Activation of Lateral Extrastriate Areas during Orthographic Processing of Japanese Characters Studied with fMRI

We investigated the early orthographic processing in the occipital cortex using Japanese morphogram by functional magnetic resonance imaging. Kanji (Japanese morphogram) is one system of character used in the Japanese language, each character of which has a specific meaning and pronunciations. To ensure that the effects of the general visual properties of Kanji were excluded from Kanji-related activation, we created strict control stimuli, the "scrambled Kanji" that had the same luminance, contrast, and retinotopical size as those of the original Kanji. In the Kanji vs scrambled Kanji task, we found significant activation in the left inferior occipital gyrus. However, we found no activation in earlier visual cortices, including the primary visual cortex, indicating that the scrambled Kanji served as an effective control stimulus for this task. In the Kanji vs blank screen task, much more areas, including earlier visual cortices, were activated. The activation that we found in the Kanji vs scrambled Kanji task was compatible with the results of previous studies of English letter strings by other groups, suggesting that the left inferior occipital gyrus plays an essential role in orthographic processing common to these two different writing systems.

[1]  Hideaki Koizumi,et al.  Transient brain activity used in magnetic resonance imaging to detect functional areas , 1996, Neuroreport.

[2]  Y. Miyashita,et al.  No‐go dominant brain activity in human inferior prefrontal cortex revealed by functional magnetic resonance imaging , 1998, The European journal of neuroscience.

[3]  K Takeda,et al.  Kanji word reading process analysed by positron emission tomography. , 1992, Neuroreport.

[4]  B. Horwitz,et al.  Phonological and orthographic components of word recognition. A PET-rCBF study. , 1997, Brain : a journal of neurology.

[5]  A. Damasio,et al.  The anatomic basis of pure alexia , 1983, Neurology.

[6]  Paul W. B. Atkins,et al.  Models of reading aloud: Dual-route and parallel-distributed-processing approaches. , 1993 .

[7]  Y. Miyashita,et al.  Transient activation of inferior prefrontal cortex during cognitive set shifting , 1998, Nature Neuroscience.

[8]  Karl J. Friston,et al.  Cognitive Conjunction: A New Approach to Brain Activation Experiments , 1997, NeuroImage.

[9]  S. Jay Samuels,et al.  Toward a theory of automatic information processing in reading , 1974 .

[10]  H Koizumi,et al.  Functional mapping of the human colour centre with echo-planar magnetic resonance imaging , 1995, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[11]  M Tamai,et al.  Effect of kanji and kana reading on cerebral blood flow patterns measured by PET. , 1995, Japanese journal of ophthalmology.

[12]  L. Katz,et al.  Cerebral organization of component processes in reading. , 1996, Brain : a journal of neurology.

[13]  C. J. Price,et al.  The Effect of Varying Stimulus Rate and Duration on Brain Activity during Reading , 1996, NeuroImage.

[14]  Richard S. J. Frackowiak,et al.  Brain activity during reading. The effects of exposure duration and task. , 1994, Brain : a journal of neurology.

[15]  Morihiro Sugishita,et al.  Visual processes in a hemialexic patient with posterior callosal section , 1987, Neuropsychologia.

[16]  Hideaki Fujita,et al.  Left supramarginal/angular gyri activation during reading of syllabograms in the Japanese language , 1991, Journal of Neurolinguistics.

[17]  James L. McClelland,et al.  An interactive activation model of context effects in letter perception: I. An account of basic findings. , 1981 .

[18]  Karl J. Friston,et al.  Analysis of fMRI Time-Series Revisited—Again , 1995, NeuroImage.

[19]  M. Sugishita,et al.  Lexical agraphia in the Japanese language. Pure agraphia for Kanji due to left posteroinferior temporal lesions. , 1989, Brain : a journal of neurology.

[20]  Makoto Iwata,et al.  Reading of ideograms and phonograms in Japanese patients after partial commissurotomy , 1978, Neuropsychologia.

[21]  N. Geschwind Disconnexion syndromes in animals and man. I. , 1965, Brain : a journal of neurology.

[22]  S. Bookheimer,et al.  Regional cerebral blood flow during object naming and word reading , 1995 .

[23]  S. Petersen,et al.  Activation of extrastriate and frontal cortical areas by visual words and word-like stimuli. , 1990, Science.

[24]  I. Kanazawa,et al.  Semantic process in kana word reading: activation studies with positron emission tomography. , 1993, Neuroreport.

[25]  R. C. Oldfield The assessment and analysis of handedness: the Edinburgh inventory. , 1971, Neuropsychologia.

[26]  H Koizumi,et al.  Functional Mapping of the Human Somatosensory Cortex with Echo‐Planar MRI , 1995, Magnetic resonance in medicine.

[27]  T. Allison,et al.  Differential Sensitivity of Human Visual Cortex to Faces, Letterstrings, and Textures: A Functional Magnetic Resonance Imaging Study , 1996, The Journal of Neuroscience.

[28]  S E Petersen,et al.  The processing of single words studied with positron emission tomography. , 1993, Annual review of neuroscience.