SEARCH

SEARCH BY CITATION

REFERENCES

  • 1
    Springer JA, Binder JR, Hammeke TA, et al. Language dominance in neurologically normal and epilepsy subjects: a functional MRI study. Brain 1999;122:20332045.
  • 2
    Gaillard WD, Balsamo L, Xu B, et al. Language dominance in partial epilepsy patients identified with an fMRI reading task. Neurology 2002;59:256265.
  • 3
    Desmond JE, Sum JM, Wagner AD, et al. Functional MRI measurement of language lateralization in Wada-tested patients. Brain 1995;118:14111419.
  • 4
    Billingsley-Marshall RL, Simos PG, et al. Reliability and validity of functional neuroimaging techniques for identifying language-critical areas in children and adults. Dev Neuropsychol 2004;26:541563.
  • 5
    Brockway JP. Two functional magnetic resonance imaging f(MRI) tasks that may replace the gold standard, Wada testing, for language lateralization while giving additional localization information. Brain Cogn 2000;43:5759.
  • 6
    Woermann FG, Jokeit H, Luerding R, et al. Language lateralization by Wada test and fMRI in 100 patients with epilepsy. Neurology 2003;61:699701.
  • 7
    Lehericy S, Cohen L, Bazin B, et al. Functional MR evaluation of temporal and frontal language dominance compared with the Wada test. Neurology 2000;54:16251633.
  • 8
    Bazin B, Cohen L, Lehericy S, et al. Study of hemispheric lateralization of the language regions by functional MRI: validation with the Wada test. Rev Neurol 2000;156:145148.
  • 9
    Binder JR, Swanson SJ, Hammeke TA, et al. Determination of language dominance using functional MRI: a comparison with the Wada test. Neurology 1996;46:978984.
  • 10
    Booth JR, Burman DD, Meyer JR, et al. Relation between brain activation and lexical performance. Hum Brain Mapp 2003;19:155169.
  • 11
    Chee MWL, Hon N, Lee HL, et al. Relative language proficiency modulates BOLD signal change when bilinguals perform semantic judgments. Neuroimage 2001;13:11551163.
  • 12
    Drager B, Jansen A, Bruchmann S, et al. How does the brain accommodate to increased task difficulty in word finding? A functional MRI study. Neuroimage 2004;23:11521160.
  • 13
    Schlaggar BL, Brown TT, Lugar HM, et al. Functional neuroanatomical differences between adults and school-age children in the processing of single words. Science 2002;296:14761479.
  • 14
    Brown TT, Lugar HM, Coalson RS, et al. Developmental changes in human cerebral functional organization for word generation. Cereb Cortex 2005;15:275290.
  • 15
    Wood AG, Harvey AS, Wellard RM, et al. Language cortex activation in normal children. Neurology 2004;63:10351044.
  • 16
    Elger CE, Helmstaedter C, Kurthen M. Chronic epilepsy and cognition. Lancet Neurol 2004;3:663672.
  • 17
    Fernández G, De Greiff A, Von Oertzen J, et al. Language mapping in less than 15 minutes: real-time functional MRI during routine clinical investigation. Neuroimage 2001;14:585594.
  • 18
    Fernández G, De Greiff A, Von Oertzen J, et al. Language mapping in less than 15 minutes: real-time functional MRI during routine clinical investigation. Neuroimage 2001;14:585594.
  • 19
    Fu CHY, Morgan K, Suckling J, et al. A functional magnetic resonance imaging study of overt letter verbal fluency using a clustered acquisition sequence: greater anterior cingulate activation with increased task demand. Neuroimage 2002;17:871879.
  • 20
    Hillis AE, Wityk RJ, Tuffiash E, et al. Hypoperfusion of Wernicke's area predicts severity of semantic deficit in acute stroke. Ann Neurol 2001;50:561566.
  • 21
    Harasty JA, Halliday GM, Kril JJ, et al. Specific temporoparietal gyral atrophy reflects the pattern of language dissolution in Alzheimer's disease. Brain 1999;122:675686.
