Abstract
The N400, a component of the event-related potential (ERP) associated with the processing of meaning, is sensitive to a wide array of lexico-semantic, sentence-level, and discourse-level manipulations across modalities. In sentence contexts, N400 amplitude varies inversely and nearly linearly with the predictability of a word in its context. However, recent theories and empirical evidence from studies employing the visual half-field technique (to selectively bias processing to one cerebral hemisphere) suggest that the two hemispheres use sentence context information in different ways. Thus, each hemisphere may not respond to manipulations of contextual predictability in an equivalent manner. This possibility was investigated by recording ERPs while presenting [in the left and right visual fields (VFs)] sentence-final words that varied over the full range of sentence-level predictability. RVF/left hemisphere items were facilitated (as evidenced by reduced N400 amplitudes) over a broader range of predictability compared with LVF/right hemisphere items, although both strongly predictable and completely unexpected items evoked similar responses in each VF/hemisphere. Further, the pattern of N400 amplitudes over the full range of predictability significantly differed from a linear response function for both VFs/hemispheres. This suggests that the N400 response recorded with standard central field presentation comprises different contributions from both cerebral hemispheres, neither of which on its own is sensitive to contextual predictability in an evenly graded manner. These data challenge the notion of a singular or unitary mode of comprehension and instead support the view that the left and right hemispheres instantiate unique, complementary language comprehension architectures in parallel.
Highlights
One of the most salient aspects of brain organization is its division into two largely symmetric – but functionally complementary – cerebral hemispheres
Because of the striking language disturbances associated with left hemisphere (LH)-damage-based aphasia, more than 100 years passed before neuropsychologists systematically described more subtle, yet consistent language impairments caused by right hemisphere (RH) damage
We suggest that the systematic inverse relationship between N400 amplitude and sentence-level predictability arises out of unique contributions from the two hemispheres, neither of which on its own is responsive to expectancy/predictability in an evenly graded manner
Summary
One of the most salient aspects of brain organization is its division into two largely symmetric – but functionally complementary – cerebral hemispheres. Basic language comprehension and production processes generally remain intact, RH patients often demonstrate difficulties with pragmatic or para-linguistic aspects of language, such as understanding humor, inferences, and thematic elements of narratives (Brownell et al, 1983; Gardner et al, 1983; Brownell and Martino, 1998). These findings ignited interest in the role of the RH in normal language functioning
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