Masked priming paradigm reveals automatic processes in visual word recognition: An ERP study (CROSBI ID 599945)
Prilog sa skupa u zborniku | sažetak izlaganja sa skupa | domaća recenzija
Podaci o odgovornosti
Palmović, Marijan ; Kuvač Kraljević, Jelena ; Hržica, Gordana ; Padovan, Nevena ; Jerbić, Ana Branka
engleski
Masked priming paradigm reveals automatic processes in visual word recognition: An ERP study
Masked priming paradigm has been used to study automatic processes related to visual word recognition since 1980-ties. The strength and the robustness of the priming effect in a masked priming experiment proved to be larger than in semantic or associative priming (Evett & Humphreys, 1981, Forster & Davis, 1984). During the last 15 years the masked priming paradigm has established as a reliable tool to study automatic processes, primarily orthographic, phonological and morphological. In this study we examined early processes in visual word recognition. Recent studies emphasize the importance of occipito-parietal cortex and, in particular, left fusifom gyrus (Dehaene et al., 2001) in extracting orthographic and phonological information unconsciously, during the exposure to the stimulus that precedes the target word by 50- 80 ms and is masked with the "########" symbols before and after its presentation. In a classical lexical decision task we manipulated graphical properties of the masked prime: it consisted of the identical word/pseudoword in the base condition. In two other conditions the masked prime had all the junctions and edges (L and T shaped parts of letters) either deleted or preserved (with the straight lines deleted). In these conditions exactly 50% of pixels of each letter were deleted. All pseudowords were generated by the OLD20 algorithm with the index of distance between words and pseudowords ≥2 (either two letters differ, or two letter positions or a combination of these) with the letter and bigram frequencies kept equal between words and pseudowords. The results clearly dissociate orthographic and lexical retrieval processes both in terms of different latencies and different scalp distribution. While a common N400 effect has been obtained in all pseudoword conditions (with three graphically different primes), the difference in primes shows an early effect in N1P1 (?) complex on the parietal and occipital electrode sites. These results are consistent with the current models of visual word recognition and may be further used in e.g. studying dyslexia.
ERP ; masked priming ; visual word recognition
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Podaci o prilogu
66-66.
2013.
objavljeno
Podaci o matičnoj publikaciji
Zagreb: Hrvatsko društvo za neuroznanost ; Hrvatski institut za istraživanje mozga Medicinskog fakulteta Sveučilišta u Zagrebu
Podaci o skupu
4th Croatian Congress of Neuroscience
poster
20.09.2013-21.09.2013
Zagreb, Hrvatska