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REFERENCES

  • 1
    Hauser WA. Status epilepticus: epidemiologic considerations. Neurology 1990;40(suppl 2):913.
  • 2
    Gross-Tsur V, Shinnar S. Convulsive status epilepticus in children. Epilepsia 1993;34(suppl 1):S1220.
  • 3
    Shinnar S, Pellok JM, Moshé SL, et al. In whom does status epilepticus occur: age-related differences in children. Epilepsia 1997;38: 90714.
  • 4
    Maytal J, Shinnar S, Moshé SL, et al. Low morbidity and mortality of status epilepticus in children. Pediatrics 1989;83: 32331.
  • 5
    Maytal J, Shinnar S. Febrile status epilepticus. Pediatrics 1990;86: 6116.
  • 6
    Hesdorffer DC, Logroscino G, Cascino G, et al. Risk of unprovoked seizure: effect of status epilepticus. Ann Neurol 1998;44: 90812.
  • 7
    Rice AC, Floyd CL, Lyeth BG, et al. Status epilepticus causes long-term NMDA receptor-dependent behavioral changes and cognitive deficits. Epilepsia 1998;39: 114857.
  • 8
    Van Esch A, Ramlal IR, Van Steensel-Moll HA, et al. Outcome after febrile status epilepticus. Dev Med Child Neurol 1996;38: 1924.
  • 9
    Nitecka L, Tremblay E, Charton G, et al. Maturation of kainic acid seizure-brain damage syndrome in the rat, II: histopathological sequelae. Neuroscience 1984;13: 107394.
  • 10
    Tremblay E, Nitecka L, Berger ML, et al. Maturation of kainic acid seizure-brain damage syndrome in the rat, I: clinical, electrographic and metabolic observations. Neuroscience 1984;13: 105172.
  • 11
    Berger ML, Tremblay E, Nitecka L, et al. Maturation of kainic acid seizure-brain damage syndrome in the rat, III: postnatal development of kainic acid binding sites in the limbic system. Neuroscience 1984;13: 1095104.
  • 12
    Holmes GL, Ben-Ari Y. The neurobiology and consequences of epilepsy in the developing brain. Pediatr Res 2001;49: 3205.
  • 13
    Dos Santos NF, Arida RM, Filho EM, et al. Epileptogenesis in immature rats following recurrent status epilepticus. Brain Res Rev 2000;1: 26976.
  • 14
    Sarkisian MR, Tandon P, Liu Z, et al. Multiple kainic acid seizures in the immature and adult brain: ictal manifestations and long-term effects on learning and memory. Epilepsia 1998;38: 115666.
  • 15
    Stafstrom CE, Chronopoulos A, Thurber S, et al. Age-dependent cognitive and behavioral deficits after kainic acid seizures. Epilepsia 1993;34: 42032.
  • 16
    Holmes GL. The long-term effect of seizures on the developing brain: clinical and laboratory issues. Brain Dev 1991;13: 393409.
  • 17
    Stafstrom CE, Thompson JL, Holmes GL. Kainic acid seizures in the developing brain: status epilepticus and spontaneous seizures. Dev Brain Res 1992;65: 22736.
  • 18
    Cavalheiro EA, Silva DF, Turski WA, et al. The susceptibility of rats to pilocarpine-induced seizures is age-dependent. Brain Res 1987;465: 4358.
  • 19
    Sperber EF, Haas KZ, Stanton PK, et al. Resistance of the immure hippocampus to seizure-induced synaptic reorganization. Dev Brain Res 1991;60: 8893.
  • 20
    Haas KZ, Sperber EF, Opanashuk LA, et al. Resistance of immature hippocampus to morphologic and physiologic alterations following status epilepticus or kindling. Hippocampus 2001;11: 61525.
  • 21
    Turski WA, Cavalheiro EA, Schwarz M, et al. Limbic seizures produced by pilocarpine in rats: behavioral, electroencephalographic and neuropathological study. Behav Brain Res 1983;9: 31535.
  • 22
    Leite JP, Bortolotto ZA, Cavalheiro EA. Spontaneous recurrent seizures in rats: an experimental model of partial epilepsy. Neurosci Biobehav Rev 1990;14: 5117.
  • 23
    Mello LE, Cavalheiro EA, Tan AM, et al. Circuit mechanism of seizures in the pilocarpine model of chronic epilepsy: cell loss and mossy fiber sprouting. Epilepsia 1993;34: 98595.
  • 24
    Jope RS, Morrisett RA, Snead OC. Characterization of lithium potentiation of pilocarpine-induced status epilepticus in rats. Exp Neurol 1986;91: 47180.
  • 25
    Sankar R, Shin D, Liu H, et al. Pattern of status epilepticus-induced neuronal injury during development and long-term consequences. J Neurosci 1998;18: 838293.
  • 26
    Rice AC, DeLorenzo RJ. NMDA receptor activation during status epilepticus is required for the development of epilepsy. Brain Res 1998;782: 2407.
  • 27
    Gibbs JW III, Shumate MD, Coulter DA. Differential epilepsy-associated alterations in postsynaptic GABAA receptor function in dentate granule and CA1 neurons. J Neurophysiol 1997;77: 192438.
  • 28
    Jensen FE, Holmes GL, Lombroso CT, et al. Age-dependent changes in long-term seizures susceptibility and behavior after hypoxia in rats. Epilepsia 1992;33: 97180.
  • 29
    Lynch M, Sayin U, Bownds J, et al. Long-term consequences of early post-natal seizures on hippocampal learning and plasticity. Eur J Neurosci 2000;12: 225264.
