SEARCH

SEARCH BY CITATION

References

  • 1
    Nadler, JV. Kainic acid as a tool for the study of temporal lobe epilepsy. Life Sci 1981;29:203142.
  • 2
    Ben-Ari, Y. Limbic seizure and brain damage produced by kainic acid Mechanisms and relevance to human temporal lobe epilepsy. Neuroscience 1985;14:375403.
  • 3
    Albala, BJ, Moshe, SL, Okada, R. Kainic acid–induced seizures: A developmental study. Dev Bruin Res 1984;13: 13943.
  • 4
    Nitecka, L, Tremblay, E, Charton, G, Bouillot, JP, Berger, ML, Ben-Ari, Y. Maturation of kainic acid seizure-brain damage syndrome in the rat: 11. Histopathological sequelae. Neuroscience 1984;13: 107394.
  • 5
    Sperber, EF, Has, KZ, Stanton, PK, Moshé, SL. Resistance of the immature hippocampus to seizure–induced synaptic reorganization. Dev Bruin Res 1991;60:8893.
  • 6
    Stafstrom, CE, Holmes, GL, Chronopoulos, A, Thurber, S, Thompson, JL. Age-dependent cognitive and behavioral deficits following kainic acid-induced seizures. Epilepsia 1993;34:42032.
  • 7
    Thurber, S, Chronopoulos, A, Stafstrom, CE, Holmes, GL. Behavioral effects of continuous hippocampal stimulation in the developing rat. Dev Bruin Res 1992;68: 3540.
  • 8
    Liu, Z, Gatt, A, Werner, SJ, Mikati, MA, Holmes, GL. Long-term behavioral deficits following pilocarpine seizures in immature rats. Epilepsy Res 1994;19:191204.
  • 9
    Stafstrom, CE, Thompson, JL, Holmes, GL. Kainic acid seizures in the developing brain: Status epilepticus and spontaneous recurrent seizures. Dev Brain Res 1992;65:22736.
  • 10
    Morris, RGM, Garrud, P, Rawlins, JNP, O'Keefe, J. Place navigation is impaired in rats with hippocampal lesions. Nature 1982;297: 6813.
  • 11
    Sutherland, RJ, Whishaw, IQ, Kolb, B. A behavioral analysis of spatial localization following electrolytic, kainate or colchicine–induced damage to the hippocampus. Behav Brain Res 1983;7: 13353.
  • 12
    Shenvood, NM, Timiras, PS. A Stereotuxic Atlas of the Developing Rut Brain Berkeley , CA : University of California Press, 1970.
  • 13
    Tremblay, E, Nitecka, L, Berger, ML, Ben-Ari, Y. Maturation of kainic acid seizure brain damage syndrome in the rat: I. Clinical, electrographic and metabolic observations. Neuroscience 1984;13: 105172.
  • 14
    Sperk, G. Kainic acid seizures in the rat. Progr Neurobiol 1994; 42:132.
  • 15
    Parent, JM, Yu, TW, Leibowitz, RT, Geschwind, DH, Sloviter, RS, Lowenstein, DH. Dentate granule cell neurogenesis is increased by seizures and contributes to aberrant network reorganization in the adult rat hippocampus. J Neurosci 1997;17:372738.
  • 16
    Holmes, GL, Thompson, JL. Effects of serial administration of kainic acid on the developing brain. Neuropharmucology 1988;27:20912.
  • 17
    Vosu, H, Wise, RA. Cholinergic seizure kindling in the rat: Comparison of caudate, amygdala and hippocampus. Behav Biol 1975;13:4914.
  • 18
    Diehl, RG, Smialowski, A, Go two, T. Development and persistence of kindled seizures after repeated injections of pentylenetetrazole in rats and guinea pigs. Epilepsia 1984;25:50610.
