Altered temporal stability in dynamic neural networks underlies connectivity changes in neurodevelopment

Brookes, Matthew J.; Groom, Madeleine J.; Liuzzi, Lucrezia; Hill, Ryan M.; Smith, Helen J.F.; Briley, Paul M.; Hall, Emma L.; Hunt, Benjamin A.E.; Gascoyne, Lauren E.; Taylor, Margot J.; Liddle, Peter F.; Morris, Peter G.; Woolrich, Mark W.; Liddle, Elizabeth B.

doi:10.1016/j.neuroimage.2018.03.008

All Outputs (2)

Development of human electrophysiological brain networks (2018)
Journal Article
Briley, P. M., Liddle, E. B., Groom, M. J., Smith, H. J. F., Morris, P. G., Colclough, G. L., Brookes, M. J., & Liddle, P. F. (2018). Development of human electrophysiological brain networks. Journal of Neurophysiology, 120(6), 3122-3130. https://doi.org/10.1152/jn.00293.2018

Functional activity in the human brain is intrinsically organized into independently active, connected brain regions. These networks include sensorimotor systems, as well as higher-order cognitive networks such as the default mode network (DMN), whic... Read More about Development of human electrophysiological brain networks.

Altered temporal stability in dynamic neural networks underlies connectivity changes in neurodevelopment (2018)
Journal Article
Brookes, M. J., Groom, M. J., Liuzzi, L., Hill, R. M., Smith, H. J., Briley, P. M., Hall, E. L., Hunt, B. A., Gascoyne, L. E., Taylor, M. J., Liddle, P. F., Morris, P. G., Woolrich, M. W., & Liddle, E. B. (2018). Altered temporal stability in dynamic neural networks underlies connectivity changes in neurodevelopment. NeuroImage, 174, https://doi.org/10.1016/j.neuroimage.2018.03.008

Network connectivity is an integral feature of human brain function, and characterising its maturational trajectory is a critical step towards understanding healthy and atypical neurodevelopment. Here, we used magnetoencephalography (MEG) to investig... Read More about Altered temporal stability in dynamic neural networks underlies connectivity changes in neurodevelopment.