

Effects of phenytoin, carbamazepine, and gabapentin on calcium channels in hippocampal granule cells from patients with temporal lobe epilepsy.

Epilepsia, 1998, Volume: 39, Issue:4

Topics: Acetates; Adult; Amines; Anticonvulsants; Calcium Channels; Carbamazepine; Cyclohexanecarboxylic Aci

1998

Antiepileptic effects of tiagabine, a selective GABA uptake inhibitor, in the rat kindling model of temporal lobe epilepsy.

Epilepsia, 1997, Volume: 38, Issue:9

Topics: Amygdala; Animals; Anticonvulsants; Behavior, Animal; Carbamazepine; Dose-Response Relationship, Dru

1997

GABA(A) receptor function in epileptic human dentate granule cells: comparison to epileptic and control rat.

Epilepsy research, 1998, Volume: 32, Issue:1-2

Topics: Animals; Dentate Gyrus; Epilepsy, Temporal Lobe; GABA Agonists; GABA Antagonists; gamma-Aminobutyric

1998

[Drug-resistant epilepsy].

Revista de neurologia, 1998, Volume: 27, Issue:159

Topics: Adult; Anticonvulsants; Brain Neoplasms; Calcinosis; Carbamazepine; Diagnosis, Differential; Drug Re

1998

Hippocampal GABA and glutamate transporter immunoreactivity in patients with temporal lobe epilepsy.

Neurology, 1999, Volume: 52, Issue:3

Topics: Adolescent; Adult; Aged; Amino Acid Transport System X-AG; ATP-Binding Cassette Transporters; Child;

1999

GABAergic neurons and GABA(A)-receptors in temporal lobe epilepsy.

Neurochemistry international, 1999, Volume: 34, Issue:5

Topics: Animals; Dentate Gyrus; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hippocampus; Immunoenzyme

1999

Characterization of neocortical and hippocampal synaptosomes from temporal lobe epilepsy patients.

Brain research, 1999, Aug-07, Volume: 837, Issue:1-2

Topics: Adult; Animals; Brain Neoplasms; Calcium; Epilepsy, Temporal Lobe; Female; gamma-Aminobutyric Acid;

1999

Up-regulation of GAD65 and GAD67 in remaining hippocampal GABA neurons in a model of temporal lobe epilepsy.

The Journal of comparative neurology, 1999, Sep-27, Volume: 412, Issue:3

Topics: Animals; Disease Models, Animal; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Gene Expression R

1999

Deficit of quantal release of GABA in experimental models of temporal lobe epilepsy.

Nature neuroscience, 1999, Volume: 2, Issue:6

Topics: Animals; Electric Conductivity; Epilepsy, Temporal Lobe; Excitatory Amino Acid Agonists; gamma-Amino

1999

Do GABAergic circuitries play a critical role in the regulation of seizure-induced neuronal damage and synaptic reorganization in the rat hippocampus?

Electroencephalography and clinical neurophysiology. Supplement, 1999, Volume: 50

Topics: Afferent Pathways; Animals; Brain Chemistry; Cell Survival; Denervation; Epilepsy, Temporal Lobe; Ex

1999

Improved sexual function in three men taking lamotrigine for epilepsy.

Southern medical journal, 2000, Volume: 93, Issue:3

Topics: Acetates; Amines; Anticonvulsants; Carbamazepine; Cyclohexanecarboxylic Acids; Epilepsies, Partial;

2000

Glutamate and gamma-aminobutyric acid content and release of synaptosomes from temporal lobe epilepsy patients.

Journal of neuroscience research, 2000, Jun-01, Volume: 60, Issue:5

Topics: Animals; Calcium; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Glutamic Acid; Hippocampus; Huma

2000

Viral infection of developing GABAergic neurons in a model of hippocampal disinhibition.

Neuroreport, 2000, Aug-03, Volume: 11, Issue:11

Topics: Animals; Central Nervous System Viral Diseases; Dentate Gyrus; Disease Models, Animal; Epilepsy, Tem

2000

Inhibitory circuits in human dysplastic tissue.

Epilepsia, 2000, Volume: 41 Suppl 6

Topics: Adult; Cerebral Cortex; Epilepsy, Temporal Lobe; Female; gamma-Aminobutyric Acid; Humans; Immunohist

2000

Dendritic but not somatic GABAergic inhibition is decreased in experimental epilepsy.

Nature neuroscience, 2001, Volume: 4, Issue:1

Topics: Action Potentials; Animals; Calbindins; Dendrites; Epilepsy, Temporal Lobe; Excitatory Amino Acid An

2001

GABA(B) receptor autoradiography in hippocampal sclerosis associated with human temporal lobe epilepsy.

British journal of pharmacology, 2001, Volume: 132, Issue:2

Topics: Adult; Autoradiography; Cell Count; Epilepsy, Temporal Lobe; Female; gamma-Aminobutyric Acid; Hippoc

2001

Alterations in dystrophin and utrophin expression parallel the reorganization of GABAergic synapses in a mouse model of temporal lobe epilepsy.

The European journal of neuroscience, 2001, Volume: 13, Issue:6

Topics: Animals; Carrier Proteins; Cytoskeletal Proteins; Dentate Gyrus; Dystrophin; Epilepsy, Temporal Lobe

2001

Alterations of hippocampal GAbaergic system contribute to development of spontaneous recurrent seizures in the rat lithium-pilocarpine model of temporal lobe epilepsy.

Hippocampus, 2001, Volume: 11, Issue:4

Topics: Animals; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hippocampus; Interneurons; Lithium; Neuro

2001

Diminished allopregnanolone enhancement of GABA(A) receptor currents in a rat model of chronic temporal lobe epilepsy.

