Spatiotemporal dynamics of orthographic and lexical processing in the ventral visual pathway

Reading is a rapid, distributed process that engages multiple components of the ventral visual stream. To understand the neural constituents and their interactions that allow us to identify written words, we performed direct intra-cranial recordings in a large cohort of humans. This allowed us to isolate the spatiotemporal dynamics of visual word recognition across the entire left ventral occipitotemporal cortex. We found that mid-fusiform cortex is the first brain region sensitive to lexicality, preceding the traditional visual word form area. The magnitude and duration of its activation are driven by the statistics of natural language. Information regarding lexicality and word frequency propagates posteriorly from this region to visual word form regions and to earlier visual cortex, which, while active earlier, show sensitivity to words later. Further, direct electrical stimulation of this region results in reading arrest, further illustrating its crucial role in reading. This unique sensitivity of mid-fusiform cortex to sub-lexical and lexical characteristics points to its central role as the orthographic lexicon-the long-term memory representations of visual word forms. Using intracranial recordings and stimulation, Woolnough et al. map in space and time the neural systems that enable us to read efficiently.

Automated summary

Through direct intra-cranial recordings, researchers identified the mid-fusiform cortex as the first brain region sensitive to lexicality, driven by natural language statistics; information regarding lexicality and word frequency propagates backward from this region to visual word form regions and earlier visual cortex, impacting reading efficiency.