focal epilepsy

Literature (16)

Literature for DOID 2234: focal epilepsy

Xenbase Articles Publications associated with this Disease Ontology entry or its descendants

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Down-regulation of GABA-transporter function by hippocampal translation products: its possible role in epilepsy., Fueta Y,Vasilets LA,Takeda K,Kawamura M,Schwarz W, Neuroscience. January 1, 2003; 118(2):1873-7544.
Two different mechanisms of disinhibition produced by GABAA receptor mutations linked to epilepsy in humans., Bianchi MT,Song L,Zhang H,Macdonald RL, J Neurosci. July 1, 2002; 22(13):1529-2401.
[Cellular mechanism of seizure discharge and its normalization by a herbal mixture prescription "saikokeishito-ka-shakuyaku" (SK)]., Sugaya A, Yakugaku Zasshi. May 1, 2001; 121(5):1347-5231.
Enhancement of GABA(A)-current run-down in the hippocampus occurs at the first spontaneous seizure in a model of temporal lobe epilepsy., Mazzuferi M,Palma E,Martinello K,Maiolino F,Roseti C,Fucile S,Fabene PF,Schio F,Pellitteri M,Sperk G,Miledi R,Eusebi F,Simonato M, Proc Natl Acad Sci U S A. February 16, 2010; 107(7):1091-6490.
Animal models for autosomal dominant frontal lobe epilepsy: on the origin of seizures., Steinlein OK, Expert Rev Neurother. December 1, 2010; 10(12):1744-8360.
GRIN2B mutations in West syndrome and intellectual disability with focal epilepsy., Lemke JR,Hendrickx R,Geider K,Laube B,Schwake M,Harvey RJ,James VM,Pepler A,Steiner I,Hörtnagel K,Neidhardt J,Ruf S,Wolff M,Bartholdi D,Caraballo R,Platzer K,Suls A,De Jonghe P,Biskup S,Weckhuysen S, Ann Neurol. January 1, 2014; 75(1):1531-8249.
GABAA currents are decreased by IL-1β in epileptogenic tissue of patients with temporal lobe epilepsy: implications for ictogenesis., Roseti C,van Vliet EA,Cifelli P,Ruffolo G,Baayen JC,Di Castro MA,Bertollini C,Limatola C,Aronica E,Vezzani A,Palma E, Neurobiol Dis. October 1, 2015; 82:1095-953X.
Distinctive effects of nicotinic receptor intracellular-loop mutations associated with nocturnal frontal lobe epilepsy., Weltzin MM,Lindstrom JM,Lukas RJ,Whiteaker P, Neuropharmacology. March 1, 2016; 102:1873-7064.
Mutation Linked to Autosomal Dominant Nocturnal Frontal Lobe Epilepsy Reduces Low-Sensitivity α4β2, and Increases α5α4β2, Nicotinic Receptor Surface Expression., Nichols WA,Henderson BJ,Marotta CB,Yu CY,Richards C,Dougherty DA,Lester HA,Cohen BN, PLoS One. January 1, 2016; 11(6):1932-6203.
Clinical and molecular characterization of KCNT1-related severe early-onset epilepsy., McTague A,Nair U,Malhotra S,Meyer E,Trump N,Gazina EV,Papandreou A,Ngoh A,Ackermann S,Ambegaonkar G,Appleton R,Desurkar A,Eltze C,Kneen R,Kumar AV,Lascelles K,Montgomery T,Ramesh V,Samanta R,Scott RH,Tan J,Whitehouse W,Poduri A,Scheffer IE,Chong WKK,Cross JH,Topf M,Petrou S,Kurian MA, Neurology. January 2, 2018; 90(1):1526-632X.
Sleep-related hypermotor epilepsy associated mutations uncover important kinetic roles of α4β2- nicotinic acetylcholine receptor intracellular structures., Weltzin MM,George AA,Lukas RJ,Whiteaker P, PLoS One. March 3, 2021; 16(3):1932-6203.
Dissecting the Molecular Determinants of GABAA Receptors Current Rundown, a Hallmark of Refractory Human Epilepsy., Cifelli P,Di Angelantonio S,Alfano V,Morano A,De Felice E,Aronica E,Ruffolo G,Palma E, Brain Sci. March 30, 2021; 11(4):2076-3425.
GABAA receptor function is enhanced by Interleukin-10 in human epileptogenic gangliogliomas and its effect is counteracted by Interleukin-1β., Ruffolo G,Alfano V,Romagnolo A,Zimmer T,Mills JD,Cifelli P,Gaeta A,Morano A,Anink J,Mühlebner A,Vezzani A,Aronica E,Palma E, Sci Rep. October 26, 2022; 12(1):2045-2322.
Advancements in the use of xenopus oocytes for modelling neurological disease for novel drug discovery., O'Connor EC,Kambara K,Bertrand D, Expert Opin Drug Discov. February 1, 2024; 19(2):1746-045X.
Remarkable effect of transdermal nicotine in children with CHRNA4-related autosomal dominant sleep-related hypermotor epilepsy., Lossius K,de Saint Martin A,Myren-Svelstad S,Bjørnvold M,Minken G,Seegmuller C,Valenti Hirsch MP,Chelly J,Steinlein O,Picard F,Brodtkorb E, Epilepsy Behav. April 1, 2020; 105:1525-5069.
Selective block of human Kv1.1 channels and an epilepsy-associated gain-of-function mutation by AETX-K peptide., Zhao R,Qasim A,Sophanpanichkul P,Dai H,Nayak M,Sher I,Chill J,Goldstein SAN, FASEB J. January 1, 2024; 38(1):1530-6860.

