图命名的视觉语言加工双流模型
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摘要
<正>三十多年前,Ungerleider和Mishkin根据恒河猴颞叶下部和顶叶损伤的不同行为,提出颞枕腹侧进行视觉物体识别,而背侧顶叶进行空间视觉加工的视觉双流模型~([1])。在人类,Duffau等~([2])在神经外科手术中实施直接电刺激的同时,让清醒患者图命名时观察到图命名产生的语义错语与视觉腹
引文
[1] Ungerleider LG, Mishkin M. Two cortical visual systems.In Ingle DJ, Goodale MA, Mansfield RJW(Eds.), Analysis of visual behavior[M]. Cambridge, MA:MIT Press,1982.549—586.
[2] Duffau H, Moritz-Gasser S, Mandonnet E. A re-examination of neural basis of language processing:Proposal of a dynamic hodotopical model from data provided by brain stimulation mapping during picture naming[J]. Brain Lang, 2014,131:1—10.
[3] Levelt WJ, Roelofs A, Meyer AS. A theory of lexical access in speech production[J]. Behav Brain Sci, 1999,22(1):1—38; discussion 38—75.
[4] Levelt WJ. Spoken word production:A theory of lexical access[J]. Proc Natl Acad Sci USA,2001,98(23):13464—13471.
[5]周晓林,庄捷,舒华.言语产生研究的理论框架[J].心理科学,2001,24(3):262—265.
[6] Bello L, Gallucci M, Fava M, et al. Intraoperative subcortical language tract mapping guides surgical removal of gliomas involving speech areas[J]. Neurosurgery, 2007,60(1):67—80, discussion 80—82.
[7] Gatignol P, Capelle L, Le Bihan R, et al. Double dissociation between picture naming and comprehension:An electrostimulation study[J]. Neuro Report, 2004,15:191—195.
[8] Laganaro M, Python G, Toepel U. Dynamics of phonological-phonetic encoding in word production:Evidence from diverging ERPs between stroke patients and controls[J]. Brain&Language, 2013,126:123—132.
[9] Matsumoto R, Nair DR, LaPresto E, et al. Functional connectivity in the human language system:A corticocortical evoked potential study[J]. Brain, 2004,127:2316—2330.
[10] Duffau H, Velut S, Mitchell MC, et al. Intra-operative mapping of the subcortical visual pathways using direct electrical stimulations[J]. Acta Neurochir(Wien), 2004,146(3):265—269, discussion 269—270.
[11] Nguyen HS, Sundaram SV, Mosier KM, et al. A method to map the visual cortex during an awake craniotomy[J]. J Neurosurg, 2011,114(4):922—926.
[12] Mandonnet E, Gatignol P, Duffau H. Evidence for an occipito-temporal tract underlying visual recognition in picture naming[J]. Clin Neurol Neurosurg, 2009,111(7):601—605.
[13] Gil Robles S,Carvallo A,Jimenez Mdel M, et al. Double dissociation between visual recognition and picture naming:a study of the visual language connectivity using tractography and brain stimulation[J]. Neurosurgery, 2013,72:678—686.
[14] Chan-Seng, E, Moritz-Gasser S, Duffau H. Awake mapping for low-grade gliomas involving the left sagittal stratum:anatomofunctional and surgical considerations[J]. J Neurosurg, 2014,120:1069—1077.
[15] Ungerleider LG, Haxby JV.“What”and“where”in the human brain[J]. Curr Opin Neurobiol,1994, 4(2):157—165.
[16] Martino J,De Witt Hamer PC,Berger MS, et al. Analysis of the subcomponents and cortical terminations of the perisylvian superior longitudinal fasciculus:a fiber dissection and DTI tractography study[J]. Brain Struct Funct, 2013,218(1):105—121.
[17] Duffau H, Herbet G, Moritz-Gasser S. Toward a pluri-component, multimodal, and dynamic organization of the ventral semantic stream in humans:lessons from stimulation mapping in awake patients[J]. Front Syst Neurosci, 2013,7:44.
[18] Martino J, De Witt Hamer PC, Vergani F, et al. Cortexsparing fiber dissection:An improved method for the study of white matter anatomy in the human brain[J]. J Anat,2011, 219(4):531—541.
[19] Martino J, Brogna C, Robles SG, et al. Anatomic dissection of the inferior fronto-occipital fasciculus revisited in the lights of brain stimulation data[J]. Cortex, 2010, 46:691—699.
