Abstract
Language processing engages large‐scale functional networks in both hemispheres. Although it is widely accepted that left perisylvian regions have a key role in supporting complex grammatical computations, patient data suggest that some aspects of grammatical processing could be supported bilaterally. We investigated the distribution and the nature of grammatical computations across language processing networks by comparing two types of combinatorial grammatical sequences—inflectionally complex words and minimal phrases—and contrasting them with grammatically simple words. Novel multivariate analyses revealed that they engage a coalition of separable subsystems: inflected forms triggered left‐lateralized activation, dissociable into dorsal processes supporting morphophonological parsing and ventral, lexically driven morphosyntactic processes. In contrast, simple phrases activated a consistently bilateral pattern of temporal regions, overlapping with inflectional activations in L middle temporal gyrus. These data confirm the role of the left‐lateralized frontotemporal network in supporting complex grammatical computations. Critically, they also point to the capacity of bilateral temporal regions to support simple, linear grammatical computations. This is consistent with a dual neurobiological framework where phylogenetically older bihemispheric systems form part of the network that supports language function in the modern human, and where significant capacities for language comprehension remain intact even following severe left hemisphere damage. Hum Brain Mapp 36:1190–1201, 2015. © 2014 The Authors Human Brain Mapping Published by Wiley Periodicals, Inc.
Highlights
Converging neuroimaging and neuropsychological evidence suggest that language comprehension reflects a coalition of processing functions distributed over two neurobiologically distinct systems
While there is strong evidence that LH frontotemporal regions play a critical role in supporting grammatical computations, data from brain damaged patients suggest that some aspects of grammatical processing could be supported bilaterally
We aimed to establish what are the processing capacities of the distributed bilateral network, and what specific types of grammatical computation drive the engagement of the left hemisphere circuit
Summary
Converging neuroimaging and neuropsychological evidence suggest that language comprehension reflects a coalition of processing functions distributed over two neurobiologically distinct systems. Contract grant sponsor: ERC Advanced Investigator Grant (Neurolex; 230570; to W.M.W.); Contract grant sponsor: MRC Cognition and Brain Sciences Unit (CBU; U.1055.04.002.00001.01; to W.M.W.)
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