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REFERENCES

  • Aicardi J, Chevrie JJ. (1983) Consequences of status epilepticus in infants and children. Advances in Neurology 34:115125.
  • Albala BJ, Moshe SL, Okada R. (1984) Kainic-acid-induced seizures: a developmental study. Developmental Brain Research 13:139148.
  • Arida RM, Scorza FA, Dos Santos NF, Peres CA, Cavalheiro EA. (1999) Effect of physical exercise on seizure occurrence in a model of temporal lobe epilepsy in rats. Epilepsy Research 37:4552.
  • Baram TZ, Eghbal-Ahmadi M, Bender RA. (2002) Is neuronal death required for seizure-induced epileptogenesis in the immature brain. Progress in Brain Research 135:365375.
  • Bender RA, Soleymani SV, Brewster AL, Nguyen ST, Beck H, Mathern GW, Baram TZ. (2003) Enhanced expression of a specific hyperpolarization-activated cyclic nucleotide-gated cation channel (HCN) in surviving dentate gyrus granule cells of human and experimental epileptic hippocampus. Journal of Neuroscience 23:68266836.
  • Brewster A, Bender RA, Chen Y, Dube C, Eghbal-Ahmadi M, Baram TZ. (2002) Developmental febrile seizures modulate hippocampal gene expression of hyperpolarization-activated channels in an isoform- and cell-specific manner. Journal of Neuroscience 22:45914599.
  • Brooks-Kayal AR, Shumate MD, Jin H, Rikhter TY, Coulter DA. (1998) Selective changes in single cell GABAA receptor subunit expression and function in temporal lobe epilepsy. Nature Medicine 4:11661172.
  • Buhl E, Otis T, Mody I. (1996) Zinc-induced collapse of augmented inhibition by GABA in a temporal lobe epilepsy model. Science 271:369373.
  • Commission on Classification and Terminology of the International League Against Epilepsy (1981) Proposal for revised clinical and electroencephalographic classification of epileptic seizures. Epilepsia 22:489501.
  • Cavalheiro EA, Silva DF, Turski WA, Calderazzo-Fihlo LS, Bortolotto A, Turski L. (1987) The susceptibility of rats to pilocarpine-induced seizures is age-dependent. Developmental Brain Research 37:4358.
  • Dubé C, Marescaux C, Nehlig A. (2000) A metabolic and neuropathological approach to the understanding of plastic changes occurring in the immature and adult rat brain during lithium–pilocarpine induced epileptogenesis. Epilepsia 41 (suppl 6):S36S43.
  • Dubé C, Boyet S, Marescaux C, Nehlig A. (2001) Relationship between neuronal loss and interictal glucose metabolism during the chronic phase of the lithium-pilocarpine model of epilepsy in the immature and adult rat. Experimental Neurology 167:227241.
  • Dubé C, Yu H, Nalcioglu O, Baram TZ. (2004) Serial MRI after experimental febrile seizures: altered T2 signal without neuronal death. Annals of Neurology 56:709714.
  • Dubé C, Richichi C, Bender RA, Chung G, Litt B, Baram TZ. (2006) Temporal lobe epilepsy after experimental prolonged febrile seizures: prospective analysis. Brain 129:911922.
  • Eberwine J, Yeh H, Miyashiro K, Cao Y, Nair S, Finnel R, Zettel M, Coleman P. (1992) Analysis of gene expression in single live neurons. Proceedings of the National Academy of Science United States of America 89:30103014.
  • Falconer M, Serafetinides E, Corsellis J. (1964) Etiology and pathogenesis of temporal lobe epilepsy. Archives of Neurology 10:233248.
  • Fritschy JM, Kiener T, Bouilleret V, Loup F. (1999) GABAergic neurons and GABAA receptors in temporal lobe epilepsy. Neurochemistry International 34:435445.
  • Gibbs JW 3rd, Shumate MD, Coulter DA. (1997) Differential epilepsy-associated alterations in postsynaptic GABAA receptor function in dentate granule cells and CA1 neurons. Journal of Neurophysiology 77:19241938.
  • Heinemann U, Beck H, Dreier JP, Ficker E, Stabel J, Zhang CL. (1992) The dentate gyrus as a regulated gate for the propagation of epileptiform activity. In: RibakCE, GallCM, ModyI (Eds). The dentate gyrus and role in seizures. Elsevier Science, Amsterdam , 273280.
  • Holmes GL. (2002) Seizure-induced neuronal injury: animal data. Neurology 59(9 suppl 5):S3S6.
  • Hsu FC, Zhang G, Raol Y, Valentino RJ, Coulter DA, Brooks-Kayal AR. (2003) Repeated neonatal handling with maternal separation permanently alters hippocampal GABAA receptors and behavioral stress responses. Proceedings of the National Academy of Science United States of America 100:1221312218.
  • Jeon CJ, Kong JH, Strettoi E, Rockhill R, Stasheff SF, Masland RH. (2002) Pattern of synaptic excitation and inhibition upon direction-selective retinal ganglion cells. Journal of Comparative Neurology 449:195205.
  • Jiang M, Lee CL, Smith KL, Swann JW. (1998) Spine loss and other persistent alterations of hippocampal pyramidal cell dendrites in a model of early-onset epilepsy. Journal of Neuroscience 18:83568368.
  • Laurén HB, Lopez-Picon FR, Korpi ER, Holopainen IE. (2005) Kainic acid-induced status epilepticus alters GABA receptor subunit mRNA and protein expression in the developing rat hippocampus. Journal of Neurochemistry 94:13841394.
  • Macdonald RL, Olsen RW. (1994) GABAA receptor channels. Annual Review of Neuroscience 17:569602.
