The development of large-scale functional brain networks is a complex, lifelong process that can be investigated using resting-state functional connectivity MRI (rs-fcMRI). In this study, we aimed to decode the developmental dynamics of the whole-brain functional network in seven decades (8-79 years) of the human lifespan. We first used parametric curve fitting to examine linear and nonlinear age effect on the resting human brain, and then combined manifold learning and support vector machine methods to predict individuals' "brain ages" from rs-fcMRI data. We found that age-related changes in interregional functional connectivity exhibited spatially and temporally specific patterns. During brain development from childhood to senescence, fun...
The organization of human brain networks can be measured by capturing correlated brain activity with...
The organization of human brain networks can be measured by capturing correlated brain activity with...
The organization of human brain networks can be measured by capturing correlated brain activity with...
<div><p>The development of large-scale functional brain networks is a complex, lifelong process that...
Human brain function undergoes complex transformations across the lifespan. We employed resting-stat...
AbstractHuman brain function undergoes complex transformations across the lifespan. We employed rest...
The organization of human brain networks can be measured by capturing correlated brain activity with...
During normal aging, the brain undergoes structural and functional changes. Many studies applied sta...
Normal aging is related to a decline in specific cognitive processes, in particular in executive fun...
The organization of human brain networks can be measured by capturing correlated brain activity with...
The organization of human brain networks can be measured by capturing correlated brain activity with...
Effective communication between different parts of the brain is a key feature of normal brain functi...
The organization of human brain networks can be measured by capturing correlated brain activity with...
The organization of human brain networks can be measured by capturing correlated brain activity with...
The organization of human brain networks can be measured by capturing correlated brain activity with...
The organization of human brain networks can be measured by capturing correlated brain activity with...
The organization of human brain networks can be measured by capturing correlated brain activity with...
The organization of human brain networks can be measured by capturing correlated brain activity with...
<div><p>The development of large-scale functional brain networks is a complex, lifelong process that...
Human brain function undergoes complex transformations across the lifespan. We employed resting-stat...
AbstractHuman brain function undergoes complex transformations across the lifespan. We employed rest...
The organization of human brain networks can be measured by capturing correlated brain activity with...
During normal aging, the brain undergoes structural and functional changes. Many studies applied sta...
Normal aging is related to a decline in specific cognitive processes, in particular in executive fun...
The organization of human brain networks can be measured by capturing correlated brain activity with...
The organization of human brain networks can be measured by capturing correlated brain activity with...
Effective communication between different parts of the brain is a key feature of normal brain functi...
The organization of human brain networks can be measured by capturing correlated brain activity with...
The organization of human brain networks can be measured by capturing correlated brain activity with...
The organization of human brain networks can be measured by capturing correlated brain activity with...
The organization of human brain networks can be measured by capturing correlated brain activity with...
The organization of human brain networks can be measured by capturing correlated brain activity with...
The organization of human brain networks can be measured by capturing correlated brain activity with...