[20] Duffau H, Thiebaut de Schotten M, Mandonnet E. White matter functional connectivity as an additional landmark for dominant temporal lobectomy[J]. J Neurol Neurosurg Psychiatry, 2008, 79(5):492—495.
[21] Binney RJ, Parker GJ,Lambon Ralph MA. Convergent connectivity and graded specialization in the rostral human temporal lobe as revealed by diffusion-weighted imaging probabilistic tractography[J]. J Cogn Neurosci, 2012,24:1998—2014.
[22] Jefferies E,Lambon Ralph MA. Semantic impairment in stroke aphasia versus semantic dementia:a case-series comparison[J]. Brain, 2006,129:2132—2147.
[23] Mehta S, Inoue K, Rudrauf D, et al. Segregation of anterior temporal regions critical for retrieving names of unique and non-unique entities reflects underlying long-range connectivity[J]. Cortex, 2016,75:1—19.
[24] De Witt Hamer PC, Moritz-Gasser S, Gatignol P, et al. Is the human left middle longitudinal fascicle essential for language? A brain electrostimulation study[J]. Hum Brain Mapp, 2011,32(6):962—973.
[25] Wilson SM, Isenberg AL, Hickok G. Neural correlates of word production stages delineated by parametric modulation of psycholinguistic variables[J]. Hum Brain Mapp, 2009,30(11):3596—3608.
[26] Catani M, Jones DK,ffytche DH. Perisylvian language networks of the human brain[J]. Ann Neurol,2005,57:8—16.
[27] Maldonado IL, Moritz-Gasser S, Duffau H. Does the left superior longitudinal fascicle subserve language semantics?A brain electrostimulation study[J]. Brain Struct Funct, 2011,216(3):263—274.
[28] Parker GJ, Luzzi S, Alexander DC, et al. Lateralization of ventral and dorsal auditory language pathways in the human brain[J]. Neuroimage, 2005,24(3):656—666.
[29] Vigneau M, Beaucousin V, HervéPY, et al. Meta-analyzing left hemisphere language areas:phonology, semantics,and sentence processing[J]. Neuroimage, 2006,30(4):1414—1432.
[31] van Geemen K, Herbet G, Moritz-Gasser S, et al. Limited plastic potential of the left ventral premotor cortex in speech articulation:evidence from intraoperative awake mapping in glioma patients[J]. Hum Brain Mapp, 2014,35:1587—1596.
[30] Duffau H, Gatignol P, Denvil D, et al. The articulatory loop:study of the subcortical connectivity by electrostimulation[J]. Neuroreport, 2003,14:2005—2008.
[32] Duffau H. Stimulation mapping of white matter tracts to study brain functional connectivity[J].Nat Rev Neurol, 2015,11:255—265.
[33] Baddeley A. Working memory[J]. Curr Biol, 2010,20(4):136—140.
[34] Paulesu E, Frith CD, Frackowiak RS. The neural correlates of the verbal component of working memory[J]. Nature,1993,362:342—345.
[35] Martino J, De Witt Hamer PC, Vergani F, et al. Cortexsparing fiber dissection:An improved method for the study of white matter anatomy in the human brain[J]. J Anat,2011,219(4):531—541.
[36] Price CJ, Devlin JT. The pro and cons of labelling a left occipitotemporal region:“the visual word form area”[J]. NeuroImage, 2004,22(1):477—479.
[37] Martino J, Brogna C, Robles SG, et al. Anatomic dissection of the inferior fronto-occipital fasciculus revisited in the lights of brain stimulation data[J]. Cortex, 2010,46:691—699.
[38] Han Z, Ma Y, Gong G, et al. White matter structural connectivity underlying semantic processing:evidence from brain damaged patients[J]. Brain, 2013,136:2952—2965.
[39] Sarubbo S, De Benedictis A, Maldonado IL, et al. Frontal terminations for the inferior fronto-occipital fascicle:anatomical dissection, DTI study and functional considerations on a multi-component bundle[J]. Brain Struct Funct,2013,218:21—37.
[40] Epelbaum S, Pinel P, Gaillard R, et al. Pure alexia as a disconnection syndrome. New diffusion imaging evidence for an old concept[J]. Cortex, 2008,44:962—974.