  • 19
    Ribak, CE, Navetta, MS. An immature mossy fiber innervation of hilar neurons may explain their resistance to kainate-induced cell death in 15-day-old rats. Dev Brain Res 1994;79:4762.
  • 20
    Miller, LP, Johnson, AE, Gel hard, RE, Insel, TR. The ontogeny of excitatory amino acid receptors in rat forebrain: 11. Kainic acid receptors. Neuroscience 1990;35:4551.
  • 21
    Chittajallu, R, Vignes, M, Dev, KK, Barnes, JM, Collingridge, GL, Henley, JM. Regulation of glutamate release by presynaptic kainate receptors in the hippocampus. Nature 1996;379:7881.
  • 22
    Liu, Z, Stafstrom, CE, Sarkisian, M, et al. Age-dependent effects of glutamate toxicity in the hippocampus. Dev Bruin Res 1996;97: 17884.
  • 23
    Gould, E, Cameron, HA, McEwen, BS. Blockade of NMDA receptors increases cell death and birth in developing rat dentate gyms. J Comp Neurol 1994;340:55165.
  • 24
    Balazs, R, Jorgensen, OS, Hack, N. N-methyl-D-aspartate promotes the survival of cerebellar granule cells in culture. Neuroscience 1988;27:43751.
  • 25
    Yan, GM, Ni, B, Weller, M, Wood, KA, Paul, SM. Depolarization or glutamate receptor activation blocks apoptotic cell death of cultured cerebellar granule neurons. Brain Res 1994;656:4352.
  • 26
    Bambrick, LL, Yarowski, PL, Krueger, BK. Glutamate as a hippo–campal neuronal survival factor: An inherited defect in the trisomy 16 mouse. Proc Nut1 Acud Sci USA 1995;92:96926.
  • 27
    Suzuki, F, Junier, M-P, Guilhem, D, Sorenson, J-C, Onteniente, B. Morphogenetic effect of kainate on adult hippocampal neurons associated with a prolonged expression of brain-derived neurotrophic factor. Neuroscience 1995;64:66574.
  • 28
    Kang, I, Miller, LG. Decreased GABA, receptor subunit mRNA concentrations following chronic lorazepam administration. Br J Pharmacol 1991;103:12857.
  • 29
    Temple, A. Visualization of mu opiate receptor downregulation following morphine treatment in neonatal rat brain. Brain Res 1991;64:1926.
  • 30
    Has, KZ, Sperber, EF, Moshé, SL, Stanton, PK. Kainic acid–induced seizures enhance dentate gyrus inhibition by down regulation of GABA, receptors. J Neurosci 1996; 16:425060.
  • 31
    Bushnell, PJ, Padilla, SS, Ward, T, Pope, CN, Olszyk, VB. Behavioral and neurochemical changes in rats dosed repeatedly with diisopropylfluorophosphate. J Pharmacol Exp Ther 1991;256:74150.
  • 32
    Clement, JG. Effect of a single dose of acetylcholinesterase inhibitor on oxotremorine- and nicotine–induced hypothermia in mice. Pharmacol Biochem Behav 1991;39:92934.
  • 33
    Tandon, P, Sarkisian, MR, Stafstrom, CE, Yang, Y, Holmes, GL. Repeated exposure to kainic acid in developing rats does not cause repeated seizures, neuronal loss or behavioral deficits later in life. Epilepsia 1996;37[Suppl. 5]:66.
  • 34
    Ballarin, M, Emfors, P, Lindefors, N, Persson, H. Hippocampal damage and kainic acid injection induce a rapid increase in mRNA for BDNF and NGF in the rat brain. Exp Neurol 1991;114:3543.
  • 35
    Riva, MA, Gale, K, Mocchetti, I. Basic fibroblast growth factor mRNA increases in specific brain regions following convulsive seizures. Molec Brain Res 1992;15:3118.
  • 36
    Follesa, P, Gale, K, Mocchetti, I. Regional and temporal pattern of expression of nerve growth factor and basic fibroblast growth factor mRNA in rat brain following electroconvulsive shock. Exp Neurol 1994; 127:3744.