  • 22
    Vandenberghe R, Price C, Wise R, et al. Functional anatomy of a common semantic system for words and pictures. Nature 1996;383:254256.
  • 23
    Muller RA, Kleinhans N, Courchesne E. Linguistic theory and neuroimaging evidence: an fMRI study of Broca's area in lexical semantics. Neuropsychologia 2003;41:11991207.
  • 24
    Noppeney U, Phillips J, Price C. The neural areas that control the retrieval and selection of semantics. Neuropsychologia 2004;42:12691280.
  • 25
    Binder JR, Liebenthal E, Possing ET, et al. Neural correlates of sensory and decision processes in auditory object identification. Nat Neurosci 2004;7:295301.
  • 26
    Fernández G, Specht K, Weis S, et al. Intrasubject reproducibility of presurgical language lateralization and mapping using fMRI. Neurology 2002;60:969975.
  • 27
    Langdon D, Warrington EK. The role of the left hemisphere in verbal and spatial reasoning tasks. Cortex 2000;36:691702.
  • 28
    Oyegbile TO, Dow C, Jones J, et al. The nature and course of neuropsychological morbidity in chronic temporal lobe epilepsy. Neurology 2004;62:17361742.
  • 29
    Jokeit H, Ebner A. Effects of chronic epilepsy on intellectual functions. Prog Brain Res 2002;135:455463.
  • 30
    Helmstaedter C, Kemper B, Elger CE. Neuropsychological aspects of frontal lobe epilepsy. Neuropsychologia 1996;34:399406.
  • 31
    Verhaeghen P. Aging and vocabulary scores: a meta-analysis. Psychol Aging 2003;18:332339.
  • 32
    Birren JE, Fisher LM. Aging and speed of behaviour: possible consequences for psychological functioning. Annu Rev Psychol 1995;46:329353.
  • 33
    Verhaeghen P, Cerella J. Aging, executive control, and attention: a review of meta-analyses. Neurosci Biobehav Rev 2002;26:849857.
  • 34
    Szaflarski JP, Binder JR, Possing ET, et al. Language lateralization in left-handed and ambidextrous people: fMR1 data. Neurology 2002;59:238244.
  • 35
    Knecht S, Drager B, Deppe M, et al. Handedness and hemispheric language dominance in healthy humans. Brain 2000;123:25122518.
  • 36
    Rasmussen T, Milner B. The role of early left-brain injury in determining lateralization of cerebral speech functions. Ann N Y Acad Sci 1977;299:355369.
  • 37
    Janszky J, Jokeit H, Heinemann D, et al. Epileptic activity and the organization of speech. Epilepsia 2003;44:4546.
  • 38
    Janszky J, Jokeit H, Heinemann D, et al. Epileptic activity influences the speech organization in medial temporal lobe epilepsy. Brain 2003;126:20432051.
  • 39
    Dolcos F, Rice HJ, Cabeza R. Hemispheric asymmetry and aging: right hemisphere decline or asymmetry reduction. Neurosci Biobehav Rev 2002;26:819825.
  • 40
    Specht K, Willmes K, Shah NJ, et al. Assessment of reliability in functional imaging studies. J Magn Reson Imaging 2003;17:463471.
  • 41
    Gaillard WD, Balsamo L, Xu B, et al. fMRI language task panel improves determination of language dominance. Neurology 2004;63:14031408.
  • 42
    Gaillard WD, Balsamo LM, Ibrahim Z, et al. fMRI identifies regional specialization of neural networks for reading in young children. Neurology 2003;60:94100.
  • 43
    Deblaere K, Backes WH, Hofman P, et al. Developing a comprehensive presurgical functional MRI protocol for patients with intractable temporal lobe epilepsy: a pilot study. Neuroradiology 2002;44:667673.
  • 44
    Stippich C, Mohammed J, Kress B, et al. Robust localization and lateralization of human language function: an optimized clinical functional magnetic resonance imaging protocol. Neurosci Lett 2003;346:109113.