Electrophysiological correlates of grapheme-phoneme conversion

The cortical processes underlying grapheme-phoneme conversion were investigated by event-related potentials (ERPs). The task consisted of silent reading or vowel-matching of three Japanese hiragana characters, each representing a consonant-vowel syllable. At earlier latencies, typical components of the visual ERP, namely, P1 (110 ms), N1 (170 ms) and P2 (300 ms), were elicited in the temporo-occipital area for both tasks as well as control task (observing the orthographic shapes of three Korean characters). Following these earlier components, two sustained negativities were identified. The earlier sustained negativity, referred here to as SN1, was found in both the silent-reading and vowel-matching task but not in the control task. The scalp distribution of SN1 was over the left occipito-temporal area, with maximum amplitude over O1. The amplitude of SN1 was larger in the vowel-matching task compared to the silent-reading task, consistent with previous reports that ERP amplitude correlates with task difficulty. SN2, the later sustained negativity, was only observed in the vowel-matching task. The scalp distribution of SN2 was over the midsagittal centro-parietal area with maximum amplitude over Cz. Elicitation of SN2 in the vowel-matching task suggested that the vowel-matching task requires a wider range of neural activities exceeding the established conventional area of language processing.

[1]  Y. Sakurai,et al.  Pure alexia from a posterior occipital lesion , 2001, Neurology.

[2]  S. Pickering,et al.  Research Section: Working memory deficits in children with special educational needs , 2003 .

[3]  Frank Rösler,et al.  Topography of brain electrical activity dissociates the sequential order transformation of verbal versus spatial information in humans , 2000, Neuroscience Letters.

[4]  H. Swanson Short-Term Memory and Working Memory , 1994, Journal of learning disabilities.

[5]  D. Shankweiler,et al.  Explicit Syllable and Phoneme Segmentation in the Young Child , 1974 .

[6]  Michael D. Rugg,et al.  Event-related potentials and the interaction between orthographic and phonological information in a rhyme-judgment task , 1987, Brain and Language.

[7]  R. Wagner,et al.  The nature of phonological processing and its causal role in the acquisition of reading skills. , 1987 .

[8]  Brigitte Röder,et al.  Slow negative brain potentials as reflections of specific modular resources of cognition , 1997, Biological Psychology.

[9]  Nancy K. Squires,et al.  Phonological Processing and the Role of Strategy in Silent Reading: Behavioral and Electrophysiological Evidence , 1996, Brain and Language.

[10]  R. Zenhausern,et al.  Grapheme to phoneme conversion: the basis of reading disability? , 1983, The International journal of neuroscience.

[11]  I. Kanazawa,et al.  Cortical activity associated with vocalization and reading proper. , 2001, Brain research. Cognitive brain research.

[12]  A. Baddeley Exploring the Central Executive , 1996 .

[13]  Yukihiko Fujii,et al.  Planum Temporale: Where Spoken and Written Language Meet , 2001, European Neurology.

[14]  M. Valdés-Sosa,et al.  Brain potentials in a phonological matching task using Chinese characters , 1993, Neuropsychologia.

[15]  Bruno Rossion,et al.  Early lateralization and orientation tuning for face, word, and object processing in the visual cortex , 2003, NeuroImage.

[16]  Michael D. Rugg,et al.  Event-related potentials in phonological matching tasks , 1984, Brain and Language.

[17]  Yukihiko Fujii,et al.  Brain strategies for reading in the second language are determined by the first language , 2001, Neuroscience Research.

[18]  P. Bryant,et al.  Categorizing sounds and learning to read—a causal connection , 1983, Nature.

[19]  T. Givón,et al.  Brain Plasticity in Learning Visual Words , 1997, Cognitive Psychology.

[20]  H G Vaughan,et al.  Topography of visual event-related potentials during geometric and phonetic discriminations. , 1986, Electroencephalography and clinical neurophysiology.

[21]  L. Siegel Phonological processing deficits and reading disabilities. , 1998 .

[22]  S. Gathercole Cognitive approaches to the development of short-term memory , 1999, Trends in Cognitive Sciences.

[23]  J. Oakhill,et al.  The relation between phonological awareness and working memory. , 2000, Journal of experimental child psychology.

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