[41] Price CJ, Devlin JT. The interactive account of ventral occipitotemporal contributions to reading[J]. Trends Cogn Sci,2011,15(6):246—253.
[42] Ius T, Angelini E, Thiebaut de Schotten M, et al. Evidence for potentials and limitations of brain plasticity using an atlas of functional resectability of WHO grade II gliomas:Towards a minimal common brain[J]. Neuroimage,2011, 56(3):992—1000.
[2] Duffau H, Moritz-Gasser S, Mandonnet E. A re-examination of neural basis of language processing:Proposal of a dynamic hodotopical model from data provided by brain stimulation mapping during picture naming[J]. Brain Lang, 2014,131:1—10.
[3] Levelt WJ, Roelofs A, Meyer AS. A theory of lexical access in speech production[J]. Behav Brain Sci, 1999,22(1):1—38; discussion 38—75.
[4] Levelt WJ. Spoken word production:A theory of lexical access[J]. Proc Natl Acad Sci USA,2001,98(23):13464—13471.
[5]周晓林,庄捷,舒华.言语产生研究的理论框架[J].心理科学,2001,24(3):262—265.
[6] Bello L, Gallucci M, Fava M, et al. Intraoperative subcortical language tract mapping guides surgical removal of gliomas involving speech areas[J]. Neurosurgery, 2007,60(1):67—80, discussion 80—82.
[7] Gatignol P, Capelle L, Le Bihan R, et al. Double dissociation between picture naming and comprehension:An electrostimulation study[J]. Neuro Report, 2004,15:191—195.
[8] Laganaro M, Python G, Toepel U. Dynamics of phonological-phonetic encoding in word production:Evidence from diverging ERPs between stroke patients and controls[J]. Brain&Language, 2013,126:123—132.
[9] Matsumoto R, Nair DR, LaPresto E, et al. Functional connectivity in the human language system:A corticocortical evoked potential study[J]. Brain, 2004,127:2316—2330.
[10] Duffau H, Velut S, Mitchell MC, et al. Intra-operative mapping of the subcortical visual pathways using direct electrical stimulations[J]. Acta Neurochir(Wien), 2004,146(3):265—269, discussion 269—270.
[11] Nguyen HS, Sundaram SV, Mosier KM, et al. A method to map the visual cortex during an awake craniotomy[J]. J Neurosurg, 2011,114(4):922—926.
[12] Mandonnet E, Gatignol P, Duffau H. Evidence for an occipito-temporal tract underlying visual recognition in picture naming[J]. Clin Neurol Neurosurg, 2009,111(7):601—605.
[13] Gil Robles S,Carvallo A,Jimenez Mdel M, et al. Double dissociation between visual recognition and picture naming:a study of the visual language connectivity using tractography and brain stimulation[J]. Neurosurgery, 2013,72:678—686.
[14] Chan-Seng, E, Moritz-Gasser S, Duffau H. Awake mapping for low-grade gliomas involving the left sagittal stratum:anatomofunctional and surgical considerations[J]. J Neurosurg, 2014,120:1069—1077.
[15] Ungerleider LG, Haxby JV.“What”and“where”in the human brain[J]. Curr Opin Neurobiol,1994, 4(2):157—165.
[16] Martino J,De Witt Hamer PC,Berger MS, et al. Analysis of the subcomponents and cortical terminations of the perisylvian superior longitudinal fasciculus:a fiber dissection and DTI tractography study[J]. Brain Struct Funct, 2013,218(1):105—121.
[17] Duffau H, Herbet G, Moritz-Gasser S. Toward a pluri-component, multimodal, and dynamic organization of the ventral semantic stream in humans:lessons from stimulation mapping in awake patients[J]. Front Syst Neurosci, 2013,7:44.
[18] Martino J, De Witt Hamer PC, Vergani F, et al. Cortexsparing fiber dissection:An improved method for the study of white matter anatomy in the human brain[J]. J Anat,2011, 219(4):531—541.
[19] Martino J, Brogna C, Robles SG, et al. Anatomic dissection of the inferior fronto-occipital fasciculus revisited in the lights of brain stimulation data[J]. Cortex, 2010, 46:691—699.
[20] Duffau H, Thiebaut de Schotten M, Mandonnet E. White matter functional connectivity as an additional landmark for dominant temporal lobectomy[J]. J Neurol Neurosurg Psychiatry, 2008, 79(5):492—495.
