Ekaterina Larionova scite author profile

Ekaterina Larionova

5Publications

27Citation Statements Received

204Citation Statements Given

How they've been cited

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292

191

Affiliations

Institute of Higher Nervous Activity and Neurophysiology, Tomsk Polytechnic University, Russian Academy of Sciences

Publications

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Frequency Effects on Spelling Error Recognition: An ERP Study

Larionova

Martynova

2022

Front. Psychol.

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Spelling errors are ubiquitous in all writing systems. Most studies exploring spelling errors focused on the phonological plausibility of errors. However, unlike typical pseudohomophones, spelling errors occur in naturally produced written language. We investigated the time course of recognition of the most frequent orthographic errors in Russian (error in an unstressed vowel in the root) and the effect of word frequency on this process. During event-related potentials (ERP) recording, 26 native Russian speakers silently read high-frequency correctly spelled words, low-frequency correctly spelled words, high-frequency words with errors, and low-frequency words with errors. The amplitude of P200 was more positive for correctly spelled words than for misspelled words and did not depend on the frequency of the words. In addition, in the 350–500-ms time window, we found a more negative response for misspelled words than for correctly spelled words in parietal–temporal-occipital regions regardless of word frequency. Considering our results in the context of a dual-route model, we concluded that recognizing misspelled high-frequency and low-frequency words involves common orthographic and phonological processes associated with P200 and N400 components such as whole word orthography processing and activation of phonological representations correspondingly. However, at the 500–700 ms stage (associated with lexical-semantic access in our study), error recognition depends on the word frequency. One possible explanation for these differences could be that at the 500–700 ms stage recognition of high-frequency misspelled and correctly spelled words shifts from phonological to orthographic processes, while low-frequency misspelled words are accompanied by more prolonged phonological activation. We believe these processes may be associated with different ERP components P300 and N400, reflecting a temporal overlap between categorization processes based on orthographic properties for high-frequency words and phonological processes for low-frequency words. Therefore, our results complement existing reading models and demonstrate that the neuronal underpinnings of spelling error recognition during reading may depend on word frequency.

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Theory of the reversible electrode process in case of cyclic voltammetry at finite thickness film electrode

Nazarov¹,

Larionova²,

Stromberg³

et al. 2007

Electrochemistry Communications

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Mu rhythm separation from the mix with alpha rhythm: Principal component analyses and factor topography

Garakh

Novototsky-Vlasov

Larionova

et al. 2020

Journal of Neuroscience Methods

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Top-down modulation of brain responses in spelling error recognition

2023

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Event-related potentials during literacy acquisition

Rebreikina

Larionova

Martynova

2020

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Literacy is a complex and multidimensional phenomenon that has been well studied in psychology and pedagogy. Neurophysiologists try to understand the mechanisms of writing and reading acquisition by analyzing different linguistic processes. In this paper, we review the data that were revealed by using the event-related potentials (ERPs) method in the light of spelling, lexical, semantic and syntactic aspects of literacy, as well as changes in the components of ERPs in children and adults during language acquisition and in dyslexia, the most studied reading disorder. The ERPs method can help to understand both the general, universal neural underpinnings of literacy development and the unique features of different languages.

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