Ellen Lau scite author profile

Measuring event-related potentials (ERPs) has been fundamental to our understanding of how language is encoded in the brain. One particular ERP response, the N400 response, has been especially influential as an index of lexical and semantic processing. However, there remains a lack of consensus on the interpretation of this component. Resolving this issue has important consequences for neural models of language comprehension. Here we show that evidence bearing on where the N400 response is generated provides key insights into what it reflects. A neuroanatomical model of semantic processing is used as a guide to interpret the pattern of activated regions in functional MRI, magnetoencephalography and intracranial recordings that are associated with contextual semantic manipulations that lead to N400 effects.

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Agreement attraction in comprehension: Representations and processes

Wagers

Lau

Phillips

2009

Journal of Memory and Language

393

702

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Dissociating N400 Effects of Prediction from Association in Single-word Contexts

2013

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When a word is preceded by a supportive context such as a semantically associated word or a strongly constraining sentence frame, the N400 component of the ERP is reduced in amplitude. An ongoing debate is the degree to which this reduction reflects a passive spread of activation across long-term semantic memory representations as opposed to specific predictions about upcoming input. We addressed this question by embedding semantically associated prime-target pairs within an experimental context that encouraged prediction to a greater or lesser degree. The proportion of related items was used to manipulate the predictive validity of the prime for the target while holding semantic association constant. A semantic category probe detection task was used to encourage semantic processing and to preclude the need for a motor response on the trials of interest. A larger N400 reduction to associated targets was observed in the high than the low relatedness proportion condition, consistent with the hypothesis that predictions about upcoming stimuli make a substantial contribution to the N400 effect. We also observed an earlier priming effect (205–240 ms) in the high proportion condition, which may reflect facilitation due to form-based prediction. In sum, the results suggest that predictability modulates N400 amplitude to a greater degree than the semantic content of the context.

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Ellen Lau

A cortical network for semantics: (de)constructing the N400

Agreement attraction in comprehension: Representations and processes

Dissociating N400 Effects of Prediction from Association in Single-word Contexts

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