Abstract
A recent dual-stream model of language processing proposed that the postero-dorsal stream performs predictive sequential processing of linguistic information via hierarchically organized internal models. However, it remains unexplored whether the prosodic segmentation of linguistic information involves predictive processes. Here, we addressed this question by investigating the processing of word stress, a major component of speech segmentation, using probabilistic repetition suppression (RS) modulation as a marker of predictive processing. In an event-related acoustic fMRI RS paradigm, we presented pairs of pseudowords having the same (Rep) or different (Alt) stress patterns, in blocks with varying Rep and Alt trial probabilities. We found that the BOLD signal was significantly lower for Rep than for Alt trials, indicating RS in the posterior and middle superior temporal gyrus (STG) bilaterally, and in the anterior STG in the left hemisphere. Importantly, the magnitude of RS was modulated by repetition probability in the posterior and middle STG. These results reveal the predictive processing of word stress in the STG areas and raise the possibility that words stress processing is related to the dorsal “where” auditory stream.
Highlights
The human brain is best viewed as an inference machine, actively predicting and explaining its sensations through internal representations modeling the dynamic sensory context (Friston, 2010)
We used repetition suppression (RS) to investigate the processing of word stress in speech-sensitive regions of the superior temporal cortex iden tified with independent functional localizer
The results revealed RS effects related to word stress processing in several superior temporal cortical areas
Summary
The human brain is best viewed as an inference machine, actively predicting and explaining its sensations through internal representations modeling the dynamic sensory context (Friston, 2010). Word stress processing has been associated with activa tions in the STG/superior temporal sulcus (STS), together with other areas like the IFG, SMA (supplementary motor area), and areas in the parietal (angular gyrus, superior parietal gyrus, parietal lobule) and frontal lobes (precentral, postcentral, and middle frontal gyrus); most of which could be assumed to be part of the dorsal stream (Aleman et al, 2005; Domahs et al, 2013; Heisterueber et al, 2014; Kandylaki et al, 2017; Klein et al, 2011) It remains an open question whether predictive pro cesses are involved in the prosodic segmentation of linguistic input and in words stress processing.
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