Optimal Word Reading Rate as Evidenced by Frequency-tagging Electrophysiology.

Abstract

Fast periodic visual stimulation (FPVS) coupled with EEG has been used for a decade to measure word-selective neural responses in (a)typical adults and developmental readers. Here, we used this FPVS-EEG approach to evaluate suitable and optimal stimulation frequency rates for prelexical and lexical word-selective responses and relate these rates to typical reading speed and interindividual variability in reading performance. EEG was recorded in 41 healthy adults who viewed words inserted periodically (1 Hz) at four different stimulation frequency rates (4 Hz, 6 Hz, 10 Hz, and 20 Hz). At all these stimulation rates but the highest (20 Hz), we found typical left-lateralized, word-selective, occipito-temporal responses, larger for the prelexical (words in nonwords) than lexical (words in pseudowords) contrast. Although significant responses were found at all frequency rates, these responses were negligible at 20 Hz, without any evidence of left lateralization at this frequency. The largest occipito-temporal response was found at a 4-Hz base rate in both hemispheres for the prelexical contrast, with increased left lateralization for the lexical discrimination. Moreover, word-selective responses for this discrimination (lexical), only at 4 Hz, were related to reading speed. The optimal 4-Hz rate finding is in line with the mean reading speed for expert readers as assessed during text reading. Overall, these findings further validate and optimize the FPVS-EEG approach for rapid implicit measurement of word-selective neural responses.