  • 37
    Dugich-Djordjevic, MM, Tocco, G, Willoughby, DA et al. BDNF mRNA expression in the developing rat brain following kainic acid-induced seizure activity. Neuron 1992;8:112738.
  • 38
    Larmet, Y, Reibel, S, Carnahan, J, Nawa, H, Marescaux, C, Depaulis, A. Protective effects of brain-derived neurotrophic factor on the development of hippocampal kindling in the rat. Neuroreport 1995;6:193741.
  • 39
    Kaisho, Y, Shintani, A, Ono, Y, Kato, K, Igarashi, K. Regional expression of the nerve growth factor gene family in rat brain during development. Biochem Biophys Res Commun 1991;174:37985.
  • 40
    Nonner, D, Barrett, JN. Changes in the response of cultured septa1 cholinergic neurons to nerve growth factor exposure and deprivation during the first postnatal month. Dev Bruin Res 1994;79:21928.
  • 41
    Zhou, J, Bradford, HF, Stern, G. The stimulatory effect of brain-derived neurotrophic factor on dopaminergic phenotype expression of embryonic rat cortical neurons in vitro. Dev Bruin Res 1994; 81:31824.
  • 42
    Thoenen, H. Neurotrophins and neuronal plasticity. Science 1995; 270:5938.
  • 43
    Zhou, X-F, Rush, RA. Sympathetic neurons in neonatal rats require endogenous neurotrophin-3 for survival. J Neurosci 1995;15: 652130.
  • 44
    Zafra, F, Hengerer, B, Leibrock, J, Thoenen, H, Lindholm, D. Activity-dependent regulation of BDNF and NGF mRNAs in the rat hippocampus is mediated by nonNMDA glutamate receptors. EMBO J 1990;9:354550.
  • 45
    Wetmore, C, Olson, L, Bean, AJ. Regulation of brain derived neurotrophic factor (BDNF) expression and release from hippocampal neurons is mediated by non-NMDA type glutamate receptors. J Neurosci 1994;14:1688700.
  • 46
    Tandon, P, Sarkisian, M, Yang, Y, et al. The neuroprotective role of BDNF in seizure induced neuronal loss during development. Neurology 1997;48:A151.
  • 47
    Kelly, ME, McIntyre, DC. Hippocampal kindling protects several structures from the neuronal damage resulting from kainic acid-induced status epilepticus. Brain Res 1994;634:24556.
  • 48
    Najm, I, Schreiber, SS, Bruce, A, Tocco, G, Baudry, M. A short episode of seizure activity protects CA3 neurons from prolonged seizure activity-induced death. Soc Neurosci Abstr 1992;18:1146.
  • 49
    Holmes, GL. Do seizures cause brain damage Epilepsia 1991;32[Suppl. 5]:S1428.
  • 50
    Frank, JE, Schwartzkroin, PA. Immature rabbit hippocampus is damaged by systemic but not intraventricular kainic acid. Dev Bruin Res 1984;13:21927.
  • 51
    Babb, TL, Pereira-Leite, J, Mathern, GW, Pretorius, JK. Kainic acid-induced hippocampal seizures in rats: Comparisons of acute and chronic seizures using intrahippocampal versus systemic injections. Ital J Neurol Sci 1995;16:3944.
  • 52
    Neill, JC, Liu, Z, Sarkisian, M, et al. Recurrent seizures in immature rats: Effect on auditory and visual discrimination. Dev Bruin Res 1996;95:28392.
  • 53
    Moshé, SL, Albala, BJ. Kindling in developing rats: Persistence of seizures into adulthood. Dev Brain Res 1982;4:6771.
  • 54
    Moshé, SL, Albala, BJ. Maturational changes in postictal refractoriness and seizure susceptibility in developing rats. Ann Neurol 1983;13:5527.