SEARCH

SEARCH BY CITATION

REFERENCES

  • 1
    Schwab RS. A method of measuring consciousness in petit mal epilepsy. J Nerv Ment Dis 1939;89:69091.
  • 2
    Shimazono Y, Hirai T, Okuma T, et al. Disturbance of consciousness in petit mal epilepsy. Epilepsia 1953;2:4955.
    Direct Link:
  • 3
    Tizard B, Margerison JH. Psychological functions during wave-spike discharge. Br J Soc Clin Pyschol 1963;3:615.
  • 4
    Davidoff RA, Johnson LC. Paroxysmal EEG activity and cognitive-motor performances. Electroencephalogr Clin Neurophysiol 1964;16:34354.
  • 5
    Guey J, Tassinari CA, Charles C, et al. Variations du niveau d'efficience en relation avec des decharges epileptiques paroxystiques. Rev Neurol 1965;112:31117.
  • 6
    Porter RJ, Penry JK, Dreifuss FE. Responsiveness at the onset of spike-wave bursts. Electroencephalogr Clin Neurophysiol 1973;34:23945.
  • 7
    Goode DJ, Penry JK, Dreifuss FE. Effects of paroxysmal spike-wave and continuous visual-motor performances. Epilepsia 1970;11:24154.
  • 8
    Tuvo F. Contribution a l'etude des niveaux de conscience au cours des paroxysmes epileptiques infracliniques. Electroencephalogr Clin Neurophysiol 1958;10:71518.
  • 9
    Prechtl HFR, Boeke PE, Schut T. The electroencephalogram and performance in epileptic patients. Neurology 1961;11:296302.
  • 10
    Hovey HB, Kooi KA. Transient disturbances of thought processes and epilepsy. Arch Neurol Psychiatry 1955;74:28791.
  • 11
    Dodrill CB, Wilkus RJ. Relationships between intelligence and electroencephalographic epileptiform activity in adult epileptics. Neurology 1976;26:52531.
  • 12
    Dodrill CB, Wilkus RJ. Neuropsychological correlates of anticonvulsants and epileptiform discharges in adult epileptics. In: CobbWA, Van DuijnH, eds. Contemporary clinical neurophysiology. Electroencephalogr clin neurophysiol, suppl. 34. Amsterdam : Elsevier, 1978; 25967.
  • 13
    Wilkus RJ, Dodrill CB. Neuropsychological correlates of the electroencephalogram in epileptics. I. Topographic distribution and average rate of epileptiform activity. Epilepsia 1976;17:89100.
  • 14
    Binnie CD, Kastekeijn-Nolst Trenité DGA, Smit AM, et al. Interactions of epileptiform EEG discharges and cognition. Epilepsy Res 1987;1:23945.
  • 15
    Vidart L, Geier S. Enregistrements tele-encephalographiques chex des sujets epileptiques pendant le travail. Rev Neurol 1967;117:47580.
  • 16
    Hutt SJ, Newton S, Fairweather H. Choice reaction time and EEG activity in children with epilepsy. Neuropsychologia 1977;15:25767.
  • 17
    Kasteleijn-Nolst Trenité DGA, Bakker DJ, Binnie CD, et al. M. Psychological effects of subclinical epileptiform EEG discharges. I. Scholastic skills. Epilepsy Res 1988;2:11116.
  • 18
    Wilkins AJ. On the manner in which sensory and cognitive processes contribute to epileptogenesis, and are disrupted by it. Acta Neurol Scand 1986;74(suppl. 109):915.
  • 19
    Matsuoka H, Takahashi T, Sasaki M, et al. Neuropsychological EEG activation in patients with epilepsy. Brain 2000;123:31830.
  • 20
    Boniface SJ, Kennett RP, Oxbury JM, et al. Changes in focal interictal epileptiform activity during and after the performance of verbal and visuospatial tasks in a patient with intractable partial seizures. J Neurol Neurosurg Psychiatr 1994;57:2278.
  • 21
    Aarts JHP, Binnie CD, Smit AM, et al. Selective cognitive impairment during focal and generalized epileptiform EEG activity. Brain 1984;107:293308.
  • 22
    Shewmon AD, Erwin RJ. The effect of focal interictal spikes on perception and reaction time. I. General considerations. Electroencephalogr Clin Neurophysiol 1988;69:31937.
  • 23
    Shewmon AD, Erwin RJ. The effect of focal interictal spikes on perception and reaction time. II. Neuroanatomic specificity. Electroencephalogr Clin Neurophysiol 1988;69:33852.
  • 24
    Shewmon AD, Erwin RJ. Focal spike-induced cerebral dysfunction is related to the after-coming slow wave. Ann Neurol 1988;23:1317.
  • 25
    Rausch R, Lieb JP, Crandall PH. Neuropsychologic correlates of depth spike activity in epileptic patients. Arch Neurol 1978;35:699705.
  • 26
    Massa R, De Saint-Martin A, Carcangiu R, et al. EEG criteria predictive of complicated evolution in idiopathic rolandic epilepsy. Neurology 2001;57:10719.
