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- Title
Top-Down Modulation of Auditory-Motor Integration during Speech Production: The Role of Working Memory.
- Authors
Zhiqiang Guo; Xiuqin Wu; Weifeng Li; Jones, Jeffery A.; Nan Yan; Sheft, Stanley; Peng Liu; Hanjun Liu
- Abstract
Although working memory (WM) is considered as an emergent property of the speech perception and production systems, the role of WM in sensorimotor integration during speech processing is largely unknown. We conducted two event-related potential experiments with female and male young adults to investigate the contribution of WM to the neurobehavioural processing of altered auditory feedback during vocal production. A delayed match-to-sample task that required participants to indicate whether the pitch feedback perturbations they heard during vocalizations in test and sample sequences matched, elicited significantly larger vocal compensations, larger N1 responses in the left middle and superior temporal gyrus, and smaller P2 responses in the left middle and superior temporal gyrus, inferior parietal lobule, somatosensory cortex, right inferior frontal gyrus, and insula compared with a control task that did not require memory retention of the sequence of pitch perturbations. On the other hand, participants who underwent extensive auditory WM training produced suppressed vocal compensations that were correlated with improved auditory WM capacity, and enhanced P2 responses in the left middle frontal gyrus, inferior parietal lobule, right inferior frontal gyrus, and insula that were predicted by pretraining auditory WM capacity. These findings indicate that WM can enhance the perception of voice auditory feedback errors while inhibiting compensatory vocal behavior to prevent voice control from being excessively influenced by auditory feedback. This study provides the first evidence that auditory-motor integration for voice control can be modulated by top-down influences arising from WM, rather than modulated exclusively by bottom-up and automatic processes.
- Subjects
SHORT-term memory; AUDITORY perception; AUDITORY scene analysis; SPEECH audiometry; DEVELOPMENTAL neurobiology; PHYSIOLOGY
- Publication
Journal of Neuroscience, 2017, Vol 37, Issue 43, p10323
- ISSN
0270-6474
- Publication type
Article
- DOI
10.1523/JNEUROSCI.1329-17.2017