The Journal of physiology, 2001, Dec-01, Volume: 537, Issue:Pt 2

Topics: Animals; Anticonvulsants; Chronic Disease; Diazepam; Electric Conductivity; Epilepsy, Temporal Lobe;

2001

Preservation of perisomatic inhibitory input of granule cells in the epileptic human dentate gyrus.

Neuroscience, 2001, Volume: 108, Issue:4

Topics: Adolescent; Adult; Axons; Cortical Synchronization; Dendrites; Dentate Gyrus; Epilepsy, Temporal Lob

2001

GABA and L-glutamic acid release in en bloc resection slices of human hippocampus: an in vitro microdialysis study.

Neurological sciences : official journal of the Italian Neurological Society and of the Italian Society of Clinical Neurophysiology, 2001, Volume: 22, Issue:4

Topics: Adult; Amygdala; Chromatography, High Pressure Liquid; Epilepsy, Temporal Lobe; Female; gamma-Aminob

2001

Spontaneous recurrent seizures and neuropathology in the chronic phase of the pilocarpine and picrotoxin model epilepsy.

Neurological research, 2002, Volume: 24, Issue:2

Topics: Acetylcholine; Action Potentials; Aggression; Animals; Behavior, Animal; Brain; Chronic Disease; Dis

2002

Axon arbors and synaptic connections of a vulnerable population of interneurons in the dentate gyrus in vivo.

The Journal of comparative neurology, 2002, Apr-15, Volume: 445, Issue:4

Topics: Action Potentials; Animals; Cell Death; Dentate Gyrus; Epilepsy, Temporal Lobe; Female; gamma-Aminob

2002

Epileptic fast activity can be explained by a model of impaired GABAergic dendritic inhibition.

The European journal of neuroscience, 2002, Volume: 15, Issue:9

Topics: Action Potentials; Biological Clocks; Dendrites; Electroencephalography; Epilepsy, Temporal Lobe; ga

2002

Recurrent complex partial status epilepticus associated with tiagabine rechallenge.

Acta neurologica Belgica, 2002, Volume: 102, Issue:1

Topics: Acetates; Adult; Amines; Anticonvulsants; Carbamazepine; Cyclohexanecarboxylic Acids; Dose-Response

2002

Low cerebrospinal fluid gamma-aminobutyric acid content in seizure patients.

Neurology, 1979, Volume: 29, Issue:9 Pt 1

Topics: Adult; Epilepsy; Epilepsy, Temporal Lobe; Epilepsy, Tonic-Clonic; Female; gamma-Aminobutyric Acid; H

1979

Cerebrospinal fluid gamma-aminobutyric acid in neurologic disease.

Neurology, 1976, Volume: 26, Issue:8

Topics: Aminobutyrates; Cerebrovascular Disorders; Dementia; Epilepsy, Post-Traumatic; Epilepsy, Temporal Lo

1976

The dentate gyrus as a regulated gate for the propagation of epileptiform activity.

Epilepsy research. Supplement, 1992, Volume: 7

Topics: Afferent Pathways; Animals; Brain Mapping; Culture Techniques; Dendrites; Epilepsy, Temporal Lobe; g

1992

Synaptic connections of seizure-sensitive neurons in the dentate gyrus.

Epilepsy research. Supplement, 1992, Volume: 7

Topics: Animals; Brain Mapping; Calcium-Binding Proteins; Chlorocebus aethiops; Cholecystokinin; Cytoplasmic

1992

Permanently altered hippocampal structure, excitability, and inhibition after experimental status epilepticus in the rat: the "dormant basket cell" hypothesis and its possible relevance to temporal lobe epilepsy.

Hippocampus, 1991, Volume: 1, Issue:1

Topics: Animals; Calbindins; Disease Models, Animal; Electric Stimulation; Epilepsy, Temporal Lobe; gamma-Am

1991

A GABA and glutamate immunocytochemical study of cortical neurons of temporal epilepsy in humans.

The Japanese journal of psychiatry and neurology, 1990, Volume: 44, Issue:2

Topics: Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Glutamates; Glutamic Acid; Humans; Immunoenzyme Te

1990

Pharmacokinetic effects of vigabatrin on cerebrospinal fluid amino acids in humans.

Epilepsia, 1989, Volume: 30 Suppl 3

Topics: Adult; Amino Acids; Aminocaproates; Anticonvulsants; Cerebrospinal Fluid; Epilepsy, Temporal Lobe; F

1989

Intracellular electrophysiology of CA1 pyramidal neurones in slices of the kainic acid lesioned hippocampus of the rat.

Experimental brain research, 1986, Volume: 62, Issue:1

Topics: Adaptation, Physiological; Animals; Disease Models, Animal; Epilepsy, Temporal Lobe; Evoked Potentia

1986

Anti-seizure and anti-epileptogenic effect of gamma-vinyl gamma-aminobutyric acid in amygdaloid kindling.

Brain research, 1986, Nov-29, Volume: 398, Issue:2

Topics: Aminocaproates; Amygdala; Animals; Anticonvulsants; Electrophysiology; Epilepsy, Temporal Lobe; gamm

1986

Synaptic connections of axo-axonic (chandelier) cells in human epileptic temporal cortex.

Neuroscience, 1986, Volume: 19, Issue:4

Topics: Adolescent; Axons; Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Humans; Male; Microscopy, Elect

1986

Metabolic, morphologic and electrophysiologic profiles of human temporal lobe foci: an attempt at correlation.

Advances in experimental medicine and biology, 1986, Volume: 203

Topics: Epilepsy, Temporal Lobe; gamma-Aminobutyric Acid; Hippocampus; Humans; Neural Inhibition; Neuroglia;

1986