  • McDonald AJ, Mascagni F. (2004) Parvalbumin-containing interneurons in the basolateral amygdala express high levels of the α1 subunit of the GABAA receptor. Journal of Comparative Neurology 473:137146.
  • Nairismägi J, Grohn OH, Kettunen MI, Nissinen J, Kauppinen RA, Pitkanen A. (2004) Progression of brain damage after status epilepticus and its association with epileptogenesis: a quantitative MRI study in a rat model of temporal lobe epilepsy. Epilepsia 45:10241034.
  • Nairismägi J, Pitkanen A, Kettunen MI, Kauppinen RA, Kubova H. (2006) Status epilepticus in 12-day-old rats leads to temporal lobe neurodegeneration and volume reduction: a histologic and MRI study. Epilepsia 47:479488.
  • Pirker S, Schwarzer C, Czech T, et al. (2003) Increased expression of GABAA receptor β- subunits in the hippocampus of patients with temporal lobe epilepsy. Journal of Neuropathology and Experimental Neurology 62:820834.
  • Poulter MO, Brown LA, Tynan S, Willick G, William R, McIntyre DC. (1999) Differential expression of α1, α2, α3, and α5 GABAA receptor subunits in seizure-prone and seizure-resistant rat models of temporal lobe epilepsy. Journal of Neuroscience 19:46544661.
  • Priel MR, Ferreira dos Santos N, Cavalheiro EA. (1996) Developmental aspects of the pilocarpine model of epilepsy. Epilepsy Research 26:115121.
  • Raol Y, Budreck EC, Brooks-Kayal AR. (2003) Epilepsy after early-life seizures can be independent of hippocampal injury. Annals of Neurology 53:503511.
  • Riviello P, Landrot IR, Holmes GL. (2002) Lack of cell loss following recurrent neonatal seizures. Developments in Brain Research 135:101104.
  • Roch C, Leroy C, Nehlig A, Namer IJ. (2002) Predictive value of cortical injury for the development of temporal lobe epilepsy in 21-day-old rats: an MRI approach using the lithium-pilocarpine model. Epilepsia 43:11291136.
  • Sagar HJ, Oxbury JM. (1987) Hippocampal neuron loss in temporal lobe epilepsy: correlation with early childhood convulsions. Annals of Neurology 22:334340.
  • Sanchez RM, Koh S, Rio C, Wang C, Lamperti ED, Sharma D, Corfas G, Jensen FE. (2001) Decreased glutamate receptor 2 expression and enhanced epileptogenesis in immature rat hippocampus after perinatal hypoxia-induced seizures. Journal of Neuroscience 21:81548163.
  • Sankar R, Shin DH, Liu H, Mazarati A, Pereira de Vasconcelos A, Wasterlain CG. (1998) Patterns of status epilepticus induced neuronal injury during development and long-term consequences. Journal of Neuroscience 18:83828393.
  • SAS Institute Inc. (1999) SAS/STAT User's Guide, Version 8. SAS Institute Inc., Cary , NC .
  • Schwarzer C, Tsunashima K, Wanzenbock C, Fuchs K, Sieghart W, Sperk G. (1997) GABAA receptor subunits in the rat hippocampus, II: altered distribution in kainic acid-induced temporal lobe epilepsy. Neuroscience 80:10011017.
  • Shinnar S, Pellock JM, Moshe SL, Maytal J, O'Dell C, Driscoll SM, Alemany M, Newstein D, DeLorenzo RJ. (1997) In whom does status epilepticus occur? age-related differences in children. Epilepsia 38:907914.
  • Shumate MD, Lin DD, Gibbs JW 3rd, Holloway KL, Coulter DA. (1998) GABAA receptor function in epileptic human dentate granule cells: comparison to epileptic and control rat. Epilepsy Research 32:114128.
  • Silveira DC, Sogawa Y, Holmes GL. (2002) The expression of Fos following kainic acid- induced seizures is age-dependent. European Journal of Neuroscience 15:329344.
  • Sperber EF, Haas KZ, Stanton PK, Moshe SL. (1991) Resistance of the immature hippocampus to seizure-induced synaptic reorganization. Developments in Brain Research 60:8893.
  • Stafstrom CE, Thompson JL, Holmes GL. (1992) Kainic acid seizures in the developing brain: status epilepticus and spontaneous recurrent seizures. Developments in Brain Research 65:227236.
  • Toth Z, Yan XX, Haftoglou S, Ribak CE, Baram TZ. (1998) Seizure-induced neuronal injury: vulnerability to febrile seizures in an immature rat model. Journal of Neuroscience 18:42854294.
  • Valotta da Silva A, Regondi MC, Cipelletti B, Frassoni C, Cavalheiro EA, Spreafico R. (2005) Neocortical and hippocampal changes after multiple pilocarpine-induced status epilepticus in rats. Epilepsia 46:636642.
  • Wallace MJ, Blair RE, Falenski KW, Martin BR, DeLorenzo RJ. (2003) The endogenous cannabinoid system regulates seizure frequency and duration in a model of temporal lobe epilepsy. Journal of Pharmacology and Experimental Therapy 307:129137.
  • Zhang G, Raol Y, Hsu FC, Coulter DA, Brooks-Kayal AR. (2004a) Effects of status epilepticus on hippocampal GABAA receptors are age-dependent. Neuroscience 125:299303.
  • Zhang G, Raol Y, Hsu FC, Brooks-Kayal AR. (2004b) Long-term alterations in glutamate receptor and transporter expression following early-life seizures are associated with increased seizure susceptibility. Journal of Neurochemistry 88:91101.