  • 27
    Seri S, Cerquiglini A, Pisani F. Spike-induced interference in auditory sensory processing in Landau-Kleffner syndrome. Electroencephalogr Clin Neurophysiol 1998;108:50610.
  • 28
    Metz-Lutz MN, Kleitz C, De Saint Martin A, et al. Cognitive development in benign focal epilepsies of childhood. Dev Neurosci 1999;21:18290.
  • 29
    Deonna T, Zesiger P, Davidoff V, et al. Benign partial epilepsy of childhood: a longitudinal neuropsychological and EEG study of cognitive function. Dev Med Child Neurol 2000;42:595603.
  • 30
    Parmeggiani L, Seri S, Bonanni P, et al. Electrophysiological characterization of spontaneous and carbamazepine-induced epileptic negative myoclonus in benign childhood epilepsy with centro-temporal spikes. Clin Neurophysiol 2004;115:5058.
  • 31
    Tassinari CA, Rubboli G, Parmeggiani L, et al. Epileptic negative myoclonus. In: FahnS, HallettM, LudersHO, MarsdenCD, eds. Negative motor phenomena, Adv Neurol, vol. 67. Philadelphia : Lippincott-Raven Publishers, 1995;18197.
  • 32
    Rubboli G, Parmeggiani L, Tassinari CA. Frontal inhibitory spike component associated with epileptic negative myoclonus. Electroencephalogr Clin Neurophysiol 1995;95:2015.
  • 33
    Rubboli G, Mai R, Meletti S, et al. Negative myoclonus induced by cortical electrical stimulation in epileptic patients. Brain 2006;129:6581.
  • 34
    Dalla Bernardina B, Fontana E, Michelizza B, et al. Partial epilepsies of childhood, bilateral synchronization, continuous spike-wave durinmg slow sleep. In: ManelisJ, BentalE, LoeberJN, DreifussFE, eds. Advances in epileptology. XVIIth Epilepsy International Symposium. New York : Raven Press, 1989;295302.
  • 35
    Colamaria V, Grimau-Merino R, Sgrò V, et al. Epilessia focale con stato di punta-onda continua in sonno lento: asterixis critico in soggetto con emipachigiria. Boll Lega Ital Epil 1989;66/67:2678.
  • 36
    Capovilla G, Rubboli G, Beccaria F, et al. Intermittent falls and fecal incontinence as a manifestation of epileptic negative myoclonus in idiopathic partial epilepsy of childhood. Neuropediatrics 2000;31:2735.
  • 37
    Patry G, Lyagoubi S, Tassinari CA. Subclinical electrical status epilepticus induced by sleep in children. Arch Neurol 1971;24:24252.
  • 38
    Tassinari CA, Rubboli G, Volpi L, et al. Encephalopathy with electrical status epilepticus during slow wave sleep or ESES sindrome including the acquired aphasia. Clin Neurophysiol 2000;111(suppl. 2):94102.
  • 39
    Tassinari CA, Rubboli G, Volpi L, et al. Electrical status epilepticus during slow sleep (ESES or CSWS) including acquired epileptic aphasia (Landau-Kleffner syndrome). In: RogerJ, BureauM, DravetC, GentonP, TassinariCA, WolfP, eds. Epileptic syndromes in infancy, childhood and adolescence, 4th ed. (with video). Montrouge : John Libbey Eurotext, 2005;295314.
  • 40
    Landau W, Kleffner FR. Syndrome of acquired aphasia with convulsive disorder in children. Neurology 1957;7:52330.
  • 41
    Steriade M. Corticothalamic resonance, states of vigilance and mentation. Neuroscience 2000;101:24376.
  • 42
    Steriade M, Amzica F. Sleep oscillations developing into seizures in corticothalamic systems. Epilepsia 2003;44(suppl. 12):920.
  • 43
    Borbely AA, Achermann P. Sleep homeostasis and models of sleep regulations. In: KrygerM, RothT, DementW, eds. Principles and practice of sleep medicine. Philadelphia : W.B. Saunders, 2000;37790.
  • 44
    Tononi G, Cirelli C. Sleep and synaptic homeostasis: a hypothesis. Brain Res Bull 2003;62:14350.
  • 45
    Smith C. Sleep states and memory processes. Behav Brain Res 1995;69:13745.
  • 46
    Mednick SC, Nakayma K, Cantero JL, et al. The restorative effect of naps on perceptual deterioration. Nat Neurosci 2002;5:67781.
  • 47
    Stickgold R, James L, Hobson JA. Visual discrimination learning requires sleep after training. Nat Neurosci 2000;3:12378.
  • 48
    Walker MP, Brakefield T, Morgan A, et al. Practice with sleep makes perfect: sleep-dependent motor skill learning. Neuron 2002;35:20511.
  • 49
    Fenn KM, Nusbaum HC, Margoliash D. Consolidation during sleep of perceptual learning of spoken language. Nature 2003;425:61416.
  • 50
    Huber R, Ghilardi MF, Massimini M, et al. Local sleep and learning. Nature 2004;430:7881.