Disturbance and recovery of language function: correlates in PET activation studies

Disturbance of neurologic function in disorders of the central nervous system is expressed as an altered activation pattern in functional networks employed by specific tasks and can be studied by functional imaging modalities, e.g., positron emission tomography. Language, a complex brain function, is based on the interplay of a distributed network in which partial functions are executed in various centers, the primary language areas. These areas are hierarchically organized and activated according to the complexity of the specific language task. The specialization of different centers and the lateralization of integrative functions into the dominant (usually left) hemisphere are achieved by collateral and transcallosal inhibition of secondary language areas which normally are not employed for performance of a specific language task.

[1]  P. Rossini,et al.  Motor cortical disinhibition in the unaffected hemisphere after unilateral cortical stroke. , 2002, Brain : a journal of neurology.

[2]  C. Price,et al.  Mechanisms of recovery from aphasia: evidence from positron emission tomography studies , 1999, Journal of neurology, neurosurgery, and psychiatry.

[3]  Cornelius Weiller,et al.  Recovery of motor and language abilities after stroke: the contribution of functional imaging , 2002, Progress in neurobiology.

[4]  H. Karbe,et al.  Differential capacity of left and right hemispheric areas for compensation of poststroke aphasia , 1999, Annals of neurology.

[5]  Daniel B Hier,et al.  Motor recovery after stroke: Lessons from functional brain imaging , 2002, Neurological research.

[6]  R L Hewer,et al.  Aphasia after stroke: natural history and associated deficits. , 1986, Journal of neurology, neurosurgery, and psychiatry.

[7]  Giorgio M. Innocenti,et al.  Some new trends in the study of the corpus callosum , 1994, Behavioural Brain Research.

[8]  W D Heiss,et al.  Cerebral glucose metabolism as a predictor of recovery from aphasia in ischemic stroke. , 1993, Archives of neurology.

[9]  J. Rothwell,et al.  Effects on the right motor hand‐area excitability produced by low‐frequency rTMS over human contralateral homologous cortex , 2003, The Journal of physiology.

[10]  R. Nudo,et al.  Neural Substrates for the Effects of Rehabilitative Training on Motor Recovery After Ischemic Infarct , 1996, Science.

[11]  H. Karbe,et al.  Brain Plasticity in Poststroke Aphasia: What Is the Contribution of the Right Hemisphere? , 1998, Brain and Language.

[12]  José M. Ferro,et al.  Recovery from Aphasia and Neglect , 1999, Cerebrovascular Diseases.

[13]  K Wienhard,et al.  Regional metabolic correlates of Token test results in cortical and subcortical left hemispheric infarction , 1989, Neurology.

[14]  B. Day,et al.  Interhemispheric inhibition of the human motor cortex. , 1992, The Journal of physiology.

[15]  F. Conti,et al.  The neurotransmitters and postsynaptic actions of callosally projecting neurons , 1994, Behavioural Brain Research.

[16]  O. Selnes The Ontogeny of Cerebral Language Dominance , 2000, Brain and Language.

[17]  L Bozzao,et al.  Motor recovery after stroke. Morphological and functional brain alterations. , 1996, Brain : a journal of neurology.

[18]  Cynthia K. Thompson,et al.  The Neurobiology of Language Recovery in Aphasia , 2000, Brain and Language.

[19]  K Herholz,et al.  Plasticity of language networks in patients with brain tumors: A positron emission tomography activation study , 2001, Annals of neurology.

[20]  Otto Muzik,et al.  Brain Organization of Language after Early Unilateral Lesion: A PET Study , 1998, Brain and Language.

[21]  D. Buonomano,et al.  Cortical plasticity: from synapses to maps. , 1998, Annual review of neuroscience.

[22]  A. Basso,et al.  The Role of the Right Hemisphere in Recovery from Aphasia. Two Case Studies , 1989, Cortex.

[23]  A. Galaburda,et al.  Individual variability in cortical organization: Its relationship to brain laterality and implications to function , 1990, Neuropsychologia.

[24]  G. Goldenberg,et al.  Influence of Size and Site of Cerebral Lesions on Spontaneous Recovery of Aphasia and on Success of Language Therapy , 1994, Brain and Language.

[25]  E. Metter Neuroanatomy and physiology of aphasia: Evidence from positron emission tomography , 1987 .

[26]  G Gainotti,et al.  The riddle of the right hemisphere's contribution to the recovery of language. , 1993, European journal of disorders of communication : the journal of the College of Speech and Language Therapists, London.

[27]  M. Corbetta,et al.  Neural correlates of recovery from aphasia after damage to left inferior frontal cortex , 2000, Neurology.

[28]  K P George,et al.  Cortical language activation in stroke patients recovering from aphasia with functional MRI. , 1999, Stroke.

[29]  Cornelius Weiller,et al.  Imaging recovery from stroke , 1998, Experimental Brain Research.

[30]  W D Heiss,et al.  Functional Imaging Correlates of Recovery after Stroke in Humans , 2000, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[31]  J. Fawcett,et al.  Regressive events in neurogenesis. , 1984, Science.

[32]  D. Walker-Batson,et al.  A Double-Blind, Placebo-Controlled Study of the Use of Amphetamine in the Treatment of Aphasia , 2001, Stroke.

[33]  W D Heiss,et al.  Piracetam Improves Activated Blood Flow and Facilitates Rehabilitation of Poststroke Aphasic Patients , 2000, Stroke.

[34]  K Herholz,et al.  Long-term prognosis of poststroke aphasia studied with positron emission tomography. , 1995, Archives of neurology.

[35]  K Herholz,et al.  Cerebral Glucose Metabolism as a Predictor of Rehabilitation After Ischemic Stroke , 1993, Stroke.

[36]  F. Aboitiz,et al.  Brain connections: interhemispheric fiber systems and anatomical brain asymmetries in humans. , 1992, Biological research.

[37]  R. G. Lee,et al.  Mechanisms Underlying Functional Recovery Following Stroke , 1995, Canadian Journal of Neurological Sciences / Journal Canadien des Sciences Neurologiques.

[38]  D. Knopman,et al.  Mechanisms of recovery from aphasia: Evidence from serial xenon 133 cerebral blood flow studies , 1984, Annals of neurology.

[39]  J. Orgogozo Piracetam in the Treatment of Acute Stroke , 1998 .

[40]  D. Perani,et al.  A PET Follow-up Study of Recovery after Stroke in Acute Aphasics , 1997, Brain and Language.

[41]  U. Ziemann,et al.  Hemispheric asymmetry of transcallosalinhibition in man , 2004, Experimental Brain Research.

[42]  Paul Bach-y-Rita,et al.  Brain plasticity as a basis for recovery of function in humans , 1990, Neuropsychologia.