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Visual word form area

The visual word form area (VWFA) is a functional region of the left fusiform gyrus and surrounding cortex that is hypothesized to be involved in identifying words and letters from lower-level shape images, prior to association with phonology or semantics. Because the alphabet is relatively new in human evolution, it is unlikely that this region developed as a result of selection pressures related to word recognition per se; however, this region may be highly specialized for certain types of shapes that occur naturally in the environment and are therefore likely to surface within written language.

Visual word form hypotheses
Pre-lexical visual word form hypothesis Put forward by Cohen and colleagues (2000). The basics of this theory state that the neurons in the ventral occipital-temporal cortex (vOT) – which the posterior fusiform gyrus is a part of – have receptive fields that are sensitive to bigrams, or two letter combinations that commonly occur in words. The neurons sense and process the bigrams, to detect their legality. Here the posterior left fusiform gyrus (part of the vOT), is thought to be one station in a long line of processing areas. The processing starts with visual feature detectors in extrastriate cortex, proceeding through letter detectors and letter-cluster detectors in the posterior fusiform, and then activating lexical representations stored in more anterior multimodal fusiform area. The theory states the function of the VWFA is pre-lexical as it occurs before the word is understood to have meaning. Lexical visual word form hypothesis Put forward by Kronbilcher et al. (2004), was based on functional imaging data that showed, in a parametric fMRI study, that a decrease in activation in the left fusiform gyrus was seen in response to an increase in the frequency of the word - where the frequency is how common the word is. This data refutes the previous pre-lexical theory as if the VWFA was pre-lexical one would expect equal activation throughout all frequencies. Instead a lexical theory was proposed where the left fusiform gyrus neurons are thought to detect words by attempting to match them to stored representations of known words. This would explain the data as more common words would take less time to detect than the less common words, reducing the energy needed for computation and therefore potentially reducing the magnitude of the haemodynamic response that is detected by BOLD fMRI. A recent intracranial electrocorticography study shows that the activity in the VWFA goes through multiple stages of processing. Using classification with direct neural recordings from the VWFA, Hirshorn et al. showed that early VWFA activity, from approximately 100-250 milliseconds after reading a word, is consistent with a pre-lexical representation and later activity, from approximately 300-500 milliseconds is consistent with a lexical representation. These results potentially mediate between the pre-lexical and lexical hypotheses by showing that both levels of representation may be seen in the VWFA, but at different latencies after reading a word. Previous studies using fMRI did not have the temporal resolution to differentiate between these two stages. == Alternative functions for the cortical area ascribed to the VWFA ==
Alternative functions for the cortical area ascribed to the VWFA
Devlin et al. (2006) VWFA involvement appears to depend partly on the visual complexity of a stimulus, and it appears to process recognizable visual stimuli that are grouped together. This may explain why "letter by letter" reading is still possible even when the VWFA suffers lesions that otherwise interfere with fluid reading ability. This may also address why the VWFA is activated even more strongly by line drawings and Amharic characters than by written words familiar to study participants. == Involvement in Hyperlexia and Dyslexia ==
Involvement in Hyperlexia and Dyslexia
Hyperlexia Some research suggests that children with autism spectrum disorders (ASD) may rely more heavily on visual perception areas—including the VWFA—and less heavily on phonological areas during reading tasks compared to non-ASD children. Greater activation of the VWFA may be particularly significant in children with hyperlexia, or reading ability beyond one's training. Hyperlexia is thought to be associated with ASD, with estimates of prevalence in autistic children ranging from 6 to 20.7%. This region is active during early stages of reading development, while a non-ASD child of the subject's reading level would be expected to make less use of this region in favor of phonological ("letter-to-sound") processes. These reading difficulties may also be related to poor connectivity between the VWFA and associated regions in the parietal cortex responsible for visual attention. ==See also==
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