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REFERENCES

  • 1
    Mischel PS, Vinters HV. Neuropathology of developmental disorders associated with epilepsy. In: J Engel Jr., TA Pedley, Editors. Epilepsy: Lippincott Williams & Wilkins, 1999.
  • 2
    Goldring S, Gregorie EM. Surgical management of epilepsy using epidural recordings to localize the seizure focus. Review of 100 cases. J Neurosurg 1984;60(3):45766.
  • 3
    Jacobs KM, Kharazia VN, Prince DA. Mechanisms underlying epileptogenesis in cortical malformations. Epilepsy Res 1999;36(2–3):16588.
  • 4
    Chevassus-au-Louis N, Baraban SC, Gaiarsa JL, Ben-Ari Y. Cortical malformations and epilepsy: new insights from animal models. Epilepsia 1999;40(7):81121.
  • 5
    Jacobs KM, Gutnick MJ, Prince DA. Hyperexcitability in a model of cortical maldevelopment. Cereb Cortex 1996;6(3):51423.
  • 6
    Roper SN. In utero irradiation of rats as a model of human cerebrocortical dysgenesis: a review. Epilepsy Res 1998;32(1–2):6374.
  • 7
    Germano IM, Sperber EF. Transplacentally induced neuronal migration disorders: an animal model for the study of the epilepsies. J Neurosci Res 1998;51(4):47388.
  • 8
    Sancini G, Franceschetti S, Battaglia G, Colacitti C, Di Luca M, Spreafico R, Avanzini G. Dysplastic neocortex and subcortical heterotopias in methylazoxymethanol-treated rats: an intracellular study of identified pyramidal neurones. Neurosci Lett 1998;246(3):1815.
  • 9
    Smith BN, Dudek FE, Roper SN. Synaptic responses of neurons in heterotopic gray matter in an animal model of cortical dysgenesis. Dev Neurosci 1999;21(3–5):36573.
  • 10
    Baraban SC, Wenzel HJ, Hochman DW, Schwartzkroin PA. Characterization of heterotopic cell clusters in the hippocampus of rats exposed to methylazoxymethanol in utero. Epilepsy Res 2000;39(2):87102.
  • 11
    Rosen GD, Jacobs KM, Prince DA. Effects of neonatal freeze lesions on expression of parvalbumin in rat neocortex. Cereb Cortex 1998;8(8):75361.
  • 12
    Roper SN, Eisenschenk S, King MA. Reduced density of parvalbumin- and calbindin D28-immunoreactive neurons in experimental cortical dysplasia. Epilepsy Res 1999;37(1):6371.
  • 13
    Calabresi P, Chabner BA. Chemotherapy of neoplastic diseases. Principles of Pharmacology, 1999.
  • 14
    Colacitti C, Sancini G, Franceschetti S, Cattabeni F, Spreafico R, Di Luca M, Battaglia G. The methylazoxymethanol (MAM) treated rat as an animal model for human development brain dysgeneses: morphological features. In: RSpreafico, G.Avanzini, FAndermann, Editors. Abnormal Cortical Development and Epilepsy, London: John Libbey & Co., 1999: 109120.
  • 15
    Layton PB, Greenberg HS, Stetson PL, Ensminger WD, Gyves JW. BCNU solubility and toxicity in the treatment of malignant astrocytomas. J Neurosurg 1984;60(6):11347.
  • 16
    Bolam JP. Preparation of central nervous system tissue for light and electron microscopy. In: JPBolam, Editor. Experimental Neuroanatomy: A Practical Approach, New York: Oxford University Press, 1992: 129.
  • 17
    Blanton MG, Lo Turco JJ, Kriegstein AR. Whole cell recording from neurons in slices of reptilian and mammalian cerebral cortex. J Neurosci Methods 1989;30(30):20310.
  • 18
    Baraban SC, Schwartzkroin PA. Electrophysiology of CA1 pyramidal neurons in an animal model of neuronal migration disorders: prenatal methylazoxymethanol treatment. Epilepsy Res 1995;22(2):14556.
