Contralateral Cerebro-Cerebellar White Matter Pathways for Verbal Working Memory: A Combined Diffusion Spectrum Imaging and fMRI Study

Date

2016-05

Advisors

Journal Title

Journal ISSN

ISSN

DOI

Volume Title

Publisher

24th ISMRM Conference

Type

Conference

Peer reviewed

Abstract

Diffusion spectrum imaging was employed to establish structural connectivity between cerebro-cerebellar regions co-activated during verbal working memory. IFG, IPL, pons, thalamus, superior cerebellum and inferior cerebellum were used as seed points to reconstruct the white matter cerebro-cerebellar circuitry. The reconstructed pathways were examined further to establish the relationship between structural and effective connectivity as well as the relationship between structural connectivity and verbal working memory performance. It was found that structural connectivity is indirectly related to effective connectivity but does not predict it. Additionally, it was demonstrated that the integrity of the ponto-cerebellar tract is an important factor in explaining individual differences in verbal working memory. The findings of the study furthered our understanding of the relationship between structural and functional connectivity and provided insight to the variability in verbal working memory performance.

Description

Keywords

neuroimaging, DSI, Cerebra-Cerebellar pathways,, working memory

Citation

Sobczak-Edmans, M. et al. (2016) Contralateral cerebro-cerebellar white matter pathways for verbal working memory: A combined diffusion spectrum imaging and fMRI study. Presented at the 24th ISMRM Conference, Singapore.

Rights

Research Institute