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White matter organisation of sensorimotor tracts is associated with motor imagery in childhood

Version 3 2024-08-08, 01:46
Version 2 2024-08-07, 01:47
Version 1 2024-07-03, 06:11
journal contribution
posted on 2024-08-08, 01:46 authored by Mugdha MukherjeeMugdha Mukherjee, Christian HydeChristian Hyde, Pam BarhounPam Barhoun, KM Bianco, M Singh, J Waugh, Tim SilkTim Silk, Jarrad LumJarrad Lum, Karen CaeyenberghsKaren Caeyenberghs, J Williams, Peter EnticottPeter Enticott, Ian FuelscherIan Fuelscher
AbstractDespite the important role of motor imagery (MI) in motor development, our understanding of the contribution of white matter fibre properties to MI performance in childhood remains limited. To provide novel insight into the white matter correlates of MI performance, this study examined the association between white matter fibre properties and motor imagery performance in a sample of typically developing children. High angular diffusion weighted imaging data were collected from 22 typically developing children aged 6–14 years (12 female, MAge= 10.56). Implicit motor imagery performance was assessed using a mental hand rotation paradigm. The cerebellar peduncles and the superior longitudinal fasciculus were reconstructed using TractSeg, a semi-automated method. For each tract, white matter microstructure (fibre density, FD) and morphology (fibre bundle cross-section, FC) were estimated using Fixel-Based Analysis. Permutation-based inference testing and partial correlation analyses demonstrated that higher FC in the middle cerebellar peduncles was associated with better MI performance. Tract-based region of interest analyses showed that higher FC in the middle and superior cerebellar peduncles were associated with better MI performance. Results suggest that white matter connectivity along the cerebellar peduncles may facilitate MI performance in childhood. These findings advance our understanding of the neurobiological systems that underlie MI performance in childhood and provide early evidence for the relevance of white matter sensorimotor pathways to internal action representations.

History

Journal

Brain Structure and Function

Pagination

1-13

Location

Berlin, Germany

ISSN

1863-2653

eISSN

1863-2661

Language

eng

Publication classification

C1.1 Refereed article in a scholarly journal

Publisher

Springer

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