  • 19
    Roper SN, King MA, Abraham LA, Boillot MA. Disinhibited in vitro neocortical slices containing experimentally induced cortical dysplasia demonstrate hyperexcitability. Epilepsy Res 1997;26(3):4439.
  • 20
    Chagnac-Amitai Y, Connors BW. Synchronized excitation and inhibition driven by intrinsically bursting neurons in neocortex. J Neurophysiol 1989;62(5):114962.
  • 21
    Chagnac-Amitai Y, Connors BW. Horizontal spread of synchronized activity in neocortex and its control by GABA-mediated inhibition. J Neurophysiol 1989;61(4):74758.
  • 22
    Rosner B. Fundamentals of Biostatistics. 1995, Belmont: Duxbury Press.
  • 23
    Gibbs JW, 3rd, Sombati S, DeLorenzo RJ, Coulter DA. Physiological and pharmacological alterations in postsynaptic GABA(A) receptor function in a hippocampal culture model of chronic spontaneous seizures. J Neurophysiol 1997;77(4):213952.
  • 24
    Connors BW, Gutnick MJ. Intrinsic firing patterns of diverse neocortical neurons. Trends Neurosci 1990;13(3):99104.
  • 25
    Sakmann B. Capacitance Measurements. In: BSakmann, Editor. Single Channel Recording, New York: Plenum Press, 1995.
  • 26
    Noctor SC, Palmer SL, Hasling T, Juliano SL. Interference with the development of early generated neocortex results in disruption of radial glia and abnormal formation of neocortical layers. Cereb Cortex 1999;9(2):12136.
  • 27
    Ogawa M, Miyata T, Nakajima K, Yagyu K, Seike M, Ikenaka K, Yamamoto H, Mikoshiba K. The reeler gene-associated antigen on Cajal-Retzius neurons is a crucial molecule for laminar organization or cortical neurons. Neuron 1995;14: 899912.
  • 28
    Konig N, Hornung JP, Van der Loos H. Identification of Cajal-Retzius cells in immature rodent cerebral cortex: a combined Golgi–EM study. Neurosci Lett 1981;27(3):2259.
  • 29
    Konig N, Schachner M. Neuronal and glial cells in the superficial layers of early postnatal mouse neocortex: immunofluorescence observations. Neurosci Lett 1981;26(3):22731.
  • 30
    Prince DA, Jacobs K. Inhibitory function in two models of chronic epileptogenesis. Epilepsy Res 1998;32(1–2):8392.
  • 31
    Schwarz P, Stichel CC, Luhmann HJ. Characterization of neuronal migration disorders in neocortical structures: loss or preservation of inhibitory interneurons? Epilepsia 2000;41(7):7817.
  • 32
    Hannan AJ, Servotte S, Katsnelson A, Sisodiya S, Blakemore C, Squier M, Molnar Z. Characterization of nodular neuronal heterotopia in children. Brain 1999;122(Pt 2):21938.
  • 33
    Barth PG. Disorders of neuronal migration. Can J Neurol Sci 1987;14(1):116.
  • 34
    Barkovich AJ, Gressens P, Evrard P. Formation, maturation, and disorders of brain neocortex. AJNR Am J Neuroradiol 1992;13(2):42346.
  • 35
    Lambert de Rouvroit C, Goffinet AM. A new view of early cortical development. Biochem Pharmacol 1998;56(11):14039.
  • 36
    Super H, Soriano E, Uylings HB. The functions of the preplate in development and evolution of the neocortex and hippocampus. Brain Res Brain Res Rev 1998;27(1):4064.
  • 37
    Marin-Padilla M. Cajal-Retzius cells and the development of the neocortex. Trends Neurosci 1998;21(2):6471.
  • 38
    Frotscher M. Dual role of Cajal-Retzius cells and reelin in cortical development. Cell Tissue Res 1997;290(2):31522.
  • 39
    Noctor SC, Flint AC, Weissman TA, Dammerman RS, Kriegstein AR. Neurons derived from radial glial cells establish radial units in neocortex. Nature 2001;409(6821):71420.
