Abstract
Functional brain imaging studies have improved our knowledge of the neural localization of language functions and the functional reorganization after a lesion. However, the neural correlates of agrammatic symptoms in aphasia remain largely unknown. The present fMRI study examined the neural correlates of morpho-syntactic encoding and agrammatic errors in continuous language production by combining three approaches. First, the neural mechanisms underlying natural morpho-syntactic processing in a picture description task were analyzed in 15 healthy speakers. Second, agrammatic-like speech behavior was induced in the same group of healthy speakers to study the underlying functional processes by limiting the utterance length. In a third approach, five agrammatic participants performed the picture description task to gain insights in the neural correlates of agrammatism and the functional reorganization of language processing after stroke. In all approaches, utterances were analyzed for syntactic completeness, complexity, and morphology. Event-related data analysis was conducted by defining every clause-like unit (CLU) as an event with its onset-time and duration. Agrammatic and correct CLUs were contrasted. Due to the small sample size as well as heterogeneous lesion sizes and sites with lesion foci in the insula lobe, inferior frontal, superior temporal and inferior parietal areas the activation patterns in the agrammatic speakers were analyzed on a single subject level. In the group of healthy speakers, posterior temporal and inferior parietal areas were associated with greater morpho-syntactic demands in complete and complex CLUs. The intentional manipulation of morpho-syntactic structures and the omission of function words were associated with additional inferior frontal activation. Overall, the results revealed that the investigation of the neural correlates of agrammatic language production can be reasonably conducted with an overt language production paradigm.
Highlights
In natural continuous speech production, multiple single-words are combined into larger units to convey a message in a highly automated process
The present fMRI study has shown that the investigation of the neural correlates of agrammatic language production can be reasonably conducted with an overt language production task
In the group of healthy speakers, the posterior middle temporal gyrus (pMTG) and the inferior parietal cortex including the left angular gyrus (AG) and supramarginal gyrus (SMG) were associated with greater morpho-syntactic demands in complete and complex clause-like unit (CLU)
Summary
In natural continuous speech production, multiple single-words are combined into larger units to convey a message in a highly automated process. Its morpho-syntactic features such as number, tense, grammatical gender and word class as well as the syntactic frame defining its possible structural environment are activated. In a morpho-syntactic encoding process the lexical items with their specific constraints are combined into a syntactic structure and an utterance is generated (Vosse and Kempen, 2000; Levelt, 2001; Hagoort, 2003, 2005; Indefrey and Levelt, 2004; Menenti et al, 2012). The term morpho-syntax depicts different aspects of a sentence structure as its complexity (compound or simple sentences), the completeness, and the correct use of function words and flexional elements (morphology)
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