  • 30
    Cilio MR, Sogawa Y, Huang L-T, et al. Status epilepticus in the developing brain: age-dependent neuronal injury, mossy fiber sprouting, seizure susceptibility, and cognitive impairment. Epilepsia 1999;40(suppl 7):34.
  • 31
    Romijn HJ, Hofman MA, Gramsbergen A. At what age is the developing cerebral cortex of the rat comparable to that of the full-term newborn human baby? Early Hum Dev 1991;26: 617.
  • 32
    Moshé SL, Stanton PK, Sperber EF. Sensitivity of the immature central nervous to epileptogenic stimuli. In: SchwartzkroinPA, ed. Epilepsy: models, mechanisms and concepts. Cambridge: Cambridge University Press, 1993: 17198.
  • 33
    Morris R, Garrud P, Rawlins JNP, et al. Place navigation impaired in rats with hippocampal lesion. Nature 1982;297: 6813.
  • 34
    Morris R. Development of a water maze procedure for studying spatial learning in the rat. J Neurosci Methods 1984;11: 4760
  • 35
    Jeltsch H, Bertrand F, Lazarus C, et al. Cognitive performances and locomotor activity following dentate granule cell damage in rats: role of lesion extent and type of memory tested. Neurobiol Learn Mem 2001;76: 81105.
  • 36
    Holmes GL. Effects of serial seizures on subsequent kindling in the immature brain. Dev Brain Res 1983;6: 1902.
  • 37
    Holmes GL, Thompson JL. Rapid kindling in the prepubescent rat. Brain Res 1987;433: 2814.
  • 38
    Goddard G. The development of epileptic seizures through brain stimulation at low intensity. Nature 1967;214: 10201.
  • 39
    McNamara JO. Development of new pharmacological agents for epilepsy: lesson from the kindling model. Epilepsia 1989;30(suppl 1):S138.
  • 40
    Racine RJ. Modification of seizure activity by electrical stimulation, II: motor seizure. Electroencephalogr Clin Neurophysiol 1972;32: 28194.
  • 41
    Paxinos G, Watson G. The rat brain in stereotactic coordinates. 2nd ed. San Diego: Academic Press, 1986.
  • 42
    Sutula T, Xiao-Xian H, Cavazos J, et al. Synaptic reorganization in the hippocampus induced by abnormal functional activity. Science 1988;239: 114750.
  • 43
    Sutula T, Koch J, Golarai G, et al. NMDA receptor dependence of kindling and mossy fibers sprouting: evidence that the NMDA receptor regulates patterning of hippocampal circuits in the adult brain. J Neurosci 1996;16: 7398406.
  • 44
    Holmes GL, Gaiarsa JL, Chevassu-Au-Louis N, et al. Consequences of neonatal seizures in the rat: morphological and behavioral effects. Ann Neurol 1998;44: 84557.
  • 45
    Holmes GL, Sarkisian M, Ben-Ari Y, et al. Mossy fiber sprouting after recurrent seizures during early development in rats. J Comp Neurol 1999;22: 53753.
  • 46
    Bolanos AR, Sarkisian M, Yang Y, et al. Comparison of valproate and phenobarbital treatment after status epilepticus in rats. Neurology 1998;51: 418.
  • 47
    Mikati MA, Holmes GL, Chronopoulos A, et al. Phenobarbital modifies seizure-related brain injury in the developing brain. Ann Neurol 1994;36: 42533.
  • 48
    Huang LT, Cilio MR, Silveira DC, et al. Long-term effects of neonatal seizures: behavioral, electrophysiological and histological study. Dev Brain Res 1999;118: 99107.
  • 49
    Huang LT, Liou CW, Yang SN, et al. Aminophylline aggravates long-term morphological and cognitive damages in status epilepticus in immature rats. Neurosci Lett 2002;321: 13740.
  • 50
    Sankar R, Shin D, Mazarati AM, et al. Epileptogenicity after status epilepticus reflects age- and model-dependent plasticity. Ann Neurol 2000;48: 5809.
  • 51
    Lipp H-P, Schwegler H, Heimrich B, et al. Infrapyramidal mossy fibers and two-way avoidance learning: developmental modification of hippocampal circuitry and adult behavior of rats and mice. J Neurosci 1988;8: 190521.
  • 52
    Okada R, Moshé SL, Albala BJ. Infantile status epilepticus and future seizure susceptibility in the rat. Brain Res 1984;317: 17783.
  • 53
    Priel MR, Dos Santos NF, Cavalheiro EA. Developmental aspect of the pilocarpine model of epilepsy. Epilepsy Res 1996;26: 11521.
  • 54
    Löscher W. Animal models of epilepsy and epileptic seizures. In: EadieMJ, VajdaF, eds. Antiepileptic drugs: handbook of experimental pharmacology. Berlin: Springer, 1999: 1962.
  • 55
    Sankar R, Shin DH, Wasterlain CG. GABA metabolism during status epilepticus in the developing rat brain. Dev Brain Res 1997;98: 604.
  • 56
    Samoriski GM, Piekut DT, Applegate CG. Regional analysis of the spatial patterns of fos induction in the brain flowing flurothyl kindling. Neuroscience 1998;84: 393407.
  • 57
    Dube C, Andre V, Covolan R, et al. Jun D and HSP72 immunoreactivity and neuronal injury following lithium-pilocarpine induced status epilepticus in immature and adult rats. Mol Brain Res 1998;63: 13954.