Modality specificity in the cerebro-cerebellar neurocircuitry during working memory

Modality specificity in the cerebro-cerebellar neurocircuitry during working memory

Previous studies have suggested cerebro-cerebellar circuitry in working memory. The present fMRI study aims to distinguish differential cerebro-cerebellar activation patterns in verbal and visual working memory, and employs a quantitative analysis to deterimine lateralization of the activation patte...

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Bibliographic Details
Main Authors: Ng, H. B. Tommy, Kao, K.-L. Cathy, Chan, Y. C., Chew, Effie, Chuang, K. H., Chen, Annabel Shen-Hsing
Other Authors: School of Humanities and Social Sciences
Format: Article
Language:English
Published: 2016
Subjects:
Cerebellum
Cerebro-cerebellar
Online Access:https://hdl.handle.net/10356/81781
http://hdl.handle.net/10220/40937
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Institution: Nanyang Technological University
Language: English
Description
Summary:Previous studies have suggested cerebro-cerebellar circuitry in working memory. The present fMRI study aims to distinguish differential cerebro-cerebellar activation patterns in verbal and visual working memory, and employs a quantitative analysis to deterimine lateralization of the activation patterns observed. Consistent with Chen and Desmond (2005a,b) predictions, verbal working memory activated a cerebro-cerebellar circuitry that comprised left-lateralized language-related brain regions including the inferior frontal and posterior parietal areas, and subcortically, right-lateralized superior (lobule VI) and inferior cerebellar (lobule VIIIA/VIIB) areas. In contrast, a distributed network of bilateral inferior frontal and inferior temporal areas, and bilateral superior (lobule VI) and inferior (lobule VIIB) cerebellar areas, was recruited during visual working memory. Results of the study verified that a distinct cross cerebro-cerebellar circuitry underlies verbal working memory. However, a neural circuitry involving specialized brain areas in bilateral neocortical and bilateral cerebellar hemispheres subserving visual working memory is observed. Findings are discussed in the light of current models of working memory and data from related neuroimaging studies.

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