Kavli Affiliate: Daeyeol Lee
| Authors: John Bero IV, Colin Humphries, Yang Li, Aviral Kumar, Heungyeol Lee, Maxwell Shinn, John D. Murray, Timothy Vickery and Daeyeol Lee
| Summary:
Sensorimotor and cognitive abilities undergo substantial changes throughout the human lifespan, but the corresponding changes in the functional properties of cortical networks remain poorly understood. This can be studied using temporal and spatial scales of functional magnetic resonance imaging (fMRI) signals, which provide a robust description of the topological structure and temporal dynamics of neural activity. For example, timescales of resting-state fMRI signals can parsimoniously predict a significant amount of the individual variability in functional connectivity networks identified in adult human brains. In the present study, we quantified and compared temporal and spatial scales in resting-state fMRI data collected from 2,352 subjects between the ages of 5 and 100 in Developmental, Young Adult, and Aging datasets from Human Connectome Project. For most cortical regions, we found that both temporal and spatial scales largely decreased with age across most cortical areas throughout the lifespan, with the visual cortex and the limbic network consistently showing the largest and smallest scales, respectively. For some prefrontal regions, however, these two scales displayed non-monotonic trajectories during adolescence and peaked around the same time during adolescence and decreased throughout the rest of the lifespan. We also found that cortical myelination increased monotonically throughout the lifespan, and its rate of change was significantly correlated with the changes in both temporal and spatial scales across different cortical regions in adulthood. These findings suggest that temporal and spatial scales in fMRI signals, as well as cortical myelination, are closely coordinated during both development and aging. Competing Interest Statement The authors declare that they have known competing financial interests or personal relationships which could have appeared to influence the work reported in this paper, as some are employees of Neurogazer Inc. which funded this study. In addition, JDM is a part-time contractor for Johnson & Johnson Innovative Medicine.