A meta-analysis of cerebrocerebellar networks of reading and working memory
The cerebellum is steadily gaining recognition as being integral to cognition. This meta-analysis investigated consistently activated cortical and cerebellar regions, and cerebrocerebellar functional connectivity networks for reading and working memory. Activation Likelihood Estimation meta-analysis...
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Nanyang Technological University
2024
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sg-ntu-dr.10356-1818652024-12-29T15:32:04Z A meta-analysis of cerebrocerebellar networks of reading and working memory Soh, Valeree Annabel Chen Shen-Hsing School of Social Sciences Wu Chiao-Yi chiao-yi.wu@nie.edu.sg , AnnabelChen@ntu.edu.sg Social Sciences Reading Working memory Cerebrocerebellar networks Functional connectivity Meta-analysis Activation likelihood estimation Meta-analytic connectivity modelling The cerebellum is steadily gaining recognition as being integral to cognition. This meta-analysis investigated consistently activated cortical and cerebellar regions, and cerebrocerebellar functional connectivity networks for reading and working memory. Activation Likelihood Estimation meta-analysis was used on task-based fMRI and PET studies involving these domains. Consistent activation was observed in the left inferior frontal gyrus and fusiform gyrus during reading, while working memory revealed a fronto-parietal activation pattern with bilateral cerebellar Lobule VI/Crus I involvement. Previously underexplored regions were also activated. Furthermore, functional connectivity networks of reading revealed a hierarchical pattern, with the left IFG at the top. Functional connectivity networks of working memory found extensive connections involving the left lentiform nucleus, underscoring its potentially significant role in supporting working memory. Furthermore, bilateral cerebellar Lobule VI, right cerebellar Crus II, and left cerebellar Crus I were commonly activated in both processes. The study concluded by highlighting the importance of understanding neural mechanisms underlying specific aspects of reading and WM, proposing that regions showing activation and functional connectivity networks differ based on task specificity. Bachelor's degree 2024-12-27T11:19:31Z 2024-12-27T11:19:31Z 2024 Final Year Project (FYP) Soh, V. (2024). A meta-analysis of cerebrocerebellar networks of reading and working memory. Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/181865 https://hdl.handle.net/10356/181865 en application/pdf Nanyang Technological University |
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Social Sciences Reading Working memory Cerebrocerebellar networks Functional connectivity Meta-analysis Activation likelihood estimation Meta-analytic connectivity modelling |
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Social Sciences Reading Working memory Cerebrocerebellar networks Functional connectivity Meta-analysis Activation likelihood estimation Meta-analytic connectivity modelling Soh, Valeree A meta-analysis of cerebrocerebellar networks of reading and working memory |
| description |
The cerebellum is steadily gaining recognition as being integral to cognition. This meta-analysis investigated consistently activated cortical and cerebellar regions, and cerebrocerebellar functional connectivity networks for reading and working memory. Activation Likelihood Estimation meta-analysis was used on task-based fMRI and PET studies involving these domains. Consistent activation was observed in the left inferior frontal gyrus and fusiform gyrus during reading, while working memory revealed a fronto-parietal activation pattern with bilateral cerebellar Lobule VI/Crus I involvement. Previously underexplored regions were also activated. Furthermore, functional connectivity networks of reading revealed a hierarchical pattern, with the left IFG at the top. Functional connectivity networks of working memory found extensive connections involving the left lentiform nucleus, underscoring its potentially significant role in supporting working memory. Furthermore, bilateral cerebellar Lobule VI, right cerebellar Crus II, and left cerebellar Crus I were commonly activated in both processes. The study concluded by highlighting the importance of understanding neural mechanisms underlying specific aspects of reading and WM, proposing that regions showing activation and functional connectivity networks differ based on task specificity. |
| author2 |
Annabel Chen Shen-Hsing |
| author_facet |
Annabel Chen Shen-Hsing Soh, Valeree |
| format |
Final Year Project |
| author |
Soh, Valeree |
| author_sort |
Soh, Valeree |
| title |
A meta-analysis of cerebrocerebellar networks of reading and working memory |
| title_short |
A meta-analysis of cerebrocerebellar networks of reading and working memory |
| title_full |
A meta-analysis of cerebrocerebellar networks of reading and working memory |
| title_fullStr |
A meta-analysis of cerebrocerebellar networks of reading and working memory |
| title_full_unstemmed |
A meta-analysis of cerebrocerebellar networks of reading and working memory |
| title_sort |
meta-analysis of cerebrocerebellar networks of reading and working memory |
| publisher |
Nanyang Technological University |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/181865 |
| _version_ |
1820027769532186624 |