Abstract
While part of the left ventral occipito-temporal cortex (left-vOT), known as the Visual Word Form Area, plays a central role in reading, the area also responds to speech. This cross-modal activation has been explained by three competing hypotheses. Firstly, speech is converted to orthographic representations that activate, in a top-down manner, written language coding neurons in the left-vOT. Secondly, the area contains multimodal neurons that respond to both language modalities. Thirdly, the area comprises functionally segregated neuronal populations that selectively encode different language modalities. A transcranial magnetic stimulation (TMS)-adaptation protocol was used to disentangle these hypotheses. During adaptation, participants were exposed to spoken or written words in order to tune the initial state of left-vOT neurons to one of the language modalities. After adaptation, they performed lexical decisions on spoken and written targets with TMS applied to the left-vOT. TMS showed selective facilitatory effects. It accelerated lexical decisions only when the adaptors and the targets shared the same modality, i.e., when left-vOT neurons had initially been adapted to the modality of the target stimuli. Since this within-modal adaptation was observed for both input modalities and no evidence for cross-modal adaptation was found, our findings suggest that the left-vOT contains neurons that selectively encode written and spoken language rather than purely written language coding neurons or multimodal neurons encoding language regardless of modality.
Highlights
IntroductionThe ventral part of the left occipito-temporal cortex (left-vOT) has been argued to play a key role in reading (see Dehaene and Cohen, 2011 for a review)
The ventral part of the left occipito-temporal cortex has been argued to play a key role in reading
Preliminary inspection of the reaction times (RTs) on correct trials in the lexical decision task led us to discard deviant RTs, i.e., those longer or shorter than the mean RT observed on correct trials plus or minus 2SD (5% of the data), from further analyses
Summary
The ventral part of the left occipito-temporal cortex (left-vOT) has been argued to play a key role in reading (see Dehaene and Cohen, 2011 for a review). According to the ‘orthographic tuning hypothesis’ proposed by Dehaene and colleagues (Cohen et al, 2004; Dehaene et al, 2005; Dehaene and Cohen, 2011), the left-vOT contains neuronal circuitry that becomes progressively specialized for orthographic coding through reading experience. Based on this hypothesis, left-vOT neurons are selectively tuned to written language input. As argued by the authors, orthographic coding neurons could be activated in a top-down fashion by spoken input once the input has been converted into an orthographic code (Dehaene and Cohen, 2011; Dehaene et al, 2015, see Fig. 1a)
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