The Effects of Amiloride on Seizure Activity, Cognitive Deficits and Seizure-Induced Neurogenesis in a Novel Rat Model of Febrile Seizures

[1]  Nirmal Singh,et al.  Implications of sodium hydrogen exchangers in various brain diseases , 2015, Journal of basic and clinical physiology and pharmacology.

[2]  Y. Tsan,et al.  Long-term neurocognitive outcome and auditory event-related potentials after complex febrile seizures in children , 2015, Epilepsy & Behavior.

[3]  Kyuseok Kim,et al.  Rate of and Risk Factors for Early Recurrence in Patients With Febrile Seizures , 2014, Pediatric emergency care.

[4]  Z. Hassan,et al.  Cognitive performance and convulsion risk after experimentally-induced febrile-seizures in rat , 2014, International Journal of Developmental Neuroscience.

[5]  Lian Zhang,et al.  Influences of hyperthermia-induced seizures on learning, memory and phosphorylative state of CaMKIIα in rat hippocampus , 2014, Brain Research.

[6]  Kerrie L. Ford,et al.  Facilitation by intracellular carbonic anhydrase of Na+–HCO3− co-transport but not Na+/H+ exchange activity in the mammalian ventricular myocyte , 2014, The Journal of physiology.

[7]  J. Pellock,et al.  Recent Research on Febrile Seizures: A Review , 2013, Journal of neurology & neurophysiology.

[8]  Jen-Yang Tang,et al.  Modulating roles of amiloride in irradiation-induced antiproliferative effects in glioblastoma multiforme cells involving Akt phosphorylation and the alternative splicing of apoptotic genes. , 2013, DNA and cell biology.

[9]  A. Galanopoulou,et al.  Issues for new antiepilepsy drug development. , 2013, Current opinion in neurology.

[10]  R. Scott,et al.  Recognition memory is impaired in children after prolonged febrile seizures. , 2012, Brain : a journal of neurology.

[11]  J. Tamburini,et al.  PI3K and mTOR Signaling Pathways in Cancer: New Data on Targeted Therapies , 2012, Current Oncology Reports.

[12]  Yung-Yang Lin,et al.  The duration of sustained convulsive seizures determines the pattern of hippocampal neurogenesis and the development of spontaneous epilepsy in rats , 2012, Epilepsy Research.

[13]  Z. Xiong,et al.  Physiological and pathological functions of acid-sensing ion channels in the central nervous system. , 2012, Current drug targets.

[14]  Subcommittee on Febrile Seizures Febrile Seizures: Guideline for the Neurodiagnostic Evaluation of the Child With a Simple Febrile Seizure , 2011, Pediatrics.

[15]  L. Carmant,et al.  Effects of hyperthermic seizures on the developing primary visual cortex of the rat , 2010, Neuroscience.

[16]  Wen Jiang,et al.  Effects of lamotrigine and topiramate on hippocampal neurogenesis in experimental temporal-lobe epilepsy , 2010, Brain Research.

[17]  Ruopeng Sun,et al.  Astrocyte activation and memory impairment in the repetitive febrile seizures model , 2009, Epilepsy Research.

[18]  D. Vohora,et al.  Seizures and sodium hydrogen exchangers: potential of sodium hydrogen exchanger inhibitors as novel anticonvulsants. , 2008, CNS & neurological disorders drug targets.

[19]  P. N’Gouemo,et al.  Amiloride delays the onset of pilocarpine-induced seizures in rats , 2008, Brain Research.

[20]  C. Ribak,et al.  Structural changes for adult‐born dentate granule cells after status epilepticus , 2008, Epilepsia.

[21]  K. Borowicz,et al.  Agmatine enhances the anticonvulsant action of phenobarbital and valproate in the mouse maximal electroshock seizure model , 2008, Journal of Neural Transmission.

[22]  G. SadleirLynette,et al.  Febrile seizures , 2007 .

[23]  A. Fetveit Assessment of febrile seizures in children , 2007, European Journal of Pediatrics.

[24]  F. Gage,et al.  Epigenetic Modulation of Seizure-Induced Neurogenesis and Cognitive Decline , 2007, The Journal of Neuroscience.

[25]  Wan Ji-wen,et al.  Consequences of pilocarpine-induced recurrent seizures in neonatal rats , 2007, Brain and Development.

[26]  K. Mackie,et al.  Experimental febrile seizures are precipitated by a hyperthermia-induced respiratory alkalosis , 2006, Nature Medicine.

[27]  J. Millar Evaluation and treatment of the child with febrile seizure. , 2006, American family physician.

[28]  J. Wheless,et al.  Treatment of Pediatric Epilepsy: Expert Opinion, 2005 , 2005, Journal of child neurology.

[29]  M. Welsh,et al.  Neuroprotection in Ischemia Blocking Calcium-Permeable Acid-Sensing Ion Channels , 2004, Cell.

[30]  D. Vohora,et al.  Evidence of the antiepileptic potential of amiloride with neuropharmacological benefits in rodent models of epilepsy and behavior , 2004, Epilepsy & Behavior.

[31]  Chao-Ching Huang,et al.  Febrile seizures impair memory and cAMP response‐element binding protein activation , 2003, Annals of neurology.

[32]  Shlomo Shinnar,et al.  Febrile Seizures , 2002, Journal of child neurology.

[33]  E. Ma,et al.  Intracellular pH regulation of CA1 neurons in Na(+)/H(+) isoform 1 mutant mice. , 1999, The Journal of clinical investigation.

[34]  G. Holmes,et al.  Effects of hyperthermia and continuous hippocampal stimulation on the immature and adult brain , 1999, Brain and Development.

[35]  Subcommittee on Febrile Seizures Practice Parameter: Long-term Treatment of the Child With Simple Febrile Seizures , 1999, Pediatrics.

[36]  T. Baram,et al.  Differential Regulation of the Expression of Corticotropin-Releasing Factor Receptor Type 2 (CRF2) in Hypothalamus and Amygdala of the Immature Rat by Sensory Input and Food Intake , 1999, The Journal of Neuroscience.

[37]  T. Baram,et al.  Febrile seizures: an appropriate-aged model suitable for long-term studies. , 1997, Brain research. Developmental brain research.

[38]  A. Lehmann,et al.  In vivo acidosis reduces extracellular concentrations of taurine and glutamate in the rat hippocampus , 1994, Journal of neuroscience research.

[39]  K. Kaila,et al.  Modulation of pH by neuronal activity , 1992, Trends in Neurosciences.

[40]  T. Baram,et al.  Mossy fiber plasticity and enhanced hippocampal excitability, without hippocampal cell loss or altered neurogenesis, in an animal model of prolonged febrile seizures , 2003, Hippocampus.