Down-regulation of GABA-transporter function by hippocampal translation products: its possible role in epilepsy., Fueta Y,Vasilets LA,Takeda K,Kawamura M,Schwarz W, Neuroscience. January 1, 2003; 118(2):1873-7544.

Two different mechanisms of disinhibition produced by GABAA receptor mutations linked to epilepsy in humans., Bianchi MT,Song L,Zhang H,Macdonald RL, J Neurosci. July 1, 2002; 22(13):1529-2401.

[Cellular mechanism of seizure discharge and its normalization by a herbal mixture prescription "saikokeishito-ka-shakuyaku" (SK)]., Sugaya A, Yakugaku Zasshi. May 1, 2001; 121(5):1347-5231.

Enhancement of GABA(A)-current run-down in the hippocampus occurs at the first spontaneous seizure in a model of temporal lobe epilepsy., Mazzuferi M,Palma E,Martinello K,Maiolino F,Roseti C,Fucile S,Fabene PF,Schio F,Pellitteri M,Sperk G,Miledi R,Eusebi F,Simonato M, Proc Natl Acad Sci U S A. February 16, 2010; 107(7):1091-6490.

Animal models for autosomal dominant frontal lobe epilepsy: on the origin of seizures., Steinlein OK, Expert Rev Neurother. December 1, 2010; 10(12):1744-8360.

GRIN2B mutations in West syndrome and intellectual disability with focal epilepsy., Lemke JR,Hendrickx R,Geider K,Laube B,Schwake M,Harvey RJ,James VM,Pepler A,Steiner I,Hörtnagel K,Neidhardt J,Ruf S,Wolff M,Bartholdi D,Caraballo R,Platzer K,Suls A,De Jonghe P,Biskup S,Weckhuysen S, Ann Neurol. January 1, 2014; 75(1):1531-8249.

GABAA currents are decreased by IL-1β in epileptogenic tissue of patients with temporal lobe epilepsy: implications for ictogenesis., Roseti C,van Vliet EA,Cifelli P,Ruffolo G,Baayen JC,Di Castro MA,Bertollini C,Limatola C,Aronica E,Vezzani A,Palma E, Neurobiol Dis. October 1, 2015; 82:1095-953X.

Distinctive effects of nicotinic receptor intracellular-loop mutations associated with nocturnal frontal lobe epilepsy., Weltzin MM,Lindstrom JM,Lukas RJ,Whiteaker P, Neuropharmacology. March 1, 2016; 102:1873-7064.

Mutation Linked to Autosomal Dominant Nocturnal Frontal Lobe Epilepsy Reduces Low-Sensitivity α4β2, and Increases α5α4β2, Nicotinic Receptor Surface Expression., Nichols WA,Henderson BJ,Marotta CB,Yu CY,Richards C,Dougherty DA,Lester HA,Cohen BN, PLoS One. January 1, 2016; 11(6):1932-6203.

Clinical and molecular characterization of KCNT1-related severe early-onset epilepsy., McTague A,Nair U,Malhotra S,Meyer E,Trump N,Gazina EV,Papandreou A,Ngoh A,Ackermann S,Ambegaonkar G,Appleton R,Desurkar A,Eltze C,Kneen R,Kumar AV,Lascelles K,Montgomery T,Ramesh V,Samanta R,Scott RH,Tan J,Whitehouse W,Poduri A,Scheffer IE,Chong WKK,Cross JH,Topf M,Petrou S,Kurian MA, Neurology. January 2, 2018; 90(1):1526-632X.

Sleep-related hypermotor epilepsy associated mutations uncover important kinetic roles of α4β2- nicotinic acetylcholine receptor intracellular structures., Weltzin MM,George AA,Lukas RJ,Whiteaker P, PLoS One. March 3, 2021; 16(3):1932-6203.

Dissecting the Molecular Determinants of GABAA Receptors Current Rundown, a Hallmark of Refractory Human Epilepsy., Cifelli P,Di Angelantonio S,Alfano V,Morano A,De Felice E,Aronica E,Ruffolo G,Palma E, Brain Sci. March 30, 2021; 11(4):2076-3425.

GABAA receptor function is enhanced by Interleukin-10 in human epileptogenic gangliogliomas and its effect is counteracted by Interleukin-1β., Ruffolo G,Alfano V,Romagnolo A,Zimmer T,Mills JD,Cifelli P,Gaeta A,Morano A,Anink J,Mühlebner A,Vezzani A,Aronica E,Palma E, Sci Rep. October 26, 2022; 12(1):2045-2322.

Advancements in the use of xenopus oocytes for modelling neurological disease for novel drug discovery., O'Connor EC,Kambara K,Bertrand D, Expert Opin Drug Discov. February 1, 2024; 19(2):1746-045X.

Remarkable effect of transdermal nicotine in children with CHRNA4-related autosomal dominant sleep-related hypermotor epilepsy., Lossius K,de Saint Martin A,Myren-Svelstad S,Bjørnvold M,Minken G,Seegmuller C,Valenti Hirsch MP,Chelly J,Steinlein O,Picard F,Brodtkorb E, Epilepsy Behav. April 1, 2020; 105:1525-5069.

Selective block of human Kv1.1 channels and an epilepsy-associated gain-of-function mutation by AETX-K peptide., Zhao R,Qasim A,Sophanpanichkul P,Dai H,Nayak M,Sher I,Chill J,Goldstein SAN, FASEB J. January 1, 2024; 38(1):1530-6860.