  • 40
    Malatesta P, Sgado P, Caneparo L, Barsacchi G, Cremisi F. In vivo PC3 overexpression by retroviral vector affects cell differentiation of rat cortical precursors. Brain Res Dev Brain Res 2001;128(2):1815.
  • 41
    Malatesta P, Gotz M, Barsacchi G, Price J, Zoncu R, Cremisi F. PC3 overexpression affects the pattern of cell division of rat cortical precursors. Mech Dev 2000;90(1):1728.
  • 42
    D'Arcangelo G, Miao GG, Chen SC, Soares HD, Morgan JI, Curran T. A protein related to extracellular matrix proteins deleted in the mouse mutant reeler. Nature 1995;374(6524):71923.
  • 43
    Hunter-Schaedle KE. Radial glial cell development and transformation are disturbed in reeler forebrain. J Neurobiol 1997;33(4):45972.
  • 44
    O'Brien TF, Steindler DA, Cooper NG. Abnormal glial and glycoconjugate dispositions in the somatosensory cortical barrel field of the early postnatal reeler mutant mouse. Brain Res 1987;429(2):30917.
  • 45
    Soriano E, Alvarado-Mallart RM, Dumesnil N, Del Rio JA, Sotelo C. Cajal-Retzius cells regulate the radial glia phenotype in the adult and developing cerebellum and alter granule cell migration. Neuron 1997;18(4):56377.
  • 46
    Super H, Del Rio JA, Martinez A, Perez-Sust P, Soriano E. Disruption of neuronal migration and radial glia in the developing cerebral cortex following ablation of Cajal-Retzius cells. Cereb Cortex 2000;10(6):60213.
  • 47
    Roper SN, Abraham LA, Streit WJ. Exposure to in utero irradiation produces disruption of radial glia in rats. Dev Neurosci 1997;19(6):5218.
  • 48
    Avoli M, Bernasconi A, Mattia D, Olivier A, Hwa GG. Epileptiform discharges in the human dysplastic neocortex: in vitro physiology and pharmacology. Ann Neurol 1999;46(6):81626.
  • 49
    Dudek FE, Wuarin JP, Tasker JG, Kim YI, Peacock WJ. Neurophysiology of neocortical slices resected from children undergoing surgical treatment for epilepsy. J Neurosci Methods 1995;59(1):4958.
  • 50
    Aitken PG, Breese GR, Dudek FF, Edwards F, Espanol MT, Larkman PM, Lipton P, Newman GC, Nowak TS, Jr., Panizzon KL, et al. Preparative methods for brain slices: a discussion. J Neurosci Methods 1995;59(1):13949.
  • 51
    Connors BW, Malenka RC, Silva LR. Two inhibitory postsynaptic potentials, and GABAA and GABAB receptor-mediated responses in neocortex of rat and cat. J Physiol 1988;406: 44368.
  • 52
    Gutnick MJ, Connors BW, Prince DA. Mechanisms of neocortical epileptogenesis in vitro. J Neurophysiol 1982;48(6):132135.
  • 53
    Chevassus-Au-Louis N, Jorquera I, Ben-Ari Y, Represa A. Abnormal connections in the malformed cortex of rats with prenatal treatment with methylazoxymethanol may support hyperexcitability. Dev Neurosci 1999;21(3–5):38592.
  • 54
    Chevassus-au-Louis N, Represa A. The right neuron at the wrong place: biology of heterotopic neurons in cortical neuronal migration disorders, with special reference to associated pathologies. Cell Mol Life Sci 1999;55(10):120615.
  • 55
    Gibbs JW, 3rd, Morton LD, Amaker B, Ward JD, Holloway KL, Coulter DA. Physiological analysis of Rasmussen's encephalitis: patch clamp recordings of altered inhibitory neurotransmitter function in resected frontal cortical tissue. Epilepsy Res 1998;31(1):1327.
  • 56
    Gibbs JW, 3rd, Shumate MD, Coulter DA. Differential epilepsy-associated alterations in postsynaptic GABA(A) receptor function in dentate granule and CA1 neurons. J Neurophysiol 1997;77(4):192438.