[21] Binney RJ, Parker GJ,Lambon Ralph MA. Convergent connectivity and graded specialization in the rostral human temporal lobe as revealed by diffusion-weighted imaging probabilistic tractography[J]. J Cogn Neurosci, 2012,24:1998—2014.
[22] Jefferies E,Lambon Ralph MA. Semantic impairment in stroke aphasia versus semantic dementia:a case-series comparison[J]. Brain, 2006,129:2132—2147.
[23] Mehta S, Inoue K, Rudrauf D, et al. Segregation of anterior temporal regions critical for retrieving names of unique and non-unique entities reflects underlying long-range connectivity[J]. Cortex, 2016,75:1—19.
[24] De Witt Hamer PC, Moritz-Gasser S, Gatignol P, et al. Is the human left middle longitudinal fascicle essential for language? A brain electrostimulation study[J]. Hum Brain Mapp, 2011,32(6):962—973.
[25] Wilson SM, Isenberg AL, Hickok G. Neural correlates of word production stages delineated by parametric modulation of psycholinguistic variables[J]. Hum Brain Mapp, 2009,30(11):3596—3608.
[26] Catani M, Jones DK,ffytche DH. Perisylvian language networks of the human brain[J]. Ann Neurol,2005,57:8—16.
[27] Maldonado IL, Moritz-Gasser S, Duffau H. Does the left superior longitudinal fascicle subserve language semantics?A brain electrostimulation study[J]. Brain Struct Funct, 2011,216(3):263—274.
[28] Parker GJ, Luzzi S, Alexander DC, et al. Lateralization of ventral and dorsal auditory language pathways in the human brain[J]. Neuroimage, 2005,24(3):656—666.
[29] Vigneau M, Beaucousin V, HervéPY, et al. Meta-analyzing left hemisphere language areas:phonology, semantics,and sentence processing[J]. Neuroimage, 2006,30(4):1414—1432.
[31] van Geemen K, Herbet G, Moritz-Gasser S, et al. Limited plastic potential of the left ventral premotor cortex in speech articulation:evidence from intraoperative awake mapping in glioma patients[J]. Hum Brain Mapp, 2014,35:1587—1596.
[30] Duffau H, Gatignol P, Denvil D, et al. The articulatory loop:study of the subcortical connectivity by electrostimulation[J]. Neuroreport, 2003,14:2005—2008.
[32] Duffau H. Stimulation mapping of white matter tracts to study brain functional connectivity[J].Nat Rev Neurol, 2015,11:255—265.
[33] Baddeley A. Working memory[J]. Curr Biol, 2010,20(4):136—140.
[34] Paulesu E, Frith CD, Frackowiak RS. The neural correlates of the verbal component of working memory[J]. Nature,1993,362:342—345.
[35] Martino J, De Witt Hamer PC, Vergani F, et al. Cortexsparing fiber dissection:An improved method for the study of white matter anatomy in the human brain[J]. J Anat,2011,219(4):531—541.
[36] Price CJ, Devlin JT. The pro and cons of labelling a left occipitotemporal region:“the visual word form area”[J]. NeuroImage, 2004,22(1):477—479.
[37] Martino J, Brogna C, Robles SG, et al. Anatomic dissection of the inferior fronto-occipital fasciculus revisited in the lights of brain stimulation data[J]. Cortex, 2010,46:691—699.
[38] Han Z, Ma Y, Gong G, et al. White matter structural connectivity underlying semantic processing:evidence from brain damaged patients[J]. Brain, 2013,136:2952—2965.
[39] Sarubbo S, De Benedictis A, Maldonado IL, et al. Frontal terminations for the inferior fronto-occipital fascicle:anatomical dissection, DTI study and functional considerations on a multi-component bundle[J]. Brain Struct Funct,2013,218:21—37.
[40] Epelbaum S, Pinel P, Gaillard R, et al. Pure alexia as a disconnection syndrome. New diffusion imaging evidence for an old concept[J]. Cortex, 2008,44:962—974.
[41] Price CJ, Devlin JT. The interactive account of ventral occipitotemporal contributions to reading[J]. Trends Cogn Sci,2011,15(6):246—253.
[42] Ius T, Angelini E, Thiebaut de Schotten M, et al. Evidence for potentials and limitations of brain plasticity using an atlas of functional resectability of WHO grade II gliomas:Towards a minimal common brain[J]. Neuroimage,2011, 56(3):992—1000.